Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.conf.json
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo): time 0.0008545/0.0008545, allocations: 84.23 kB / 20.03 MB, free: 4.496 MB / 18.57 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo): time 0.0008616/0.0008616, allocations: 173.9 kB / 23.33 MB, free: 1.188 MB / 18.57 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo): time 0.8942/0.8942, allocations: 177.1 MB / 203.7 MB, free: 5.68 MB / 186.7 MB
"
[Timeout remaining time 179]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo): time 0.6918/0.6918, allocations: 116 MB / 376.1 MB, free: 4.145 MB / 346.7 MB
"
[Timeout remaining time 179]
Using package ThermofluidStream with version 1.3.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo)
Using package Modelica with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo)
Using package Complex with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo)
Using package ModelicaServices with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo)
Running command: translateModel(ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const,tolerance=1e-06,outputFormat="mat",numberOfIntervals=100,variableFilter="CPUtime|EventCounter|Time|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow.2.|dropOfCommons.L|dropOfCommons.assertionLevel|dropOfCommons.g|dropOfCommons.instanceNameColor.1.|dropOfCommons.instanceNameColor.2.|dropOfCommons.instanceNameColor.3.|dropOfCommons.k_volume_damping|dropOfCommons.m_flow_reg|dropOfCommons.omega_reg|dropOfCommons.p_min|dropOfCommons.rho_min|flowResistanceA.D_h|flowResistanceA.L|flowResistanceA.L_value|flowResistanceA.a|flowResistanceA.areaCross|flowResistanceA.areaCrossInput|flowResistanceA.areaHydraulic|flowResistanceA.b|flowResistanceA.clip_p_out|flowResistanceA.dp|flowResistanceA.dp_ref_color|flowResistanceA.dr_corr|flowResistanceA.h_in|flowResistanceA.h_out|flowResistanceA.initM_flow|der.flowResistanceA.inlet.m_flow.|flowResistanceA.inlet.m_flow|flowResistanceA.inlet.r|flowResistanceA.inlet.state.T|flowResistanceA.inlet.state.p|flowResistanceA.l|flowResistanceA.m_acceleration_0|flowResistanceA.m_flow|flowResistanceA.m_flowStateSelect|flowResistanceA.m_flow_0|flowResistanceA.mu_in|flowResistanceA.outlet.m_flow|flowResistanceA.outlet.r|flowResistanceA.outlet.state.T|flowResistanceA.outlet.state.p|flowResistanceA.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FlowRateB3.L|massFlowRateB3.clip_p_out|massFlowRateB3.dp|massFlowRateB3.dr_corr|massFlowRateB3.h_in|massFlowRateB3.h_out|massFlowRateB3.initM_flow|der.massFlowRateB3.inlet.m_flow.|massFlowRateB3.inlet.m_flow|massFlowRateB3.inlet.r|massFlowRateB3.inlet.state.T|massFlowRateB3.inlet.state.p|massFlowRateB3.m_acceleration_0|massFlowRateB3.m_flow|massFlowRateB3.m_flowSpec|massFlowRateB3.m_flowStateSelect|massFlowRateB3.m_flow_0|massFlowRateB3.m_flow_actual|massFlowRateB3.m_flow_fixed|massFlowRateB3.outlet.m_flow|massFlowRateB3.outlet.r|massFlowRateB3.outlet.state.T|massFlowRateB3.outlet.state.p|massFlowRateB3.p_in|massFlowRateB3.p_min|massFlowRateB3.p_out|sink.L|der.sink.inlet.m_flow.|sink.inlet.m_flow|sink.inlet.r|sink.inlet.state.T|sink.inlet.state.p|sink.p|sink.p0|sink.p0_par|sink.r|sink1.L|der.sink1.inlet.m_flow.|sink1.inlet.m_flow|sink1.inlet.r|sink1.inlet.state.T|sink1.inlet.state.p|sink1.p|sink1.p0|sink1.p0_par|sink1.r|sink2.L|der.sink2.inlet.m_flow.|sink2.inlet.m_flow|sink2.inlet.r|sink2.inlet.state.T|sink2.inlet.state.p|sink3.L|der.sink3.inlet.m_flow.|sink3.inlet.m_flow|sink3.inlet.r|sink3.inlet.state.T|sink3.inlet.state.p|sink4.L|der.sink4.inlet.m_flow.|sink4.inlet.m_flow|sink4.inlet.r|sink4.inlet.state.T|sink4.inlet.state.p|sourceA.L|sourceA.T0|sourceA.T0_par|sourceA.h0|sourceA.h0_par|der.sourceA.outlet.m_flow.|sourceA.outlet.m_flow|sourceA.outlet.r|sourceA.outlet.state.T|sourceA.outlet.state.p|sourceA.p0|sourceA.p0_par|sourceA1.L|sourceA1.T0|sourceA1.T0_par|sourceA1.h0|sourceA1.h0_par|der.sourceA1.outlet.m_flow.|sourceA1.outlet.m_flow|sourceA1.outlet.r|sourceA1.outlet.state.T|sourceA1.outlet.state.p|sourceA1.p0|sourceA1.p0_par|sourceA2.L|sourceA2.T0|sourceA2.T0_par|sourceA2.h0|sourceA2.h0_par|der.sourceA2.outlet.m_flow.|sourceA2.outlet.m_flow|sourceA2.outlet.r|sourceA2.outlet.state.T|sourceA2.outlet.state.p|sourceA2.p0|sourceA2.p0_par|sourceA3.L|sourceA3.T0|sourceA3.T0_par|sourceA3.h0|sourceA3.h0_par|der.sourceA3.outlet.m_flow.|sourceA3.outlet.m_flow|sourceA3.outlet.r|sourceA3.outlet.state.T|sourceA3.outlet.state.p|sourceA3.p0|sourceA3.p0_par|sourceA4.L|sourceA4.T0|sourceA4.T0_par|sourceA4.h0|sourceA4.h0_par|der.sourceA4.outlet.m_flow.|sourceA4.outlet.m_flow|sourceA4.outlet.r|sourceA4.outlet.state.T|sourceA4.outlet.state.p|sourceA4.p0|sourceA4.p0_par|sourceB.L|sourceB.T0|sourceB.T0_par|sourceB.h0|sourceB.h0_par|der.sourceB.outlet.m_flow.|sourceB.outlet.m_flow|sourceB.outlet.r|sourceB.outlet.state.T|sourceB.outlet.state.p|sourceB.p0|sourceB.p0_par|sourceB1.L|sourceB1.T0|sourceB1.T0_par|sourceB1.h0|sourceB1.h0_par|der.sourceB1.outlet.m_flow.|sourceB1.outlet.m_flow|sourceB1.outlet.r|sourceB1.outlet.state.T|sourceB1.outlet.state.p|sourceB1.p0|sourceB1.p0_par|sourceB2.L|sourceB2.T0|sourceB2.T0_par|sourceB2.h0|sourceB2.h0_par|der.sourceB2.outlet.m_flow.|sourceB2.outlet.m_flow|sourceB2.outlet.r|sourceB2.outlet.state.T|sourceB2.outlet.state.p|sourceB2.p0|sourceB2.p0_par|sourceB3.L|sourceB3.T0|sourceB3.T0_par|sourceB3.h0|sourceB3.h0_par|der.sourceB3.outlet.m_flow.|sourceB3.outlet.m_flow|sourceB3.outlet.r|sourceB3.outlet.state.T|sourceB3.outlet.state.p|sourceB3.p0|sourceB3.p0_par|sourceB4.L|sourceB4.T0|sourceB4.T0_par|sourceB4.h0|sourceB4.h0_par|der.sourceB4.outlet.m_flow.|sourceB4.outlet.m_flow|sourceB4.outlet.r|sourceB4.outlet.state.T|sourceB4.outlet.state.p|sourceB4.p0|sourceB4.p0_par",fileNamePrefix="ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const") [Timeout 660]
"Notification: Performance of FrontEnd - loaded program: time 1.583e-06/1.583e-06, allocations: 0 / 0.5548 GB, free: 12.64 MB / 490.7 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 2.531e-05/2.689e-05, allocations: 6.25 kB / 0.5548 GB, free: 12.63 MB / 490.7 MB
Notification: Performance of NFInst.instantiate(ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const): time 0.5557/0.5558, allocations: 286.6 MB / 0.8347 GB, free: 14.32 MB / 0.6823 GB
Notification: Performance of NFInst.instExpressions: time 0.00967/0.5654, allocations: 6.476 MB / 0.841 GB, free: 7.828 MB / 0.6823 GB
Notification: Performance of NFInst.updateImplicitVariability: time 0.0008734/0.5663, allocations: 178.3 kB / 0.8412 GB, free: 7.652 MB / 0.6823 GB
