/home/hudson/saved_omc/OMSimulator/install/bin/OMSimulator --tempDir=temp_Physiolibrary_Physiolibrary_Fluid_Examples_MeanRespiration_fmu --startTime=0 --stopTime=1800 --timeout=50 --tolerance=1e-06 Physiolibrary_Physiolibrary_Fluid_Examples_MeanRespiration.fmu info: model doesn't contain any continuous state 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 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, 1e5, 0.0, 0.0) for $i1 in 1:size(substanceData, 1))) in function context info: Result file: model_res.mat (bufferSize=10) error: [operator()] Timeout occurred during simulation info: 0 warnings info: 1 errors error: [fmi2logger] /var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/Physiolibrary_Physiolibrary.Fluid.Examples.MeanRespiration/temp_Physiolibrary_Physiolibrary_Fluid_Examples_MeanRespiration_fmu/model-jlpjncmt/temp/0001_Physiolibrary_Physiolibrary_Fluid_Examples_MeanRespiration (logStatusError): fmi2SetTime: Illegal model exchange call sequence. fmi2SetTime is not allowed in model_state_terminated state. error: [doStep] fmi2_setTime failed for FMU "model.root.Physiolibrary_Physiolibrary_Fluid_Examples_MeanRespiration"