python3 -m fmpy simulate  --output-file Physiolibrary_Physiolibrary.Fluid.Examples.MeanRespiration_res.csv --start-time 0 --stop-time 1800 --timeout 50 --relative-tolerance 1e-06 --interface-type ModelExchange --solver CVode --output-interval 0.72 Physiolibrary_Physiolibrary_Fluid_Examples_MeanRespiration.fmu
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_STDOUT        | warning | While solving non-linear system an assertion failed during initialization.
|                 | |       | | The non-linear solver tries to solve the problem that could take some time.
|                 | |       | | It could help to provide better start-values for the iteration variables.
|                 | |       | | For more information simulate with -lv LOG_NLS_V
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.deadSpaceVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context
LOG_ASSERT        | debug   | Division by zero (h - X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificEnthalpy(substanceData[$i1], 298.15, p, v, I) for $i1 in 1:size(substanceData, 1))) / (X * array(Physiolibrary.Fluid.Examples.MeanRespiration.alveolarVentilation.Medium.stateOfMatter.specificHeatCapacityCp(substanceData[$i1], 298.15, 100000.0, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context