Notification: Performance of NFTyping.typeComponents: time 0.002396/0.5687, allocations: 1.287 MB / 0.8424 GB, free: 6.355 MB / 0.6823 GB
Notification: Performance of NFTyping.typeBindings: time 0.004856/0.5736, allocations: 3.078 MB / 0.8455 GB, free: 3.258 MB / 0.6823 GB
Notification: Performance of NFTyping.typeClassSections: time 0.006123/0.5797, allocations: 3.221 MB / 0.8486 GB, free: 24 kB / 0.6823 GB
Notification: Performance of NFFlatten.flatten: time 0.003532/0.5832, allocations: 4.581 MB / 0.8531 GB, free: 11.42 MB / 0.698 GB
Notification: Performance of NFFlatten.resolveConnections: time 0.0004609/0.5837, allocations: 383.5 kB / 0.8534 GB, free: 11.01 MB / 0.698 GB
Notification: Performance of NFEvalConstants.evaluate: time 0.004285/0.588, allocations: 3.789 MB / 0.8571 GB, free: 7.211 MB / 0.698 GB
Notification: Performance of NFSimplifyModel.simplify: time 0.001288/0.5893, allocations: 1.063 MB / 0.8582 GB, free: 6.145 MB / 0.698 GB
Notification: Performance of NFPackage.collectConstants: time 0.0001665/0.5894, allocations: 168 kB / 0.8583 GB, free: 5.98 MB / 0.698 GB
Notification: Performance of NFFlatten.collectFunctions: time 0.005053/0.5945, allocations: 2.486 MB / 0.8608 GB, free: 3.492 MB / 0.698 GB
Notification: Performance of NFScalarize.scalarize: time 0.0002669/0.5947, allocations: 457.7 kB / 0.8612 GB, free: 3.043 MB / 0.698 GB
Notification: Performance of NFVerifyModel.verify: time 0.0005385/0.5953, allocations: 0.822 MB / 0.862 GB, free: 2.219 MB / 0.698 GB
Notification: Performance of NFConvertDAE.convert: time 0.005351/0.6006, allocations: 4.42 MB / 0.8663 GB, free: 13.79 MB / 0.7136 GB
Notification: Performance of FrontEnd - DAE generated: time 5.711e-06/0.6006, allocations: 0 / 0.8663 GB, free: 13.79 MB / 0.7136 GB
Notification: Performance of FrontEnd: time 2.484e-06/0.6006, allocations: 0 / 0.8663 GB, free: 13.79 MB / 0.7136 GB
Notification: Performance of Transformations before backend: time 1.752e-05/0.6007, allocations: 0 / 0.8663 GB, free: 13.79 MB / 0.7136 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 438
 * Number of variables: 438
Notification: Performance of Generate backend data structure: time 0.003388/0.604, allocations: 3.182 MB / 0.8694 GB, free: 10.55 MB / 0.7136 GB
Notification: Performance of prepare preOptimizeDAE: time 4.259e-05/0.6041, allocations: 12.03 kB / 0.8694 GB, free: 10.54 MB / 0.7136 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.0009697/0.6051, allocations: 421.9 kB / 0.8698 GB, free: 10.13 MB / 0.7136 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.001867/0.6069, allocations: 1.745 MB / 0.8715 GB, free: 8.332 MB / 0.7136 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 6.335e-05/0.607, allocations: 131.4 kB / 0.8717 GB, free: 8.203 MB / 0.7136 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.0004539/0.6074, allocations: 187.9 kB / 0.8718 GB, free: 8.02 MB / 0.7136 GB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.001754/0.6092, allocations: 1.896 MB / 0.8737 GB, free: 6.023 MB / 0.7136 GB
Notification: Performance of preOpt findStateOrder (simulation): time 2.62e-05/0.6092, allocations: 4 kB / 0.8737 GB, free: 6.02 MB / 0.7136 GB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.000103/0.6093, allocations: 68 kB / 0.8738 GB, free: 5.953 MB / 0.7136 GB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 2.154e-05/0.6093, allocations: 40 kB / 0.8738 GB, free: 5.914 MB / 0.7136 GB
Notification: Performance of preOpt removeEqualRHS (simulation): time 0.001334/0.6107, allocations: 1.226 MB / 0.875 GB, free: 4.688 MB / 0.7136 GB
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.005355/0.616, allocations: 6.026 MB / 0.8809 GB, free: 14.43 MB / 0.7292 GB
Notification: Performance of preOpt comSubExp (simulation): time 0.001306/0.6173, allocations: 0.9531 MB / 0.8818 GB, free: 13.44 MB / 0.7292 GB
Notification: Performance of preOpt resolveLoops (simulation): time 0.0003671/0.6177, allocations: 334.4 kB / 0.8821 GB, free: 13.1 MB / 0.7292 GB
Notification: Performance of preOpt evalFunc (simulation): time 0.0001494/0.6179, allocations: 43.91 kB / 0.8822 GB, free: 13.05 MB / 0.7292 GB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 3.298e-05/0.6179, allocations: 46.56 kB / 0.8822 GB, free: 13 MB / 0.7292 GB
Notification: Performance of pre-optimization done (n=88): time 2.845e-06/0.6179, allocations: 0 / 0.8822 GB, free: 13 MB / 0.7292 GB
Notification: Performance of matching and sorting (n=90): time 0.00401/0.6219, allocations: 3.816 MB / 0.886 GB, free: 9.109 MB / 0.7292 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 5.754e-05/0.622, allocations: 170.2 kB / 0.8861 GB, free: 8.906 MB / 0.7292 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.001265/0.6232, allocations: 1.514 MB / 0.8876 GB, free: 7.352 MB / 0.7292 GB
Notification: Performance of collectPreVariables (initialization): time 6.583e-05/0.6233, allocations: 41.7 kB / 0.8876 GB, free: 7.305 MB / 0.7292 GB
Notification: Performance of collectInitialEqns (initialization): time 0.0005531/0.6238, allocations: 1.144 MB / 0.8887 GB, free: 6.148 MB / 0.7292 GB
Notification: Performance of collectInitialBindings (initialization): time 0.0001747/0.624, allocations: 333.1 kB / 0.8891 GB, free: 5.82 MB / 0.7292 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.0002596/0.6243, allocations: 306.7 kB / 0.8894 GB, free: 5.516 MB / 0.7292 GB
Notification: Performance of setup shared object (initialization): time 9.7e-05/0.6244, allocations: 345.9 kB / 0.8897 GB, free: 5.172 MB / 0.7292 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.0004078/0.6248, allocations: 331.3 kB / 0.89 GB, free: 4.848 MB / 0.7292 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.0005222/0.6253, allocations: 0.5723 MB / 0.8906 GB, free: 4.176 MB / 0.7292 GB
Notification: Performance of analyzeInitialSystem (initialization): time 0.001001/0.6263, allocations: 0.9478 MB / 0.8915 GB, free: 3.133 MB / 0.7292 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 7.955e-06/0.6263, allocations: 4 kB / 0.8915 GB, free: 3.129 MB / 0.7292 GB
Notification: Performance of matching and sorting (n=143) (initialization): time 0.001613/0.6279, allocations: 1.385 MB / 0.8928 GB, free: 1.73 MB / 0.7292 GB
