6. Multi-Model Switching with Contact#
6.1. Goal#
Demonstrate runtime switching between pendulum models (FMU/OpenSim/FEM) during contact and evaluate the resulting trajectory.
6.2. Model Map#
6.3. Assumptions and Scope#
Contact modeled as discrete events
Fixed-step co-simulation
6.4. Prerequisites and Setup#
from pathlib import Path
import sys
import numpy as np
import matplotlib.pyplot as plt
from demos.ControlledPendulum.src.master_pendulum import MasterPendulum
import demos.ControlledPendulum.src.master_pendulum.components.fem.pendulum_config as config
from syssimx import FMUComponent, System, SystemGraphVisualizer, Connection, EventConnection
6.5. Discover FMUs#
PLATFORM = sys.platform
demo_dir_path = Path().cwd() / "demos" / "ControlledPendulum"
package_path = Path(demo_dir_path / "src/modelica/ControlledPendulum")
fmu_output_dir = Path(demo_dir_path / f"artifacts/fmus/{PLATFORM}")
fmu_paths = {}
for subdir in fmu_output_dir.iterdir():
if subdir.is_dir():
fmu_paths[subdir.name] = {}
for fmu_file in subdir.glob("*.fmu"):
fmu_paths[subdir.name][fmu_file.stem] = fmu_file
else:
fmu_paths[subdir.stem] = subdir
6.6. Modelica Reference Simulation#
We refer to the monolithic Modelica simulation as “Modelica” in the following. The simulation results are obtained by running the RigidContact example model in OpenModelica using the OMPython interface. The model can be found in the demos/ControlledPendulum/src/modelica/ControlledPendulum/Examples/Contact/RigidContact.mo package.
The RigidContact model and the here used co-simulation with multi-model pendulum are only to some extent comparable, as the RigidContact model includes a discrete rigid contact, while the multi-model pendulum uses the underlying FEMPendulum model with a continuous contact formulation.
However, the RigidContact model serves as a useful reference for the overall system behavior during contact and allows us to evaluate the multi-model switching approach in a realistic scenario.
Since the FEMPendulum model uses a higly stiff contact formulation, we expect the multi-model switching approach to closely follow the reference trajectory during contact.
from OMPython import ModelicaSystem, OMCSession
reference = ModelicaSystem(fileName=str(package_path / "package.mo"),
modelName="ControlledPendulum.Examples.Contact.RigidContact")
reference.setParameters('useReset=true')
reference.buildModel()
reference.simulate()
ref_sol_names = ('time', 'theta', 'theta_ref', 'theta_meas', 'pid.I_out', 'pendulum.contact')
ref_sol_reset = {name: reference.getSolutions(name).flatten() for name in ref_sol_names}
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Notification: Automatically loaded package Complex 4.0.0 due to uses annotation from Modelica.
Notification: Automatically loaded package ModelicaServices 4.0.0 due to uses annotation from Modelica.
Notification: Automatically loaded package Modelica 4.0.0 due to usage.
Warning: The initial conditions are not fully specified. For more information set -d=initialization. In OMEdit Tools->Options->Simulation->Show additional information from the initialization process, in OMNotebook call setCommandLineOptions("-d=initialization").
Warning: The initial conditions are not fully specified. For more information set -d=initialization. In OMEdit Tools->Options->Simulation->Show additional information from the initialization process, in OMNotebook call setCommandLineOptions("-d=initialization").
LOG_SUCCESS | info | The initialization finished successfully without homotopy method.
LOG_SUCCESS | info | The simulation finished successfully.
6.7. Instantiate FMU Components#
def print_parameteres(component: FMUComponent):
print(f"Parameters of {component.name}:")
for name, param in component.parameters.items():
if '.' not in name and param is not None:
print(f" - {name}: {param}")
6.7.1. Setpoint#
setpoint = FMUComponent(name="Setpoint",
fmu_path=fmu_paths['Trajectories']["SetPoint"],
group="Reference")
print_parameteres(setpoint)
Parameters of Setpoint:
- amplitude: 0.3490658503988659 rad
- frequency: 0.75 Hz
- offset: 0.0 rad
- phase: 0.0 rad
6.7.2. PID Controller#
class PIDController(FMUComponent):
def __init__(self, name):
fmu_path = fmu_paths['Controllers']['PIDControllerReset_euler']
super().__init__(name=name, fmu_path=fmu_path, group="Controller")
self.use_reset = False # Flag to control whether to apply reset on event
def _handle_events_internal(self, event_names, t):
if "wall_hit" not in event_names:
return
self.set_inputs({"resetI": True})
self.do_step(t, 0) # Perform a step to apply the resetI input
self.set_inputs({"resetI": False})
pid = PIDController(name="PID")
print_parameteres(pid)
Parameters of PID:
- Kd: 0.15
- Ki: 4.0
- Kp: 10.0
- uMax: 1.0
- uMin: -1.0
6.7.3. Drive#
drive = FMUComponent(name="Drive",
fmu_path=fmu_paths['Actuators']["DriveDynamic"],
group="Actuator")
print_parameteres(drive)
Parameters of Drive:
- I_max: 10.0 A
- L_arm: 0.000121 H
- R_arm: 0.151 Ohm
- V_rated: 48.0 V
- V_supply: 16.0 V
- eta: 0.85
- gearRatio: 60.0
- k_t: 0.03 m·N/A
- n_0: 12916.0 1/min
6.7.4. Pendulum#
init_params = config.InitialConditionParameters()
init_params.angular_position_deg = 0
mat_params = config.MaterialParameters()
mat_params.E_pendulum = 2.1e11
mat_params.nu_pendulum = 0.3
mat_params.rho_pendulum = 7800
sim_params = config.SimulationParameters()
sim_params.tau = 0.001
sim_params.t_end = 2
sim_params.with_contact = True
sim_params.use_gravity = True
anim_params = config.AnimationParameters()
anim_params.animate = False
fem_parameters = {
'mat_params': mat_params,
'init_params': init_params,
'sim_params': sim_params,
'anim_params': anim_params,
}
pendulum = MasterPendulum(name="MasterPendulum", initial_mode="FMU")
pendulum.set_parameters(**{"FEM": fem_parameters})
pendulum.initialize(t0=0.0)
pendulum._allow_mode_switching = True
def wall_contact_indicator(comp: MasterPendulum) -> float:
theta = comp.get_outputs()["theta"]
theta_wall = 0.0
return theta - theta_wall
pendulum.add_event_indicator("wall_hit", func=wall_contact_indicator, direction=-1)
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LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
6.7.5. Angle Sensor and Decoder#
angle_sensor = FMUComponent(name="Angle Sensor",
fmu_path=fmu_paths['Sensors']['AngleSensor'],
group="Sensors")
print_parameteres(angle_sensor)
Parameters of Angle Sensor:
- pot_range: 4.71238898038469 rad
- r_bottom: 20000.0 Ohm
- r_top: 80000.0 Ohm
- samplePeriod: 0.01 s
- theta_max: 0.45378560551852565 rad
- theta_min: -0.45378560551852565 rad
- v_adc: 3.0 V
- v_pot: 5.0 V
- nBits: 10
angle_decoder = FMUComponent(name="Angle Decoder",
fmu_path=fmu_paths['Sensors']['AngleDecoder'],
group="Signal Processing")
print_parameteres(angle_decoder)
Parameters of Angle Decoder:
- pot_range: 4.71238898038469 rad
- r_bottom: 20000.0 Ohm
- r_top: 80000.0 Ohm
- samplePeriod: 0.01 s
- theta_max: 0.45378560551852565 rad
- theta_min: -0.45378560551852565 rad
- v_adc: 3.0 V
- v_pot: 5.0 V
- nBits: 10
6.8. Define Connections#
c1 = Connection(
src_comp=setpoint.name,
src_port=setpoint.output_specs["theta_ref"].name,
dst_comp=pid.name,
dst_port=pid.input_specs["theta_ref"].name,
)
c21 = Connection(
src_comp=pendulum.name,
src_port=pendulum.output_specs["theta"].name,
dst_comp=angle_sensor.name,
dst_port=angle_sensor.input_specs["theta"].name,
)
c22 = Connection(
src_comp=angle_sensor.name,
src_port=angle_sensor.output_specs["v_out"].name,
dst_comp=angle_decoder.name,
dst_port=angle_decoder.input_specs["v_in"].name,
)
c23 = Connection(
src_comp=angle_decoder.name,
src_port=angle_decoder.output_specs["theta"].name,
dst_comp=pid.name,
dst_port=pid.input_specs["theta_meas"].name,
)
c3 = Connection(
src_comp=pid.name,
src_port=pid.output_specs["u"].name,
dst_comp=drive.name,
dst_port=drive.input_specs["u_control"].name,
)
c4 = Connection(
src_comp=drive.name,
src_port=drive.output_specs["torque"].name,
dst_comp=pendulum.name,
dst_port=pendulum.input_specs["tau"].name,
)
c5 = Connection(
src_comp=pendulum.name,
src_port=pendulum.output_specs["omega"].name,
dst_comp=drive.name,
dst_port=drive.input_specs["omega"].name,
)
event_connection_1 = EventConnection(
src_comp=pendulum.name,
src_port="wall_hit",
dst_comp=pendulum.name,
dst_port=pendulum.input_specs["omega_invert"].name,
)
event_connection_2 = EventConnection(
src_comp=pendulum.name,
src_port="wall_hit",
dst_comp=pid.name,
dst_port=pid.input_specs["resetI"].name,
)
connections = [c1, c21, c22, c23, c3, c4, c5]
components = [setpoint, pid, drive, pendulum, angle_decoder, angle_sensor]
6.9. Build and Initialize the System#
system = System(name="Pendulum System with Master Pendulum")
for comp in components:
system.add_component(comp)
for conn in connections:
system.add_connection(conn)
system.add_event_connection(event_connection_1)
system.add_event_connection(event_connection_2)
system.initialize(t0=0.0)
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LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
6.10. Visualize the System Graph#
visualizer = SystemGraphVisualizer(system)
visualizer.visualize()
6.11. Setup Pendulum Monitoring#
pendulum.setup_monitoring()
pendulum.display_monitoring()
6.12. Run Simulation#
t = 0.0
dt = sim_params.tau
t_end = sim_params.t_end
system.run(t, t_end, dt)
