startTime=0
stopTime=1800
tolerance=1e-06
numberOfIntervals=2500
stepSize=0.72
Regular simulation: ./Physiolibrary_Physiolibrary.Fluid.Examples.MeanRespiration -abortSlowSimulation -alarm=480 -lv LOG_STATS
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
stdout            | warning | Non-Linear Solver try to handle a problem with a called assert.
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
stdout            | warning | While solving non-linear system an assertion failed during initialization.
|                 | |       | | The non-linear solver tries to solve the problem that could take some time.
|                 | |       | | It could help to provide better start-values for the iteration variables.
|                 | |       | | For more information simulate with -lv LOG_NLS_V
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar8, 298.15, p, v, I) for $tmpVar8 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar11, 298.15, 100000.0, 0.0, 0.0) for $tmpVar11 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar8, 298.15, p, v, I) for $tmpVar8 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar11, 298.15, 100000.0, 0.0, 0.0) for $tmpVar11 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar8, 298.15, p, v, I) for $tmpVar8 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar11, 298.15, 100000.0, 0.0, 0.0) for $tmpVar11 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar8, 298.15, p, v, I) for $tmpVar8 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar11, 298.15, 100000.0, 0.0, 0.0) for $tmpVar11 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar8, 298.15, p, v, I) for $tmpVar8 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.VolumePump$deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar11, 298.15, 100000.0, 0.0, 0.0) for $tmpVar11 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
assert            | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificEnthalpy($tmpVar14, 298.15, p, v, I) for $tmpVar14 in substanceData)) / (X * array(Physiolibrary.Fluid.Components.Conductor$alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp($tmpVar17, 298.15, 100000.0, 0.0, 0.0) for $tmpVar17 in substanceData))
LOG_SUCCESS       | info    | The initialization finished successfully without homotopy method.
LOG_STATS         | info    | ### STATISTICS ###
|                 | |       | | timer
|                 | |       | | |   0.00164478s          reading init.xml
|                 | |       | | |  0.000230222s          reading info.xml
|                 | |       | | |   5.6155e-05s [  0.0%] pre-initialization
|                 | |       | | |    0.0886784s [ 31.2%] initialization
|                 | |       | | |   2.8484e-05s [  0.0%] steps
|                 | |       | | |   1.8051e-05s [  0.0%] solver (excl. callbacks)
|                 | |       | | |            0s [  0.0%] creating output-file
|                 | |       | | |            0s [  0.0%] event-handling
|                 | |       | | |   0.00976661s [  3.4%] overhead
|                 | |       | | |     0.185315s [ 65.3%] simulation
|                 | |       | | |     0.283891s [100.0%] total
|                 | |       | | events
|                 | |       | | |     0 state events
|                 | |       | | |     0 time events
|                 | |       | | solver: euler
|                 | |       | | |  5000 steps taken
|                 | |       | | |  5000 calls of functionODE
|                 | |       | | |     0 evaluations of jacobian
|                 | |       | | |     0 error test failures
|                 | |       | | |     0 convergence test failures
|                 | |       | | | 0s time of jacobian evaluation
LOG_SUCCESS       | info    | The simulation finished successfully.