Notification: Performance of prepare postOptimizeDAE: time 2.056e-05/0.6279, allocations: 8 kB / 0.8929 GB, free: 1.723 MB / 0.7292 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 1.091e-05/0.628, allocations: 8 kB / 0.8929 GB, free: 1.715 MB / 0.7292 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.0002953/0.6283, allocations: 129.9 kB / 0.893 GB, free: 1.582 MB / 0.7292 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.0005161/0.6288, allocations: 339.1 kB / 0.8933 GB, free: 1.254 MB / 0.7292 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.002056/0.6308, allocations: 3.413 MB / 0.8966 GB, free: 13.64 MB / 0.7448 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.0003915/0.6312, allocations: 40.72 kB / 0.8967 GB, free: 13.6 MB / 0.7448 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.000176/0.6314, allocations: 180 kB / 0.8969 GB, free: 13.42 MB / 0.7448 GB
Notification: Model statistics after passing the back-end for initialization:
 * Number of independent subsystems: 33
 * Number of states: 0 ()
 * Number of discrete variables: 0 ()
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for initialization (131):
 * Single equations (assignments): 129
 * Array equations: 0
 * Algorithm blocks: 0
 * Record equations: 0
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 0
 * Torn equation systems: 2
 * Mixed (continuous/discrete) equation systems: 0
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 2 systems
   {(1,6,100.0%), (1,6,100.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 0 systems
Notification: Performance of prepare postOptimizeDAE: time 0.0004226/0.6318, allocations: 329.6 kB / 0.8972 GB, free: 13.09 MB / 0.7448 GB
Notification: Performance of postOpt lateInlineFunction (simulation): time 0.000192/0.632, allocations: 198.7 kB / 0.8974 GB, free: 12.89 MB / 0.7448 GB
Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.003412/0.6354, allocations: 3.33 MB / 0.9006 GB, free: 9.492 MB / 0.7448 GB
Notification: Performance of postOpt inlineArrayEqn (simulation): time 5.931e-06/0.6354, allocations: 8 kB / 0.9006 GB, free: 9.484 MB / 0.7448 GB
Notification: Performance of postOpt constantLinearSystem (simulation): time 5.27e-06/0.6354, allocations: 4 kB / 0.9006 GB, free: 9.48 MB / 0.7448 GB
Notification: Performance of postOpt simplifysemiLinear (simulation): time 7.714e-06/0.6354, allocations: 3.984 kB / 0.9006 GB, free: 9.477 MB / 0.7448 GB
Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.002336/0.6378, allocations: 2.356 MB / 0.9029 GB, free: 7.055 MB / 0.7448 GB
Notification: Performance of postOpt simplifyComplexFunction (simulation): time 3.537e-06/0.6378, allocations: 0 / 0.9029 GB, free: 7.055 MB / 0.7448 GB
Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.0002433/0.638, allocations: 143.8 kB / 0.9031 GB, free: 6.914 MB / 0.7448 GB
Notification: Performance of postOpt tearingSystem (simulation): time 0.0002258/0.6382, allocations: 137.7 kB / 0.9032 GB, free: 6.773 MB / 0.7448 GB
Notification: Performance of postOpt inputDerivativesUsed (simulation): time 6.669e-05/0.6383, allocations: 43.97 kB / 0.9032 GB, free: 6.73 MB / 0.7448 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.002171/0.6405, allocations: 3.417 MB / 0.9066 GB, free: 3.121 MB / 0.7448 GB
Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 4.388e-06/0.6405, allocations: 7.938 kB / 0.9066 GB, free: 3.113 MB / 0.7448 GB
Notification: Performance of postOpt symbolicJacobian (simulation): time 0.001383/0.6419, allocations: 1.55 MB / 0.9081 GB, free: 1.516 MB / 0.7448 GB
Notification: Performance of postOpt removeConstants (simulation): time 0.0002452/0.6421, allocations: 238.6 kB / 0.9083 GB, free: 1.281 MB / 0.7448 GB
Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.0001241/0.6422, allocations: 27.92 kB / 0.9083 GB, free: 1.254 MB / 0.7448 GB
Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.0003625/0.6426, allocations: 16 kB / 0.9084 GB, free: 1.238 MB / 0.7448 GB
Notification: Performance of postOpt findZeroCrossings (simulation): time 8.829e-05/0.6427, allocations: 83.81 kB / 0.9084 GB, free: 1.156 MB / 0.7448 GB
Notification: Performance of postOpt collapseArrayExpressions (simulation): time 7.187e-05/0.6428, allocations: 83.98 kB / 0.9085 GB, free: 1.074 MB / 0.7448 GB
Notification: Performance of sorting global known variables: time 0.00103/0.6438, allocations: 1.071 MB / 0.9096 GB, free: 15.98 MB / 0.7605 GB
Notification: Performance of sort global known variables: time 3.1e-07/0.6438, allocations: 0 / 0.9096 GB, free: 15.98 MB / 0.7605 GB
Notification: Performance of remove unused functions: time 0.00174/0.6455, allocations: 0.5855 MB / 0.9101 GB, free: 15.39 MB / 0.7605 GB
Notification: Model statistics after passing the back-end for simulation:
 * Number of independent subsystems: 11
 * Number of states: 2 (junction1.outlet.m_flow,junction.outlet.m_flow)
 * Number of discrete variables: 0 ()
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for simulation (59):
 * Single equations (assignments): 57
 * Array equations: 0
 * Algorithm blocks: 0
 * Record equations: 0
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 0
 * Torn equation systems: 2
 * Mixed (continuous/discrete) equation systems: 0
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 2 systems
   {(1,6,100.0%), (1,6,100.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 0 systems
Notification: Performance of Backend phase and start with SimCode phase: time 0.0008321/0.6464, allocations: 0.7827 MB / 0.9109 GB, free: 14.62 MB / 0.7605 GB
Notification: Performance of simCode: created initialization part: time 0.001191/0.6476, allocations: 1.014 MB / 0.9119 GB, free: 13.58 MB / 0.7605 GB
Notification: Performance of simCode: created event and clocks part: time 2.404e-06/0.6476, allocations: 4.062 kB / 0.9119 GB, free: 13.58 MB / 0.7605 GB
Notification: Performance of simCode: created simulation system equations: time 0.0004946/0.6481, allocations: 0.5669 MB / 0.9125 GB, free: 12.98 MB / 0.7605 GB
Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.001797/0.6498, allocations: 0.7148 MB / 0.9131 GB, free: 12.29 MB / 0.7605 GB
Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 0.003182/0.653, allocations: 3.145 MB / 0.9162 GB, free: 9.082 MB / 0.7605 GB
Notification: Performance of simCode: some other stuff during SimCode phase: time 0.0008119/0.6538, allocations: 0.849 MB / 0.917 GB, free: 8.191 MB / 0.7605 GB
Notification: Performance of simCode: alias equations: time 0.002108/0.656, allocations: 2.103 MB / 0.9191 GB, free: 6.086 MB / 0.7605 GB
Notification: Performance of simCode: all other stuff during SimCode phase: time 0.0005141/0.6565, allocations: 352.2 kB / 0.9194 GB, free: 5.742 MB / 0.7605 GB