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[INFO] [Hybrid] Time: 0.0010 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0020 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0030 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0040 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0050 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0060 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0070 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0190 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0200 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0210 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0220 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0230 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0240 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0250 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0260 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0270 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0280 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0290 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0300 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0310 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0320 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0330 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0340 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0350 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0360 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0370 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0380 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0390 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0400 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0410 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0420 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0430 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0440 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0450 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0460 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0470 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0480 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0490 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0500 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.0510 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[MasterPendulum] Switching: FMU to FEM @ t=0.0500s
[INFO] [Hybrid] Time: 0.0520 s
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[MasterPendulum] Switching: FEM to OpenSim @ t=0.1000s
[INFO] [Hybrid] Time: 0.1020 s
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[MasterPendulum] Switching: OpenSim to FMU @ t=0.1500s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1520 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1530 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1540 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1550 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1560 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1570 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1580 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1590 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1600 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1610 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1620 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1630 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1640 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1650 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1660 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1670 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1680 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1690 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1700 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1710 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1720 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1730 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1740 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1750 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1760 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1770 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1780 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1790 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1800 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1810 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1820 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1830 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1840 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1850 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1860 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1870 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1880 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1890 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1900 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1910 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1920 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1930 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1940 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1950 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1960 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1970 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1980 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.1990 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2000 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2010 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2020 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2030 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2040 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2050 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2060 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2070 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2190 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2200 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2210 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2220 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2230 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2240 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2250 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2260 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2270 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2280 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2290 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2300 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2310 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2320 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2330 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2340 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2350 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2360 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2370 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2380 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2390 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2400 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2410 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2420 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2430 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2440 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2450 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2460 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2470 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2480 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2490 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2500 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2510 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2520 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2530 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2540 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2550 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2560 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2570 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2580 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2590 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2600 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2610 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2620 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2630 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2640 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2650 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2660 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2670 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2680 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2690 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2700 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2710 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2720 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2730 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2740 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2750 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2760 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2770 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2780 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2790 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2800 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2810 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2820 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2830 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2840 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2850 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2860 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2870 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2880 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2890 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2900 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2910 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2920 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2930 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2940 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2950 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2960 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2970 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2980 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.2990 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3000 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3010 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3020 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3030 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3040 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3050 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3060 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3070 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3190 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3200 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3210 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3220 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3230 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3240 