Notification: Performance of SimCode: time 7.22e-07/0.6565, allocations: 0 / 0.9194 GB, free: 5.742 MB / 0.7605 GB
Notification: Performance of Templates: time 0.2885/0.945, allocations: 34.15 MB / 0.9528 GB, free: 303.4 MB / 0.7761 GB
"
[Timeout remaining time 659]
make -j1 -f ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.makefile [Timeout 660]
(rm -f ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.pipe ; mkfifo ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.pipe ; head -c 1048576 < ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.pipe >> ../files/ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.sim & ./ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const  -abortSlowSimulation -alarm=1200 -s gbode -gbnls=internal -gberr=embedded -gbm=radauIIA3 -emit_protected -lv LOG_STATS > ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.pipe 2>&1) [Timeout 1200]
diffSimulationResults("ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat","/mnt/ReferenceFiles/ThermofluidStream-main-regression/ReferenceData/ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_ref.mat","/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/files/ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const.diff",relTol=0.003,relTolDiffMinMax=0.003,rangeDelta=0.001) [Timeout 660]
"Error: Could not read variable CPUtime in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable CPUtime from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable EventCounter in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable EventCounter from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0 in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0 from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0 in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0 from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable dropOfCommons.instanceNameColor[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable dropOfCommons.instanceNameColor[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable dropOfCommons.instanceNameColor[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable dropOfCommons.instanceNameColor[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable dropOfCommons.instanceNameColor[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable dropOfCommons.instanceNameColor[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction.der(m_flowA) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction.der(m_flowA) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction1.der(m_flowB) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction1.der(m_flowB) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction2.der(m_flowA) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction2.der(m_flowA) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction2.der(m_flowB) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction2.der(m_flowB) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction2.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction2.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction3.der(m_flowA) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction3.der(m_flowA) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction3.der(m_flowB) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction3.der(m_flowB) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction3.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction3.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction4.der(m_flowA) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction4.der(m_flowA) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction4.der(m_flowB) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction4.der(m_flowB) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable junction4.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable junction4.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateA.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateA.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateA1.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateA1.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateA2.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateA2.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateA4.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateA4.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateB.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateB.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateB1.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateB1.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateB2.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateB2.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable massFlowRateB3.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable massFlowRateB3.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sink.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sink.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sink1.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sink1.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sink2.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sink2.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sink3.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sink3.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sink4.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sink4.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceA.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceA.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceA2.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceA2.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceA3.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceA3.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceA4.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceA4.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceB1.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceB1.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceB2.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceB2.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceB3.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceB3.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
Error: Could not read variable sourceB4.outlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat.
Warning: Get data of variable sourceB4.outlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.JunctionT2Const_res.mat failed!