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3250 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3260 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3270 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3280 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3290 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3300 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3310 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3320 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3330 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3340 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3350 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3360 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3370 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3380 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3390 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3400 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3410 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3420 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3430 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3440 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3450 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3460 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3470 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3480 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3490 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3500 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3510 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3520 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3530 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3540 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3550 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3560 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3570 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3580 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3590 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3600 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3610 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3620 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3630 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3640 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3650 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3660 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3670 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3680 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3690 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3700 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3710 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3720 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3730 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3740 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3750 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3760 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3770 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3780 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3790 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3800 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3810 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3820 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3830 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3840 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3850 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3860 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3870 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3880 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3890 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3900 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3910 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3920 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3930 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3940 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3950 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3960 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3970 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3980 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.3990 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4000 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4010 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4020 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4030 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4040 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4050 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4060 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4070 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4190 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4200 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4210 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4220 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4230 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4240 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4250 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4260 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4270 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4280 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4290 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4300 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4310 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4320 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4330 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4340 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4350 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4360 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4370 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4380 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4390 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4400 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4410 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4420 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4430 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4440 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4450 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4460 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4470 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4480 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4490 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4500 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4510 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4520 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4530 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4540 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4550 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4560 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4570 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4580 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4590 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4600 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4610 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4620 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4630 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4640 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4650 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4660 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4670 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4680 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4690 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4700 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4710 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4720 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4730 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4740 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4750 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4760 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4770 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4780 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4790 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4800 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4810 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4820 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4830 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4840 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4850 s
[MasterPendulum] Switching: FMU to OpenSim @ t=0.4840s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 0.4860 s
[INFO] [Hybrid] Time: 0.4870 s
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[INFO] [Hybrid] Time: 0.4890 s
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[INFO] [Hybrid] Time: 0.6080 s
[INFO] [Hybrid] Time: 0.6090 s
[INFO] [Hybrid] Time: 0.6100 s
[MasterPendulum] Switching: OpenSim to FEM @ t=0.6090s
[INFO] [Hybrid] Time: 0.6110 s
[INFO] [Hybrid] Time: 0.6120 s
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[INFO] [Hybrid] Time: 0.6280 s
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[INFO] [Hybrid] Time: 0.6360 s
[INFO] [Hybrid] Time: 0.6370 s
[INFO] [Hybrid] Time: 0.6380 s
[INFO] [Hybrid] Time: 0.6390 s
[INFO] [Hybrid] Time: 0.6400 s
[INFO] [Hybrid] Time: 0.6410 s
[INFO] [Hybrid] Time: 0.6420 s
[INFO] [Hybrid] Time: 0.6430 s
[INFO] [Hybrid] Time: 0.6440 s
[INFO] [Hybrid] Time: 0.6450 s
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[INFO] [Hybrid] Time: 0.6480 s
[INFO] [Hybrid] Time: 0.6490 s
[INFO] [Hybrid] Time: 0.6500 s
[INFO] [Hybrid] Time: 0.6510 s
[INFO] [Hybrid] Time: 0.6520 s
[INFO] [Hybrid] Time: 0.6530 s
[INFO] [Hybrid] Time: 0.6540 s
[INFO] [Hybrid] Time: 0.6550 s
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[INFO] [Hybrid] Time: 0.6570 s
[INFO] [Hybrid] Time: 0.6580 s
[INFO] [Hybrid] Time: 0.6590 s
[INFO] [Hybrid] Time: 0.6600 s
[INFO] [Hybrid] Time: 0.6610 s
[INFO] [Hybrid] Time: 0.6620 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [0.66150000, 0.66160000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [0.66100000, 0.66200000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [0.66100000, 0.66200000] -> [0.66150000, 0.66160000]
[INFO] [Hybrid] Updated left indicators at t_left = 0.66150000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=0.66150000): {'MasterPendulum': {'wall_hit': 5.726670313344633e-05}}
[INFO] [Hybrid] Initial Indicators at Right (t=0.66160000): {'MasterPendulum': {'wall_hit': -0.00011234750333197502}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -1.12347503e-04
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(0.66153359, 0)
[INFO] [Hybrid] Events to handle at t=(0.66153359, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (0.66153359, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=0.6615s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 0.6630 s
[INFO] [Hybrid] Time: 0.6640 s
[INFO] [Hybrid] Time: 0.6650 s
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[INFO] [Hybrid] Time: 0.6690 s
[INFO] [Hybrid] Time: 0.6700 s
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[INFO] [Hybrid] Time: 0.7370 s
[INFO] [Hybrid] Time: 0.7380 s
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[INFO] [Hybrid] Time: 0.7400 s
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[INFO] [Hybrid] Time: 0.7510 s
[INFO] [Hybrid] Time: 0.7520 s
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[INFO] [Hybrid] Time: 0.7540 s
[INFO] [Hybrid] Time: 0.7550 s
[INFO] [Hybrid] Time: 0.7560 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [0.75580000, 0.75590000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [0.75500000, 0.75600000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [0.75500000, 0.75600000] -> [0.75580000, 0.75590000]
[INFO] [Hybrid] Updated left indicators at t_left = 0.75580000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=0.75580000): {'MasterPendulum': {'wall_hit': 0.0001268761139493953}}
[INFO] [Hybrid] Initial Indicators at Right (t=0.75590000): {'MasterPendulum': {'wall_hit': -3.8786676977080864e-05}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -3.87866770e-05
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(0.75587656, 0)
[INFO] [Hybrid] Events to handle at t=(0.75587656, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (0.75587656, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=0.7559s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 0.7570 s
[INFO] [Hybrid] Time: 0.7580 s
[INFO] [Hybrid] Time: 0.7590 s
[INFO] [Hybrid] Time: 0.7600 s
[INFO] [Hybrid] Time: 0.7610 s
[INFO] [Hybrid] Time: 0.7620 s
[INFO] [Hybrid] Time: 0.7630 s
[INFO] [Hybrid] Time: 0.7640 s
[INFO] [Hybrid] Time: 0.7650 s
[INFO] [Hybrid] Time: 0.7660 s
[INFO] [Hybrid] Time: 0.7670 s
[INFO] [Hybrid] Time: 0.7680 s
[INFO] [Hybrid] Time: 0.7690 s
[INFO] [Hybrid] Time: 0.7700 s
[INFO] [Hybrid] Time: 0.7710 s
[INFO] [Hybrid] Time: 0.7720 s
[INFO] [Hybrid] Time: 0.7730 s
[INFO] [Hybrid] Time: 0.7740 s
[INFO] [Hybrid] Time: 0.7750 s
[INFO] [Hybrid] Time: 0.7760 s
[INFO] [Hybrid] Time: 0.7770 s
[INFO] [Hybrid] Time: 0.7780 s
[INFO] [Hybrid] Time: 0.7790 s
[INFO] [Hybrid] Time: 0.7800 s
[INFO] [Hybrid] Time: 0.7810 s
[INFO] [Hybrid] Time: 0.7820 s
[INFO] [Hybrid] Time: 0.7830 s
[INFO] [Hybrid] Time: 0.7840 s
[INFO] [Hybrid] Time: 0.7850 s
[INFO] [Hybrid] Time: 0.7860 s
[INFO] [Hybrid] Time: 0.7870 s
[INFO] [Hybrid] Time: 0.7880 s
[INFO] [Hybrid] Time: 0.7890 s
[INFO] [Hybrid] Time: 0.7900 s
[INFO] [Hybrid] Time: 0.7910 s
[INFO] [Hybrid] Time: 0.7920 s
[INFO] [Hybrid] Time: 0.7930 s
[INFO] [Hybrid] Time: 0.7940 s
[INFO] [Hybrid] Time: 0.7950 s
[INFO] [Hybrid] Time: 0.7960 s
[INFO] [Hybrid] Time: 0.7970 s
[INFO] [Hybrid] Time: 0.7980 s
[INFO] [Hybrid] Time: 0.7990 s
[INFO] [Hybrid] Time: 0.8000 s
[INFO] [Hybrid] Time: 0.8010 s
[INFO] [Hybrid] Time: 0.8020 s
[INFO] [Hybrid] Time: 0.8030 s
[INFO] [Hybrid] Time: 0.8040 s
[INFO] [Hybrid] Time: 0.8050 s
[INFO] [Hybrid] Time: 0.8060 s
[INFO] [Hybrid] Time: 0.8070 s
[INFO] [Hybrid] Time: 0.8080 s
[INFO] [Hybrid] Time: 0.8090 s
[INFO] [Hybrid] Time: 0.8100 s
[INFO] [Hybrid] Time: 0.8110 s
[INFO] [Hybrid] Time: 0.8120 s
[INFO] [Hybrid] Time: 0.8130 s
[INFO] [Hybrid] Time: 0.8140 s
[INFO] [Hybrid] Time: 0.8150 s
[INFO] [Hybrid] Time: 0.8160 s
[INFO] [Hybrid] Time: 0.8170 s
[INFO] [Hybrid] Time: 0.8180 s
[INFO] [Hybrid] Time: 0.8190 s
[INFO] [Hybrid] Time: 0.8200 s
[INFO] [Hybrid] Time: 0.8210 s
[INFO] [Hybrid] Time: 0.8220 s
[INFO] [Hybrid] Time: 0.8230 s
[INFO] [Hybrid] Time: 0.8240 s
[INFO] [Hybrid] Time: 0.8250 s
[INFO] [Hybrid] Time: 0.8260 s
[INFO] [Hybrid] Time: 0.8270 s
[INFO] [Hybrid] Time: 0.8280 s
[INFO] [Hybrid] Time: 0.8290 s
[INFO] [Hybrid] Time: 0.8300 s
[INFO] [Hybrid] Time: 0.8310 s
[INFO] [Hybrid] Time: 0.8320 s
[INFO] [Hybrid] Time: 0.8330 s
[INFO] [Hybrid] Time: 0.8340 s
[INFO] [Hybrid] Time: 0.8350 s
[INFO] [Hybrid] Time: 0.8360 s
[INFO] [Hybrid] Time: 0.8370 s
[INFO] [Hybrid] Time: 0.8380 s
[INFO] [Hybrid] Time: 0.8390 s
[INFO] [Hybrid] Time: 0.8400 s
[INFO] [Hybrid] Time: 0.8410 s
[INFO] [Hybrid] Time: 0.8420 s
[INFO] [Hybrid] Time: 0.8430 s
[INFO] [Hybrid] Time: 0.8440 s
[INFO] [Hybrid] Time: 0.8450 s
[INFO] [Hybrid] Time: 0.8460 s
[INFO] [Hybrid] Time: 0.8470 s
[INFO] [Hybrid] Time: 0.8480 s
[INFO] [Hybrid] Time: 0.8490 s
[INFO] [Hybrid] Time: 0.8500 s
[INFO] [Hybrid] Time: 0.8510 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [0.85080000, 0.85090000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [0.85000000, 0.85100000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [0.85000000, 0.85100000] -> [0.85080000, 0.85090000]
[INFO] [Hybrid] Updated left indicators at t_left = 0.85080000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=0.85080000): {'MasterPendulum': {'wall_hit': 6.967691452991825e-05}}
[INFO] [Hybrid] Initial Indicators at Right (t=0.85090000): {'MasterPendulum': {'wall_hit': -9.513747191311584e-05}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -9.51374719e-05
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(0.85084219, 0)
[INFO] [Hybrid] Events to handle at t=(0.85084219, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (0.85084219, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=0.8508s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 0.8520 s
[INFO] [Hybrid] Time: 0.8530 s
[INFO] [Hybrid] Time: 0.8540 s
[INFO] [Hybrid] Time: 0.8550 s
[INFO] [Hybrid] Time: 0.8560 s
[INFO] [Hybrid] Time: 0.8570 s
[INFO] [Hybrid] Time: 0.8580 s
[INFO] [Hybrid] Time: 0.8590 s
[INFO] [Hybrid] Time: 0.8600 s
[INFO] [Hybrid] Time: 0.8610 s
[INFO] [Hybrid] Time: 0.8620 s
[INFO] [Hybrid] Time: 0.8630 s
[INFO] [Hybrid] Time: 0.8640 s
[INFO] [Hybrid] Time: 0.8650 s
[INFO] [Hybrid] Time: 0.8660 s
[INFO] [Hybrid] Time: 0.8670 s
[INFO] [Hybrid] Time: 0.8680 s
[INFO] [Hybrid] Time: 0.8690 s
[INFO] [Hybrid] Time: 0.8700 s
[INFO] [Hybrid] Time: 0.8710 s
[INFO] [Hybrid] Time: 0.8720 s
[INFO] [Hybrid] Time: 0.8730 s
[INFO] [Hybrid] Time: 0.8740 s
[INFO] [Hybrid] Time: 0.8750 s
[INFO] [Hybrid] Time: 0.8760 s
[INFO] [Hybrid] Time: 0.8770 s
[INFO] [Hybrid] Time: 0.8780 s
[INFO] [Hybrid] Time: 0.8790 s
[INFO] [Hybrid] Time: 0.8800 s
[INFO] [Hybrid] Time: 0.8810 s
[INFO] [Hybrid] Time: 0.8820 s
[INFO] [Hybrid] Time: 0.8830 s
[INFO] [Hybrid] Time: 0.8840 s
[INFO] [Hybrid] Time: 0.8850 s
[INFO] [Hybrid] Time: 0.8860 s
[INFO] [Hybrid] Time: 0.8870 s
[INFO] [Hybrid] Time: 0.8880 s
[INFO] [Hybrid] Time: 0.8890 s
[INFO] [Hybrid] Time: 0.8900 s
[INFO] [Hybrid] Time: 0.8910 s
[INFO] [Hybrid] Time: 0.8920 s
[INFO] [Hybrid] Time: 0.8930 s
[INFO] [Hybrid] Time: 0.8940 s
[INFO] [Hybrid] Time: 0.8950 s
[INFO] [Hybrid] Time: 0.8960 s
[INFO] [Hybrid] Time: 0.8970 s
[INFO] [Hybrid] Time: 0.8980 s
[INFO] [Hybrid] Time: 0.8990 s
[INFO] [Hybrid] Time: 0.9000 s
[INFO] [Hybrid] Time: 0.9010 s
[INFO] [Hybrid] Time: 0.9020 s
[INFO] [Hybrid] Time: 0.9030 s
[INFO] [Hybrid] Time: 0.9040 s
[INFO] [Hybrid] Time: 0.9050 s
[INFO] [Hybrid] Time: 0.9060 s
[INFO] [Hybrid] Time: 0.9070 s
[INFO] [Hybrid] Time: 0.9080 s
[INFO] [Hybrid] Time: 0.9090 s
[INFO] [Hybrid] Time: 0.9100 s
[INFO] [Hybrid] Time: 0.9110 s
[INFO] [Hybrid] Time: 0.9120 s
[INFO] [Hybrid] Time: 0.9130 s
[INFO] [Hybrid] Time: 0.9140 s
[INFO] [Hybrid] Time: 0.9150 s
[INFO] [Hybrid] Time: 0.9160 s
[INFO] [Hybrid] Time: 0.9170 s
[INFO] [Hybrid] Time: 0.9180 s
[INFO] [Hybrid] Time: 0.9190 s
[INFO] [Hybrid] Time: 0.9200 s
[INFO] [Hybrid] Time: 0.9210 s
[INFO] [Hybrid] Time: 0.9220 s
[INFO] [Hybrid] Time: 0.9230 s
[INFO] [Hybrid] Time: 0.9240 s
[INFO] [Hybrid] Time: 0.9250 s
[INFO] [Hybrid] Time: 0.9260 s
[INFO] [Hybrid] Time: 0.9270 s
[INFO] [Hybrid] Time: 0.9280 s
[INFO] [Hybrid] Time: 0.9290 s
[INFO] [Hybrid] Time: 0.9300 s
[INFO] [Hybrid] Time: 0.9310 s
[INFO] [Hybrid] Time: 0.9320 s
[INFO] [Hybrid] Time: 0.9330 s
[INFO] [Hybrid] Time: 0.9340 s
[INFO] [Hybrid] Time: 0.9350 s
[INFO] [Hybrid] Time: 0.9360 s
[INFO] [Hybrid] Time: 0.9370 s
[INFO] [Hybrid] Time: 0.9380 s
[INFO] [Hybrid] Time: 0.9390 s
[INFO] [Hybrid] Time: 0.9400 s
[INFO] [Hybrid] Time: 0.9410 s
[INFO] [Hybrid] Time: 0.9420 s
[INFO] [Hybrid] Time: 0.9430 s
[INFO] [Hybrid] Time: 0.9440 s
[INFO] [Hybrid] Time: 0.9450 s
[INFO] [Hybrid] Time: 0.9460 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [0.94570000, 0.94580000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [0.94500000, 0.94600000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [0.94500000, 0.94600000] -> [0.94570000, 0.94580000]
[INFO] [Hybrid] Updated left indicators at t_left = 0.94570000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=0.94570000): {'MasterPendulum': {'wall_hit': 0.00010555343120007721}}
[INFO] [Hybrid] Initial Indicators at Right (t=0.94580000): {'MasterPendulum': {'wall_hit': -5.992838883211715e-05}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -5.99283888e-05
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(0.94576406, 0)
[INFO] [Hybrid] Events to handle at t=(0.94576406, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (0.94576406, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=0.9458s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 0.9470 s
[INFO] [Hybrid] Time: 0.9480 s
[INFO] [Hybrid] Time: 0.9490 s
[INFO] [Hybrid] Time: 0.9500 s
[INFO] [Hybrid] Time: 0.9510 s
[INFO] [Hybrid] Time: 0.9520 s
[INFO] [Hybrid] Time: 0.9530 s
[INFO] [Hybrid] Time: 0.9540 s
[INFO] [Hybrid] Time: 0.9550 s
[INFO] [Hybrid] Time: 0.9560 s
[INFO] [Hybrid] Time: 0.9570 s
[INFO] [Hybrid] Time: 0.9580 s
[INFO] [Hybrid] Time: 0.9590 s