"
[Timeout remaining time 660]
""

Variables in the reference:CPUtime,EventCounter,Time,_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0,_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf,_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM,_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s,_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit,_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[1],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[2],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[3],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[4],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[5],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[6],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[7],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[1],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[2],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[3],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[4],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[5],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[6],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[7],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[1],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[2],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[1],_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[2],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0,_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf,_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM,_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s,_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit,_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[1],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[2],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[3],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[4],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[5],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[6],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[7],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[1],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[2],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[3],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[4],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[5],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[6],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[7],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[1],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[2],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[1],_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[2],dropOfCommons.L,dropOfCommons.assertionLevel,dropOfCommons.g,dropOfCommons.instanceNameColor[1],dropOfCommons.instanceNameColor[2],dropOfCommons.instanceNameColor[3],dropOfCommons.k_volume_damping,dropOfCommons.m_flow_reg,dropOfCommons.omega_reg,dropOfCommons.p_min,dropOfCommons.rho_min,flowResistanceA.D_h,flowResistanceA.L,flowResistanceA.L_value,flowResistanceA.a,flowResistanceA.areaCross,flowResistanceA.areaCrossInput,flowResistanceA.areaHydraulic,flowResistanceA.b,flowResistanceA.clip_p_out,flowResistanceA.dp,flowResistanceA.dp_ref_color,flowResistanceA.dr_corr,flowResistanceA.h_in,flowResistanceA.h_out,flowResistanceA.initM_flow,der(flowResistanceA.inlet.m_flow),flowResistanceA.inlet.m_flow,flowResistanceA.inlet.r,flowResistanceA.inlet.state.T,flowResistanceA.inlet.state.p,flowResistanceA.l,flowResistanceA.m_acceleration_0,flowResistanceA.m_flow,flowResistanceA.m_flowStateSelect,flowResistanceA.m_flow_0,flowResistanceA.mu_in,flowResistanceA.outlet.m_flow,flowResistanceA.outlet.r,flowResistanceA.outlet.state.T,flowResistanceA.outlet.state.p,flowResistanceA.p_in,flowResistanceA.p_min,flowResistanceA.p_out,flowResistanceA.perimeter,flowResistanceA.perimeterInput,flowResistanceA.phi,flowResistanceA.pressureDropSignificantDigits,flowResistanceA.r,flowResistanceA.rho_in,flowResistanceA.rho_min,flowResistanceA.shape,flowResistanceB.D_h,flowResistanceB.L,flowResistanceB.L_value,flowResistanceB.a,flowResistanceB.areaCross,flowResistanceB.areaCrossInput,flowResistanceB.areaHydraulic,flowResistanceB.b,flowResistanceB.clip_p_out,flowResistanceB.dp,flowResistanceB.dp_ref_color,flowResistanceB.dr_corr,flowResistanceB.h_in,flowResistanceB.h_out,flowResistanceB.initM_flow,der(flowResistanceB.inlet.m_flow),flowResistanceB.inlet.m_flow,flowResistanceB.inlet.r,flowResistanceB.inlet.state.T,flowResistanceB.inlet.state.p,flowResistanceB.l,flowResistanceB.m_acceleration_0,flowResistanceB.m_flow,flowResistanceB.m_flowStateSelect,flowResistanceB.m_flow_0,flowResistanceB.mu_in,flowResistanceB.outlet.m_flow,flowResistanceB.outlet.r,flowResistanceB.outlet.state.T,flowResistanceB.outlet.state.p,flowResistanceB.p_in,flowResistanceB.p_min,flowResistanceB.p_out,flowResistanceB.perimeter,flowResistanceB.perimeterInput,flowResistanceB.phi,flowResistanceB.pressureDropSignificantDigits,flowResistanceB.r,flowResistanceB.rho_in,flowResistanceB.rho_min,flowResistanceB.shape,junction.L,junction.assertionLevel,der(junction.m_flowA),der(junction.m_flowB),junction.dp_AB_rel,junction.free,junction.hA,junction.hB,junction.h_mix,junction.inletA.m_flow,junction.inletA.r,junction.inletA.state