[INFO] [Hybrid] Time: 0.9600 s
[INFO] [Hybrid] Time: 0.9610 s
[INFO] [Hybrid] Time: 0.9620 s
[INFO] [Hybrid] Time: 0.9630 s
[INFO] [Hybrid] Time: 0.9640 s
[INFO] [Hybrid] Time: 0.9650 s
[INFO] [Hybrid] Time: 0.9660 s
[INFO] [Hybrid] Time: 0.9670 s
[INFO] [Hybrid] Time: 0.9680 s
[INFO] [Hybrid] Time: 0.9690 s
[INFO] [Hybrid] Time: 0.9700 s
[INFO] [Hybrid] Time: 0.9710 s
[INFO] [Hybrid] Time: 0.9720 s
[INFO] [Hybrid] Time: 0.9730 s
[INFO] [Hybrid] Time: 0.9740 s
[INFO] [Hybrid] Time: 0.9750 s
[INFO] [Hybrid] Time: 0.9760 s
[INFO] [Hybrid] Time: 0.9770 s
[INFO] [Hybrid] Time: 0.9780 s
[INFO] [Hybrid] Time: 0.9790 s
[INFO] [Hybrid] Time: 0.9800 s
[INFO] [Hybrid] Time: 0.9810 s
[INFO] [Hybrid] Time: 0.9820 s
[INFO] [Hybrid] Time: 0.9830 s
[INFO] [Hybrid] Time: 0.9840 s
[INFO] [Hybrid] Time: 0.9850 s
[INFO] [Hybrid] Time: 0.9860 s
[INFO] [Hybrid] Time: 0.9870 s
[INFO] [Hybrid] Time: 0.9880 s
[INFO] [Hybrid] Time: 0.9890 s
[INFO] [Hybrid] Time: 0.9900 s
[INFO] [Hybrid] Time: 0.9910 s
[INFO] [Hybrid] Time: 0.9920 s
[INFO] [Hybrid] Time: 0.9930 s
[INFO] [Hybrid] Time: 0.9940 s
[INFO] [Hybrid] Time: 0.9950 s
[INFO] [Hybrid] Time: 0.9960 s
[INFO] [Hybrid] Time: 0.9970 s
[INFO] [Hybrid] Time: 0.9980 s
[INFO] [Hybrid] Time: 0.9990 s
[INFO] [Hybrid] Time: 1.0000 s
[INFO] [Hybrid] Time: 1.0010 s
[INFO] [Hybrid] Time: 1.0020 s
[INFO] [Hybrid] Time: 1.0030 s
[INFO] [Hybrid] Time: 1.0040 s
[INFO] [Hybrid] Time: 1.0050 s
[INFO] [Hybrid] Time: 1.0060 s
[INFO] [Hybrid] Time: 1.0070 s
[INFO] [Hybrid] Time: 1.0080 s
[INFO] [Hybrid] Time: 1.0090 s
[INFO] [Hybrid] Time: 1.0100 s
[INFO] [Hybrid] Time: 1.0110 s
[INFO] [Hybrid] Time: 1.0120 s
[INFO] [Hybrid] Time: 1.0130 s
[INFO] [Hybrid] Time: 1.0140 s
[INFO] [Hybrid] Time: 1.0150 s
[INFO] [Hybrid] Time: 1.0160 s
[INFO] [Hybrid] Time: 1.0170 s
[INFO] [Hybrid] Time: 1.0180 s
[INFO] [Hybrid] Time: 1.0190 s
[INFO] [Hybrid] Time: 1.0200 s
[INFO] [Hybrid] Time: 1.0210 s
[INFO] [Hybrid] Time: 1.0220 s
[INFO] [Hybrid] Time: 1.0230 s
[INFO] [Hybrid] Time: 1.0240 s
[INFO] [Hybrid] Time: 1.0250 s
[INFO] [Hybrid] Time: 1.0260 s
[INFO] [Hybrid] Time: 1.0270 s
[INFO] [Hybrid] Time: 1.0280 s
[INFO] [Hybrid] Time: 1.0290 s
[INFO] [Hybrid] Time: 1.0300 s
[INFO] [Hybrid] Time: 1.0310 s
[INFO] [Hybrid] Time: 1.0320 s
[INFO] [Hybrid] Time: 1.0330 s
[INFO] [Hybrid] Time: 1.0340 s
[INFO] [Hybrid] Time: 1.0350 s
[INFO] [Hybrid] Time: 1.0360 s
[INFO] [Hybrid] Time: 1.0370 s
[INFO] [Hybrid] Time: 1.0380 s
[INFO] [Hybrid] Time: 1.0390 s
[INFO] [Hybrid] Time: 1.0400 s
[INFO] [Hybrid] Time: 1.0410 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [1.04080000, 1.04090000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [1.04000000, 1.04100000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [1.04000000, 1.04100000] -> [1.04080000, 1.04090000]
[INFO] [Hybrid] Updated left indicators at t_left = 1.04080000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=1.04080000): {'MasterPendulum': {'wall_hit': 5.7844076084368397e-05}}
[INFO] [Hybrid] Initial Indicators at Right (t=1.04090000): {'MasterPendulum': {'wall_hit': -0.00010673414088674626}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -1.06734141e-04
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(1.04083516, 0)
[INFO] [Hybrid] Events to handle at t=(1.04083516, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (1.04083516, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=1.0408s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 1.0420 s
[INFO] [Hybrid] Time: 1.0430 s
[INFO] [Hybrid] Time: 1.0440 s
[INFO] [Hybrid] Time: 1.0450 s
[INFO] [Hybrid] Time: 1.0460 s
[INFO] [Hybrid] Time: 1.0470 s
[INFO] [Hybrid] Time: 1.0480 s
[INFO] [Hybrid] Time: 1.0490 s
[INFO] [Hybrid] Time: 1.0500 s
[INFO] [Hybrid] Time: 1.0510 s
[INFO] [Hybrid] Time: 1.0520 s
[INFO] [Hybrid] Time: 1.0530 s
[INFO] [Hybrid] Time: 1.0540 s
[INFO] [Hybrid] Time: 1.0550 s
[INFO] [Hybrid] Time: 1.0560 s
[INFO] [Hybrid] Time: 1.0570 s
[INFO] [Hybrid] Time: 1.0580 s
[INFO] [Hybrid] Time: 1.0590 s
[INFO] [Hybrid] Time: 1.0600 s
[INFO] [Hybrid] Time: 1.0610 s
[INFO] [Hybrid] Time: 1.0620 s
[INFO] [Hybrid] Time: 1.0630 s
[INFO] [Hybrid] Time: 1.0640 s
[INFO] [Hybrid] Time: 1.0650 s
[INFO] [Hybrid] Time: 1.0660 s
[INFO] [Hybrid] Time: 1.0670 s
[INFO] [Hybrid] Time: 1.0680 s
[INFO] [Hybrid] Time: 1.0690 s
[INFO] [Hybrid] Time: 1.0700 s
[INFO] [Hybrid] Time: 1.0710 s
[INFO] [Hybrid] Time: 1.0720 s
[INFO] [Hybrid] Time: 1.0730 s
[INFO] [Hybrid] Time: 1.0740 s
[INFO] [Hybrid] Time: 1.0750 s
[INFO] [Hybrid] Time: 1.0760 s
[INFO] [Hybrid] Time: 1.0770 s
[INFO] [Hybrid] Time: 1.0780 s
[INFO] [Hybrid] Time: 1.0790 s
[INFO] [Hybrid] Time: 1.0800 s
[INFO] [Hybrid] Time: 1.0810 s
[INFO] [Hybrid] Time: 1.0820 s
[INFO] [Hybrid] Time: 1.0830 s
[INFO] [Hybrid] Time: 1.0840 s
[INFO] [Hybrid] Time: 1.0850 s
[INFO] [Hybrid] Time: 1.0860 s
[INFO] [Hybrid] Time: 1.0870 s
[INFO] [Hybrid] Time: 1.0880 s
[INFO] [Hybrid] Time: 1.0890 s
[INFO] [Hybrid] Time: 1.0900 s
[INFO] [Hybrid] Time: 1.0910 s
[INFO] [Hybrid] Time: 1.0920 s
[INFO] [Hybrid] Time: 1.0930 s
[INFO] [Hybrid] Time: 1.0940 s
[INFO] [Hybrid] Time: 1.0950 s
[INFO] [Hybrid] Time: 1.0960 s
[INFO] [Hybrid] Time: 1.0970 s
[INFO] [Hybrid] Time: 1.0980 s
[INFO] [Hybrid] Time: 1.0990 s
[INFO] [Hybrid] Time: 1.1000 s
[INFO] [Hybrid] Time: 1.1010 s
[INFO] [Hybrid] Time: 1.1020 s
[INFO] [Hybrid] Time: 1.1030 s
[INFO] [Hybrid] Time: 1.1040 s
[INFO] [Hybrid] Time: 1.1050 s
[INFO] [Hybrid] Time: 1.1060 s
[INFO] [Hybrid] Time: 1.1070 s
[INFO] [Hybrid] Time: 1.1080 s
[INFO] [Hybrid] Time: 1.1090 s
[INFO] [Hybrid] Time: 1.1100 s
[INFO] [Hybrid] Time: 1.1110 s
[INFO] [Hybrid] Time: 1.1120 s
[INFO] [Hybrid] Time: 1.1130 s
[INFO] [Hybrid] Time: 1.1140 s
[INFO] [Hybrid] Time: 1.1150 s
[INFO] [Hybrid] Time: 1.1160 s
[INFO] [Hybrid] Time: 1.1170 s
[INFO] [Hybrid] Time: 1.1180 s
[INFO] [Hybrid] Time: 1.1190 s
[INFO] [Hybrid] Time: 1.1200 s
[INFO] [Hybrid] Time: 1.1210 s
[INFO] [Hybrid] Time: 1.1220 s
[INFO] [Hybrid] Time: 1.1230 s
[INFO] [Hybrid] Time: 1.1240 s
[INFO] [Hybrid] Time: 1.1250 s
[INFO] [Hybrid] Time: 1.1260 s
[INFO] [Hybrid] Time: 1.1270 s
[INFO] [Hybrid] Time: 1.1280 s
[INFO] [Hybrid] Time: 1.1290 s
[INFO] [Hybrid] Time: 1.1300 s
[INFO] [Hybrid] Time: 1.1310 s
[INFO] [Hybrid] Time: 1.1320 s
[INFO] [Hybrid] Time: 1.1330 s
[INFO] [Hybrid] Time: 1.1340 s
[INFO] [Hybrid] Time: 1.1350 s
[INFO] [Hybrid] Time: 1.1360 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [1.13570000, 1.13580000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [1.13500000, 1.13600000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [1.13500000, 1.13600000] -> [1.13570000, 1.13580000]
[INFO] [Hybrid] Updated left indicators at t_left = 1.13570000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=1.13570000): {'MasterPendulum': {'wall_hit': 9.621793676685902e-05}}
[INFO] [Hybrid] Initial Indicators at Right (t=1.13580000): {'MasterPendulum': {'wall_hit': -6.913781180626515e-05}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -6.91378118e-05
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(1.13575820, 0)
[INFO] [Hybrid] Events to handle at t=(1.13575820, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (1.13575820, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=1.1358s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 1.1370 s
[INFO] [Hybrid] Time: 1.1380 s
[INFO] [Hybrid] Time: 1.1390 s
[INFO] [Hybrid] Time: 1.1400 s
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[INFO] [Hybrid] Time: 1.2020 s
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[INFO] [Hybrid] Time: 1.2060 s
[INFO] [Hybrid] Time: 1.2070 s
[INFO] [Hybrid] Time: 1.2080 s
[INFO] [Hybrid] Time: 1.2090 s
[INFO] [Hybrid] Time: 1.2100 s
[INFO] [Hybrid] Time: 1.2110 s
[INFO] [Hybrid] Time: 1.2120 s
[INFO] [Hybrid] Time: 1.2130 s
[INFO] [Hybrid] Time: 1.2140 s
[INFO] [Hybrid] Time: 1.2150 s
[INFO] [Hybrid] Time: 1.2160 s
[INFO] [Hybrid] Time: 1.2170 s
[INFO] [Hybrid] Time: 1.2180 s
[INFO] [Hybrid] Time: 1.2190 s
[INFO] [Hybrid] Time: 1.2200 s
[INFO] [Hybrid] Time: 1.2210 s
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[INFO] [Hybrid] Time: 1.2230 s
[INFO] [Hybrid] Time: 1.2240 s
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[INFO] [Hybrid] Time: 1.2290 s
[INFO] [Hybrid] Time: 1.2300 s
[INFO] [Hybrid] Time: 1.2310 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [1.23090000, 1.23100000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [1.23000000, 1.23100000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [1.23000000, 1.23100000] -> [1.23090000, 1.23100000]
[INFO] [Hybrid] Updated left indicators at t_left = 1.23090000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=1.23090000): {'MasterPendulum': {'wall_hit': 6.344302366128899e-05}}
[INFO] [Hybrid] Initial Indicators at Right (t=1.23100000): {'MasterPendulum': {'wall_hit': -0.00010092905774289777}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -1.00929058e-04
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(1.23093828, 0)
[INFO] [Hybrid] Events to handle at t=(1.23093828, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (1.23093828, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=1.2309s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 1.2320 s
[INFO] [Hybrid] Time: 1.2330 s
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[INFO] [Hybrid] Time: 1.2800 s
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[INFO] [Hybrid] Time: 1.2970 s
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[INFO] [Hybrid] Time: 1.2990 s
[INFO] [Hybrid] Time: 1.3000 s
[INFO] [Hybrid] Time: 1.3010 s
[INFO] [Hybrid] Time: 1.3020 s
[INFO] [Hybrid] Time: 1.3030 s
[INFO] [Hybrid] Time: 1.3040 s
[INFO] [Hybrid] Time: 1.3050 s
[INFO] [Hybrid] Time: 1.3060 s
[INFO] [Hybrid] Time: 1.3070 s
[INFO] [Hybrid] Time: 1.3080 s
[INFO] [Hybrid] Time: 1.3090 s
[INFO] [Hybrid] Time: 1.3100 s
[INFO] [Hybrid] Time: 1.3110 s
[INFO] [Hybrid] Time: 1.3120 s
[INFO] [Hybrid] Time: 1.3130 s
[INFO] [Hybrid] Time: 1.3140 s
[INFO] [Hybrid] Time: 1.3150 s
[INFO] [Hybrid] Time: 1.3160 s
[INFO] [Hybrid] Time: 1.3170 s
[INFO] [Hybrid] Time: 1.3180 s
[INFO] [Hybrid] Time: 1.3190 s
[INFO] [Hybrid] Time: 1.3200 s
[INFO] [Hybrid] Time: 1.3210 s
[INFO] [Hybrid] Time: 1.3220 s
[INFO] [Hybrid] Time: 1.3230 s
[INFO] [Hybrid] Time: 1.3240 s
[INFO] [Hybrid] Time: 1.3250 s
[INFO] [Hybrid] Time: 1.3260 s