.T,junction.inletA.state.p,junction.inletB.m_flow,junction.inletB.r,junction.inletB.state.T,junction.inletB.state.p,junction.isDPWithinTol,junction.m_flowA,junction.m_flowA_reg,junction.m_flowB,junction.m_flowB_reg,junction.m_flow_eps,der(junction.outlet.m_flow),junction.outlet.m_flow,junction.outlet.r,junction.outlet.state.T,junction.outlet.state.p,junction.pA,junction.pB,junction.p_mix,junction.rA,junction.rA2,junction.rB,junction.rB2,junction.r_mix,junction.relTol_dp_AB,junction.stateA.T,junction.stateA.p,junction.stateB.T,junction.stateB.p,junction.wA,junction.wB,junction1.L,junction1.assertionLevel,der(junction1.m_flowA),der(junction1.m_flowB),junction1.dp_AB_rel,junction1.free,junction1.hA,junction1.hB,junction1.h_mix,junction1.inletA.m_flow,junction1.inletA.r,junction1.inletA.state.T,junction1.inletA.state.p,junction1.inletB.m_flow,junction1.inletB.r,junction1.inletB.state.T,junction1.inletB.state.p,junction1.isDPWithinTol,junction1.m_flowA,junction1.m_flowA_reg,junction1.m_flowB,junction1.m_flowB_reg,junction1.m_flow_eps,der(junction1.outlet.m_flow),junction1.outlet.m_flow,junction1.outlet.r,junction1.outlet.state.T,junction1.outlet.state.p,junction1.pA,junction1.pB,junction1.p_mix,junction1.rA,junction1.rA2,junction1.rB,junction1.rB2,junction1.r_mix,junction1.relTol_dp_AB,junction1.stateA.T,junction1.stateA.p,junction1.stateB.T,junction1.stateB.p,junction1.wA,junction1.wB,junction2.L,junction2.assertionLevel,der(junction2.m_flowA),der(junction2.m_flowB),junction2.dp_AB_rel,junction2.free,junction2.hA,junction2.hB,junction2.h_mix,junction2.inletA.m_flow,junction2.inletA.r,junction2.inletA.state.T,junction2.inletA.state.p,junction2.inletB.m_flow,junction2.inletB.r,junction2.inletB.state.T,junction2.inletB.state.p,junction2.isDPWithinTol,junction2.m_flowA,junction2.m_flowA_reg,junction2.m_flowB,junction2.m_flowB_reg,junction2.m_flow_eps,der(junction2.outlet.m_flow),junction2.outlet.m_flow,junction2.outlet.r,junction2.outlet.state.T,junction2.outlet.state.p,junction2.pA,junction2.pB,junction2.p_mix,junction2.rA,junction2.rA2,junction2.rB,junction2.rB2,junction2.r_mix,junction2.relTol_dp_AB,junction2.stateA.T,junction2.stateA.p,junction2.stateB.T,junction2.stateB.p,junction2.wA,junction2.wB,junction3.L,junction3.assertionLevel,der(junction3.m_flowA),der(junction3.m_flowB),junction3.dp_AB_rel,junction3.free,junction3.hA,junction3.hB,junction3.h_mix,junction3.inletA.m_flow,junction3.inletA.r,junction3.inletA.state.T,junction3.inletA.state.p,junction3.inletB.m_flow,junction3.inletB.r,junction3.inletB.state.T,junction3.inletB.state.p,junction3.isDPWithinTol,junction3.m_flowA,junction3.m_flowA_reg,junction3.m_flowB,junction3.m_flowB_reg,junction3.m_flow_eps,der(junction3.outlet.m_flow),junction3.outlet.m_flow,junction3.outlet.r,junction3.outlet.state.T,junction3.outlet.state.p,junction3.pA,junction3.pB,junction3.p_mix,junction3.rA,junction3.rA2,junction3.rB,junction3.rB2,junction3.r_mix,junction3.relTol_dp_AB,junction3.stateA.T,junction3.stateA.p,junction3.stateB.T,junction3.stateB.p,junction3.wA,junction3.wB,junction4.L,junction4.assertionLevel,der(junction4.m_flowA),der(junction4.m_flowB),junction4.dp_AB_rel,junction4.free,junction4.hA,junction4.hB,junction4.h_mix,junction4.inletA.m_flow,junction4.inletA.r,junction4.inletA.state.T,junction4.inletA.state.p,junction4.inletB.m_flow,junction4.inletB.r,junction4.inletB.state.T,junction4.inletB.state.p,junction4.isDPWithinTol,junction4.m_flowA,junction4.m_flowA_reg,junction4.m_flowB,junction4.m_flowB_reg,junction4.m_flow_eps,der(junction4.outlet.m_flow),junction4.outlet.m_flow,junction4.outlet.r,junction4.outlet.state.T,junction4.outlet.state.p,junction4.pA,junction4.pB,junction4.p_mix,junction4.rA,junction4.rA2,junction4.rB,junction4.rB2,junction4.r_mix,junction4.relTol_dp_AB,junction4.stateA.T,junction4.stateA.p,junction4.stateB.T,junction4.stateB.p,junction4.wA,junction4.wB,massFlowRateA.L,massFlowRateA.clip_p_out,massFlowRateA.dp,massFlowRateA.dr_corr,massFlowRateA.h_in,massFlowRateA.h_out,massFlowRateA.initM_flow,der(massFlowRateA.inlet.m_flow),massFlowRateA.inlet.m_flow,massFlowRateA.inlet.r,massFlowRateA.inlet.state.T,massFlowRateA.inlet.state.p,massFlowRateA.m_acceleration_0,massFlowRateA.m_flow,massFlowRateA.m_flowSpec,massFlowRateA.m_flowStateSelect,massFlowRateA.m_flow_0,massFlowRateA.m_flow_actual,massFlowRateA.m_flow_fixed,massFlowRateA.outlet.m_flow,massFlowRateA.outlet.r,massFlowRateA.outlet.state.T,massFlowRateA.outlet.state.p,massFlowRateA.p_in,massFlowRateA.p_min,massFlowRateA.p_out,massFlowRateA1.L,massFlowRateA1.clip_p_out,massFlowRateA1.dp,massFlowRateA1.dr_corr,massFlowRateA1.h_in,massFlowRateA1.h_out,massFlowRateA1.initM_flow,der(massFlowRateA1.inlet.m_flow),massFlowRateA1.inlet.m_flow,massFlowRateA1.inlet.r,massFlowRateA1.inlet.state.T,massFlowRateA1.inlet.state.p,massFlowRateA1.m_acceleration_0,massFlowRateA1.m_flow,massFlowRateA1.m_flowSpec,massFlowRateA1.m_flowStateSelect,massFlowRateA1.m_flow_0,massFlowRateA1.m_flow_actual,massFlowRateA1.m_flow_fixed,massFlowRateA1.outlet.m_flow,massFlowRateA1.outlet.r,massFlowRateA1.outlet.state.T,massFlowRateA1.outlet.state.p,massFlowRateA1.p_in,massFlowRateA1.p_min,massFlowRateA1.p_out,massFlowRateA2.L,massFlowRateA2.clip_p_out,massFlowRateA2.dp,massFlowRateA2.dr_corr,massFlowRateA2.h_in