[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [1.32580000, 1.32590000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [1.32500000, 1.32600000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [1.32500000, 1.32600000] -> [1.32580000, 1.32590000]
[INFO] [Hybrid] Updated left indicators at t_left = 1.32580000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=1.32580000): {'MasterPendulum': {'wall_hit': 7.242655489047079e-05}}
[INFO] [Hybrid] Initial Indicators at Right (t=1.32590000): {'MasterPendulum': {'wall_hit': -9.24487758397177e-05}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -9.24487758e-05
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(1.32584375, 0)
[INFO] [Hybrid] Events to handle at t=(1.32584375, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (1.32584375, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=1.3258s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 1.3270 s
[INFO] [Hybrid] Time: 1.3280 s
[INFO] [Hybrid] Time: 1.3290 s
[INFO] [Hybrid] Time: 1.3300 s
[INFO] [Hybrid] Time: 1.3310 s
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[INFO] [Hybrid] Time: 1.3880 s
[INFO] [Hybrid] Time: 1.3890 s
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[INFO] [Hybrid] Time: 1.3990 s
[INFO] [Hybrid] Time: 1.4000 s
[INFO] [Hybrid] Time: 1.4010 s
[INFO] [Hybrid] Time: 1.4020 s
[MasterPendulum] Switching: FEM to OpenSim @ t=1.4010s
[INFO] [Hybrid] Time: 1.4030 s
[INFO] [Hybrid] Time: 1.4040 s
[INFO] [Hybrid] Time: 1.4050 s
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[INFO] [Hybrid] Time: 1.4200 s
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[INFO] [Hybrid] Time: 1.4670 s
[INFO] [Hybrid] Time: 1.4680 s
[INFO] [Hybrid] Time: 1.4690 s
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[INFO] [Hybrid] Time: 1.4740 s
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[INFO] [Hybrid] Time: 1.4790 s
[INFO] [Hybrid] Time: 1.4800 s
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[INFO] [Hybrid] Time: 1.4830 s
[INFO] [Hybrid] Time: 1.4840 s
[INFO] [Hybrid] Time: 1.4850 s
[INFO] [Hybrid] Time: 1.4860 s
[INFO] [Hybrid] Time: 1.4870 s
[INFO] [Hybrid] Time: 1.4880 s
[INFO] [Hybrid] Time: 1.4890 s
[INFO] [Hybrid] Time: 1.4900 s
[INFO] [Hybrid] Time: 1.4910 s
[INFO] [Hybrid] Time: 1.4920 s
[INFO] [Hybrid] Time: 1.4930 s
[INFO] [Hybrid] Time: 1.4940 s
[INFO] [Hybrid] Time: 1.4950 s
[INFO] [Hybrid] Time: 1.4960 s
[INFO] [Hybrid] Time: 1.4970 s
[INFO] [Hybrid] Time: 1.4980 s
[INFO] [Hybrid] Time: 1.4990 s
[INFO] [Hybrid] Time: 1.5000 s
[INFO] [Hybrid] Time: 1.5010 s
[INFO] [Hybrid] Time: 1.5020 s
[INFO] [Hybrid] Time: 1.5030 s
[INFO] [Hybrid] Time: 1.5040 s
[INFO] [Hybrid] Time: 1.5050 s
[INFO] [Hybrid] Time: 1.5060 s
[INFO] [Hybrid] Time: 1.5070 s
[MasterPendulum] Switching: OpenSim to FMU @ t=1.5060s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5190 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5200 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5210 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5220 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5230 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5240 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5250 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5260 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5270 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5280 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5290 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5300 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5310 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5320 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5330 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5340 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5350 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5360 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5370 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5380 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5390 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5400 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5410 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5420 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5430 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5440 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5450 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5460 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5470 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5480 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5490 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5500 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5510 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5520 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5530 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5540 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5550 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5560 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5570 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5580 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5590 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5600 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5610 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5620 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5630 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5640 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5650 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5660 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5670 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5680 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5690 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5700 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5710 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5720 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5730 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5740 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5750 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5760 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5770 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5780 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5790 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5800 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5810 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5820 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5830 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5840 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5850 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5860 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5870 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5880 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5890 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5900 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5910 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5920 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5930 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5940 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5950 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5960 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5970 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5980 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.5990 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6000 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6010 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6020 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6030 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6040 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6050 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6060 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6070 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6190 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6200 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6210 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6220 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6230 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6240 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6250 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6260 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6270 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6280 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6290 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6300 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6310 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6320 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6330 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6340 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6350 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6360 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6370 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6380 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6390 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6400 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6410 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6420 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6430 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6440 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6450 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6460 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6470 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6480 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6490 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6500 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6510 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6520 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6530 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6540 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6550 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6560 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6570 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6580 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6590 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6600 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6610 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6620 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6630 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6640 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6650 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6660 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6670 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6680 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6690 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6700 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6710 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6720 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6730 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6740 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6750 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6760 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6770 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6780 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6790 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6800 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6810 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6820 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6830 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6840 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6850 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6860 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6870 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6880 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6890 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6900 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6910 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6920 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6930 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6940 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6950 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6960 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6970 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6980 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.6990 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7000 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7010 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7020 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7030 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7040 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7050 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7060 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7070 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7190 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7200 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7210 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7220 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7230 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7240 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7250 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7260 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7270 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7280 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7290 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7300 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7310 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7320 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7330 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7340 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7350 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7360 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7370 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7380 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7390 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7400 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7410 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7420 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7430 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7440 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7450 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7460 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7470 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7480 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7490 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7500 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7510 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7520 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7530 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7540 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7550 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7560 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7570 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7580 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7590 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7600 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7610 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7620 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7630 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7640 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7650 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7660 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7670 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7680 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7690 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7700 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7710 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7720 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7730 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7740 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7750 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7760 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7770 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7780 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7790 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7800 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7810 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7820 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7830 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7840 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7850 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7860 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7870 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7880 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7890 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7900 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7910 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7920 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7930 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7940 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7950 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7960 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7970 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7980 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.7990 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8000 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8010 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8020 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8030 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8040 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8050 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8060 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8070 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8080 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8090 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8100 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8110 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8120 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8130 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8140 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8150 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8160 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8170 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8180 s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
[INFO] [Hybrid] Time: 1.8190 s
[MasterPendulum] Switching: FMU to OpenSim @ t=1.8180s
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
LOG_SOLVER | info | CVODE linear multistep method CV_BDF
LOG_SOLVER | info | CVODE maximum integration order CV_ITER_NEWTON
LOG_SOLVER | info | CVODE use equidistant time grid YES
LOG_SOLVER | info | CVODE Using relative error tolerance 1.000000e-06
LOG_SOLVER | info | CVODE Using dense internal linear solver SUNLinSol_Dense.
LOG_SOLVER | info | CVODE Use internal dense numeric jacobian method.
LOG_SOLVER | info | CVODE uses internal root finding method NO
LOG_SOLVER | info | CVODE maximum absolut step size 0
LOG_SOLVER | info | CVODE initial step size is set automatically
LOG_SOLVER | info | CVODE maximum integration order 5
LOG_SOLVER | info | CVODE maximum number of nonlinear convergence failures permitted during one step 10
LOG_SOLVER | info | CVODE BDF stability limit detection algorithm OFF
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[MasterPendulum] Switching: OpenSim to FEM @ t=1.9420s
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[INFO] [Hybrid] Internal hint from MasterPendulum: wall_hit in [1.99420000, 1.99430000]
[INFO] ========================================================================
[INFO] [Hybrid] Events detected in interval [1.99400000, 1.99500000]
[INFO] ========================================================================
[INFO] [Hybrid] Crossings: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Internal hints: [('MasterPendulum', ['wall_hit'])]
[INFO] [Hybrid] Starting Event Localization ...
[INFO] [Hybrid] Using internal hint to narrow interval: [1.99400000, 1.99500000] -> [1.99420000, 1.99430000]
[INFO] [Hybrid] Updated left indicators at t_left = 1.99420000 after narrowing with hints.
[INFO] [Hybrid] Initial Indicators at Left (t=1.99420000): {'MasterPendulum': {'wall_hit': 9.316251414113625e-05}}
[INFO] [Hybrid] Initial Indicators at Right (t=1.99430000): {'MasterPendulum': {'wall_hit': -7.526162665760818e-05}}
[INFO] [Hybrid] Indicator for MasterPendulum.wall_hit = -7.52616267e-05
[INFO] [Hybrid] Initial events to handle: [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Located at t=(1.99425547, 0)
[INFO] [Hybrid] Events to handle at t=(1.99425547, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Already handled events: set()
[INFO] [Hybrid] Handling events at (1.99425547, 0): [('MasterPendulum', 'wall_hit')]
[INFO] [Hybrid] Events grouped by component for handling: {'PID': ['wall_hit'], 'MasterPendulum': ['wall_hit']}
[FEM_Pendulum] Event 'wall_hit' at t=1.9943s.
[INFO] ========================================================================
[INFO] [Hybrid] End of event window
[INFO] ========================================================================
[INFO] [Hybrid] Time: 1.9960 s
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[INFO] [Hybrid] Time: 1.9980 s
[INFO] [Hybrid] Time: 1.9990 s
[INFO] [Hybrid] Time: 2.0000 s
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system_res_file = Path.cwd() / "demos/ControlledPendulum/artifacts/results/master_pendulum_system.csv"
system_res_file.parent.mkdir(parents=True, exist_ok=True)
system.history.save_csv(filepath=system_res_file)
Results saved to: /home/flo/code/SystemSimulation/demos/ControlledPendulum/artifacts/results/master_pendulum_system.csv
6.13. Collect Results#
history = system.get_history()
fem_hist = pendulum.fem.get_history()
fmu_hist = pendulum.fmu.get_history()
opensim_hist = pendulum.opensim.get_history()
ref_history = history["Setpoint"]
setpoint_time, data = ref_history
theta_ref = data["theta_ref"]
t_fem = fem_hist['theta']['time']
theta_fem = fem_hist['theta']['values']
t_fmu = fmu_hist['theta']['time']
theta_fmu = fmu_hist['theta']['values']
t_opensim = opensim_hist['theta']['time']
theta_opensim = opensim_hist['theta']['values']
event_history = history['Events']
event_times_dense = event_history[('MasterPendulum', 'wall_hit')]
event_times_float = [dt.t for dt in event_times_dense]
event_indices = np.where(ref_sol_reset['pendulum.contact'] > 0)[0]
event_times_ref_indices = np.where(ref_sol_reset['time'][event_indices] <= t_end)[0]
event_times_ref = ref_sol_reset['time'][event_indices][event_times_ref_indices][::2]
diff_event_times = np.array(event_times_float) - np.array(event_times_ref)
print("Event Times (in s):")
print(f"{'syssimx':<8} | {'Modelica':>9} | {'Delta':>8}")
print("-" * 32)
for t_float, t_ref, diff in zip(event_times_float, event_times_ref, diff_event_times):
print(f"{t_float:8.6f} | {t_ref:9.6f} | {diff:8.6f}")
Event Times (in s):
syssimx | Modelica | Delta
--------------------------------
0.661534 | 0.661130 | 0.000404
0.755877 | 0.755021 | 0.000855
0.850842 | 0.848911 | 0.001931
0.945764 | 0.942801 | 0.002963
1.040835 | 1.036692 | 0.004144
1.135758 | 1.130582 | 0.005176
1.230938 | 1.224472 | 0.006466
1.325844 | 1.318362 | 0.007481
1.994255 | 1.993801 | 0.000454
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marker_size = 3
palette = {
"fem": "#1f77b4",
"opensim": "#ff7f0e",
"fmu": "#2ca02c",
"setpoint": "#d62728",
}
fem_style = {
"color": palette["fem"],
"linestyle": "None",
"marker": "o",
"markersize": marker_size,
"linewidth": 2.5,
}
opensim_style = {
"color": palette["opensim"],
"linestyle": "None",
"marker": "s",
"markersize": marker_size,
"linewidth": 2.5,
}
fmu_style = {
"color": palette["fmu"],
"linestyle": "None",
"marker": "^",
"markersize": marker_size,
"linewidth": 2.5,
}
6.14. Plot: Multi-Model Switching#
This plot overlays all three sub-models and the setpoint.
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plt.figure(figsize=(10, 6))
plt.title("Master Pendulum: Model Switching During Contact", y=1.15)
plt.plot(t_fem, theta_fem, label="FEM Pendulum", **fem_style)
plt.plot(t_opensim, theta_opensim, label="OpenSim Pendulum", **opensim_style)
plt.plot(t_fmu, theta_fmu, label="FMU Pendulum", **fmu_style)
plt.plot(setpoint_time, theta_ref, label="Setpoint", color=palette["setpoint"], linestyle="--", linewidth=1.5)
plt.plot(ref_sol_reset['time'], ref_sol_reset['theta'], 'k.', label="Modelica Reference", markersize=1)
plt.ylim(-0.025, 0.38 )
plt.axhline(0, color='black', linestyle='--', linewidth=1, label="Wall Position")
plt.xlim(0, t_end)
plt.xlabel(r"Time $t$ [s]")
plt.ylabel(r"Angular Position $\theta$ [rad]")
plt.legend(loc="upper center", bbox_to_anchor=(0.5, 1.15), ncol=3, markerscale=2)
plt.grid(True, alpha=0.3)
plt.tight_layout()
plt.show()
6.15. Plot: Contact Windows#
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plt.figure(figsize=(10, 6))
plt.title("Pendulum Angle during Contact with Wall", y=1.1 )
plt.plot(t_fem, theta_fem, label="FEM Pendulum", **fem_style)
plt.plot(setpoint_time, theta_ref, label="Setpoint", color=palette["setpoint"], linestyle="--", linewidth=1.5)
plt.plot(ref_sol_reset['time'], ref_sol_reset['theta'], 'k.', label="Modelica Reference", markersize=5)
plt.axhline(0, color='black', linestyle='--', linewidth=1, label="Wall Position")
plt.xlim(0.6, 1.4)
plt.ylim(-0.005, 0.05 )
plt.xlabel(r"Time $t$ [s]")
plt.ylabel(r"Angular Position $\theta$ [rad]")
plt.legend(loc="upper center", bbox_to_anchor=(0.5, 1.1), ncol=4, markerscale=2)
plt.grid(True, alpha=0.3)
plt.tight_layout()
plt.show()
6.16. Plot: PID Integrator Output#
We can observe that the PID intergartor output follows closely the PID integrator trajectory of the Modelica reference.
When the pendulum hits the wall, both the PID integrator for the Modelica reference and the syssimxsimulation react to the contact event with the reset of the integrator state. The integrator starts after every contact from zero.
This enables the PID controller to react to the contact event and drive the pendulum back to the setpoint.
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pid_hist = history['PID']
t_pid, data_pid = pid_hist
i_out = data_pid.get('I_out', None)
plt.figure(figsize=(10, 6))
plt.plot(t_pid, i_out, 'o', label="PID I_out", color="#9467bd", markersize=3)
plt.plot(ref_sol_reset['time'], ref_sol_reset['pid.I_out'], 'k.', label="Modelica Reference", markersize=2)
plt.axhline(0.0, color="#7f7f7f", linestyle="--", linewidth=1)
plt.xlim(0, t_end)
plt.xlabel(r"Time $t$ [s]")
plt.ylabel(r"PID Integrator Output $I_{out}$ [–]")
plt.title("PID Integrator Output", y=1.1)
plt.legend(markerscale=2, loc="upper center", bbox_to_anchor=(0.5, 1.1), ncol=2)
plt.grid(True, alpha=0.3)
plt.tight_layout()
plt.show()
6.17. Summary#
The MasterPendulum switches between FMU, OpenSim, and FEM based on contact events.
Contact windows show the high-resolution FEM response.
The highly stiff FEM contact formulation closely follows the Modelica reference during contact.