,massFlowRateA2.h_out,massFlowRateA2.initM_flow,der(massFlowRateA2.inlet.m_flow),massFlowRateA2.inlet.m_flow,massFlowRateA2.inlet.r,massFlowRateA2.inlet.state.T,massFlowRateA2.inlet.state.p,massFlowRateA2.m_acceleration_0,massFlowRateA2.m_flow,massFlowRateA2.m_flowSpec,massFlowRateA2.m_flowStateSelect,massFlowRateA2.m_flow_0,massFlowRateA2.m_flow_actual,massFlowRateA2.m_flow_fixed,massFlowRateA2.outlet.m_flow,massFlowRateA2.outlet.r,massFlowRateA2.outlet.state.T,massFlowRateA2.outlet.state.p,massFlowRateA2.p_in,massFlowRateA2.p_min,massFlowRateA2.p_out,massFlowRateA4.L,massFlowRateA4.clip_p_out,massFlowRateA4.dp,massFlowRateA4.dr_corr,massFlowRateA4.h_in,massFlowRateA4.h_out,massFlowRateA4.initM_flow,der(massFlowRateA4.inlet.m_flow),massFlowRateA4.inlet.m_flow,massFlowRateA4.inlet.r,massFlowRateA4.inlet.state.T,massFlowRateA4.inlet.state.p,massFlowRateA4.m_acceleration_0,massFlowRateA4.m_flow,massFlowRateA4.m_flowSpec,massFlowRateA4.m_flowStateSelect,massFlowRateA4.m_flow_0,massFlowRateA4.m_flow_actual,massFlowRateA4.m_flow_fixed,massFlowRateA4.outlet.m_flow,massFlowRateA4.outlet.r,massFlowRateA4.outlet.state.T,massFlowRateA4.outlet.state.p,massFlowRateA4.p_in,massFlowRateA4.p_min,massFlowRateA4.p_out,massFlowRateB.L,massFlowRateB.clip_p_out,massFlowRateB.dp,massFlowRateB.dr_corr,massFlowRateB.h_in,massFlowRateB.h_out,massFlowRateB.initM_flow,der(massFlowRateB.inlet.m_flow),massFlowRateB.inlet.m_flow,massFlowRateB.inlet.r,massFlowRateB.inlet.state.T,massFlowRateB.inlet.state.p,massFlowRateB.m_acceleration_0,massFlowRateB.m_flow,massFlowRateB.m_flowSpec,massFlowRateB.m_flowStateSelect,massFlowRateB.m_flow_0,massFlowRateB.m_flow_actual,massFlowRateB.m_flow_fixed,massFlowRateB.outlet.m_flow,massFlowRateB.outlet.r,massFlowRateB.outlet.state.T,massFlowRateB.outlet.state.p,massFlowRateB.p_in,massFlowRateB.p_min,massFlowRateB.p_out,massFlowRateB1.L,massFlowRateB1.clip_p_out,massFlowRateB1.dp,massFlowRateB1.dr_corr,massFlowRateB1.h_in,massFlowRateB1.h_out,massFlowRateB1.initM_flow,der(massFlowRateB1.inlet.m_flow),massFlowRateB1.inlet.m_flow,massFlowRateB1.inlet.r,massFlowRateB1.inlet.state.T,massFlowRateB1.inlet.state.p,massFlowRateB1.m_acceleration_0,massFlowRateB1.m_flow,massFlowRateB1.m_flowSpec,massFlowRateB1.m_flowStateSelect,massFlowRateB1.m_flow_0,massFlowRateB1.m_flow_actual,massFlowRateB1.m_flow_fixed,massFlowRateB1.outlet.m_flow,massFlowRateB1.outlet.r,massFlowRateB1.outlet.state.T,massFlowRateB1.outlet.state.p,massFlowRateB1.p_in,massFlowRateB1.p_min,massFlowRateB1.p_out,massFlowRateB2.L,massFlowRateB2.clip_p_out,massFlowRateB2.dp,massFlowRateB2.dr_corr,massFlowRateB2.h_in,massFlowRateB2.h_out,massFlowRateB2.initM_flow,der(massFlowRateB2.inlet.m_flow),massFlowRateB2.inlet.m_flow,massFlowRateB2.inlet.r,massFlowRateB2.inlet.state.T,massFlowRateB2.inlet.state.p,massFlowRateB2.m_acceleration_0,massFlowRateB2.m_flow,massFlowRateB2.m_flowSpec,massFlowRateB2.m_flowStateSelect,massFlowRateB2.m_flow_0,massFlowRateB2.m_flow_actual,massFlowRateB2.m_flow_fixed,massFlowRateB2.outlet.m_flow,massFlowRateB2.outlet.r,massFlowRateB2.outlet.state.T,massFlowRateB2.outlet.state.p,massFlowRateB2.p_in,massFlowRateB2.p_min,massFlowRateB2.p_out,massFlowRateB3.L,massFlowRateB3.clip_p_out,massFlowRateB3.dp,massFlowRateB3.dr_corr,massFlowRateB3.h_in,massFlowRateB3.h_out,massFlowRateB3.initM_flow,der(massFlowRateB3.inlet.m_flow),massFlowRateB3.inlet.m_flow,massFlowRateB3.inlet.r,massFlowRateB3.inlet.state.T,massFlowRateB3.inlet.state.p,massFlowRateB3.m_acceleration_0,massFlowRateB3.m_flow,massFlowRateB3.m_flowSpec,massFlowRateB3.m_flowStateSelect,massFlowRateB3.m_flow_0,massFlowRateB3.m_flow_actual,massFlowRateB3.m_flow_fixed,massFlowRateB3.outlet.m_flow,massFlowRateB3.outlet.r,massFlowRateB3.outlet.state.T,massFlowRateB3.outlet.state.p,massFlowRateB3.p_in,massFlowRateB3.p_min,massFlowRateB3.p_out,sink.L,der(sink.inlet.m_flow),sink.inlet.m_flow,sink.inlet.r,sink.inlet.state.T,sink.inlet.state.p,sink.p,sink.p0,sink.p0_par,sink.r,sink1.L,der(sink1.inlet.m_flow),sink1.inlet.m_flow,sink1.inlet.r,sink1.inlet.state.T,sink1.inlet.state.p,sink1.p,sink1.p0,sink1.p0_par,sink1.r,sink2.L,der(sink2.inlet.m_flow),sink2.inlet.m_flow,sink2.inlet.r,sink2.inlet.state.T,sink2.inlet.state.p,sink3.L,der(sink3.inlet.m_flow),sink3.inlet.m_flow,sink3.inlet.r,sink3.inlet.state.T,sink3.inlet.state.p,sink4.L,der(sink4.inlet.m_flow),sink4.inlet.m_flow,sink4.inlet.r,sink4.inlet.state.T,sink4.inlet.state.p,sourceA.L,sourceA.T0,sourceA.T0_par,sourceA.h0,sourceA.h0_par,der(sourceA.outlet.m_flow),sourceA.outlet.m_flow,sourceA.outlet.r,sourceA.outlet.state.T,sourceA.outlet.state.p,sourceA.p0,sourceA.p0_par,sourceA1.L,sourceA1.T0,sourceA1.T0_par,sourceA1.h0,sourceA1.h0_par,der(sourceA1.outlet.m_flow),sourceA1.outlet.m_flow,sourceA1.outlet.r,sourceA1.outlet.state.T,sourceA1.outlet.state.p,sourceA1.p0,sourceA1.p0_par,sourceA2.L,sourceA2.T0,sourceA2.T0_par,sourceA2.h0,sourceA2.h0_par,der(sourceA2.outlet.m_flow),sourceA2.outlet.m_flow,sourceA2.outlet.r,sourceA2.outlet.state.T,sourceA2.outlet.state.p,sourceA2.p0,sourceA2.p0_par,sourceA3.L,sourceA3.T0,sourceA3.T0_par,sourceA3.h0,sourceA3.h0_par,der(sourceA3.outlet.m_flow),sourceA3.outlet.m_flow,sourceA3.outlet.r,sourceA3.outlet.state.T,sourceA3.outlet.state.p,sourceA3.p0,sourceA3.p0_par,sourceA4.L,sourceA4.T0,sourceA4.T0_par,sourceA4.h0,sourceA4.h0_par,der(sourceA4.outlet.m_flow),sourceA4.outlet.m_flow,sourceA4.outlet.r,sourceA4.outlet.state.T,sourceA4.outlet.state.p,sourceA4.p0,sourceA4.p0_par,sourceB.L,sourceB.T0,sourceB.T0_par,sourceB.h0,sourceB.h0_par,der(sourceB.outlet.m_flow),sourceB.outlet.m_flow,sourceB.outlet.r,sourceB.outlet.state.T,sourceB.outlet.state.p,sourceB.p0,sourceB.p0_par,sourceB1.L,sourceB1.T0,sourceB1.T0_par,sourceB1.h0,sourceB1.h0_par,der(sourceB1.outlet.m_flow),sourceB1.outlet.m_flow,sourceB1.outlet.r,sourceB1.outlet.state.T,sourceB1.outlet.state.p,sourceB1.p0,sourceB1.p0_par,sourceB2.L,sourceB2.T0,sourceB2.T0_par,sourceB2.h0,sourceB2.h0_par,der(sourceB2.outlet.m_flow),sourceB2.outlet.m_flow,sourceB2.outlet.r,sourceB2.outlet.state.T,sourceB2.outlet.state.p,sourceB2.p0,sourceB2.p0_par,sourceB3.L,sourceB3.T0,sourceB3.T0_par,sourceB3.h0,sourceB3.h0_par,der(sourceB3.outlet.m_flow),sourceB3.outlet.m_flow,sourceB3.outlet.r,sourceB3.outlet.state.T,sourceB3.outlet.state.p,sourceB3.p0,sourceB3.p0_par,sourceB4.L,sourceB4.T0,sourceB4.T0_par,sourceB4.h0,sourceB4.h0_par,der(sourceB4.outlet.m_flow),sourceB4.outlet.m_flow,sourceB4.outlet.r,sourceB4.outlet.state.T,sourceB4.outlet.state.p,sourceB4.p0,sourceB4.p0_par

Variables in the result:$cse3,$cse4,$cse5,der(flowResistanceA.inlet.m_flow),der(flowResistanceB.inlet.m_flow),der(junction.outlet.m_flow),der(junction1.outlet.m_flow),dropOfCommons.L,dropOfCommons.assertionLevel,dropOfCommons.g,dropOfCommons.k_volume_damping,dropOfCommons.m_flow_reg,dropOfCommons.omega_reg,dropOfCommons.p_min,dropOfCommons.rho_min,flowResistanceA.D_h,flowResistanceA.L,flowResistanceA.L_value,flowResistanceA.a,flowResistanceA.areaCross,flowResistanceA.areaCrossInput,flowResistanceA.areaHydraulic,flowResistanceA.b,flowResistanceA.clip_p_out,flowResistanceA.dp,flowResistanceA.dp_ref_color,flowResistanceA.dr_corr,flowResistanceA.h_in,flowResistanceA.h_out,flowResistanceA.initM_flow,flowResistanceA.inlet.m_flow,flowResistanceA.inlet.r,flowResistanceA.inlet.state.T,flowResistanceA.inlet.state.p,flowResistanceA.l,flowResistanceA.m_acceleration_0,flowResistanceA.m_flow,flowResistanceA.m_flowStateSelect,flowResistanceA.m_flow_0,flowResistanceA.mu_in,flowResistanceA.outlet.m_flow,flowResistanceA.outlet.r,flowResistanceA.outlet.state.T,flowResistanceA.outlet.state.p,flowResistanceA.p_in,flowResistanceA.p_min,flowResistanceA.p_out,flowResistanceA.perimeter,flowResistanceA.perimeterInput,flowResistanceA.phi,flowResistanceA.pressureDropSignificantDigits,flowResistanceA.r,flowResistanceA.rho_in,flowResistanceA.rho_min,flowResistanceA.shape,flowResistanceB.D_h,flowResistanceB.L,flowResistanceB.L_value,flowResistanceB.a,flowResistanceB.areaCross,flowResistanceB.areaCrossInput,flowResistanceB.areaHydraulic,flowResistanceB.b,flowResistanceB.clip_p_out,flowResistanceB.dp,flowResistanceB.dp_ref_color,flowResistanceB.dr_corr,flowResistanceB.h_in,flowResistanceB.h_out,flowResistanceB.initM_flow,flowResistanceB.inlet.m_flow,flowResistanceB.inlet.r,flowResistanceB.inlet.state.T,flowResistanceB.inlet.state.p,flowResistanceB.l,flowResistanceB.m_acceleration_0,flowResistanceB.m_flow,flowResistanceB.m_flowStateSelect,flowResistanceB.m_flow_0,flowResistanceB.mu_in,flowResistanceB.outlet.m_flow,flowResistanceB.outlet.r,flowResistanceB.outlet.state.T,flowResistanceB.outlet.state.p,flowResistanceB.p_in,flowResistanceB.p_min,flowResistanceB.p_out,flowResistanceB.perimeter,flowResistanceB.perimeterInput,flowResistanceB.phi,flowResistanceB.pressureDropSignificantDigits,flowResistanceB.r,flowResistanceB.rho_in,flowResistanceB.rho_min,flowResistanceB.shape,junction.L,junction.assertionLevel,junction.dp_AB_rel,junction.free,junction.hA,junction.hB,junction.h_mix,junction.inletA.m_flow,junction.inletA.r,junction.inletA.state.T,junction.inletA.state.p,junction.inletB.m_flow,junction.inletB.r,junction.inletB.state.T,junction.inletB.state.p,junction.isDPWithinTol,junction.m_flowA,junction.m_flowA_reg,junction.m_flowB,junction.m_flowB_reg,junction.m_flow_eps,junction.outlet.m_flow,junction.outlet.r,junction.outlet.state.T,junction.outlet.state.p,junction.pA,junction.pB,junction.p_mix,junction.rA,junction.rA2,junction.rB,junction.rB2,junction.r_mix,junction.relTol_dp_AB,junction.stateA.T,junction.stateA.p,junction.stateB.T,junction.stateB.p,junction.wA,junction.wB,junction1.L,junction1.assertionLevel,junction1.dp_AB_rel,junction1.free,junction1.hA,junction1.hB,junction1.h_mix,junction1.inletA.m_flow,junction1.inletA.r,junction1.inletA.state.T,junction1.inletA.state.p,junction1.inletB.m_flow,junction1.inletB.r,junction1.inletB.state.T,junction1.inletB.state.p,junction1.isDPWithinTol,junction1.m_flowA,junction1.m_flowA_reg,junction1.m_flowB,junction1.m_flowB_reg,junction1.m_flow_eps,junction1.outlet.m_flow,junction1.outlet.r,junction1.outlet.state.T,junction1.outlet.state.p,junction1.pA,junction1.pB,junction1.p_mix,junction1.rA,junction1.rA2,junction1.rB,junction1.rB2,junction1.r_mix,junction1.relTol_dp_AB,junction1.stateA.T,junction1.stateA.p,junction1.stateB.T,junction1.stateB.p,junction1.wA,junction1.wB,junction2.L,junction2.assertionLevel,junction2.dp_AB_rel,junction2.free,junction2.hA,junction2.hB,junction2.h_mix,junction2.inletA.m_flow,junction2.inletA.r,junction2.inletA.state.T,junction2.inletA.state.p,junction2.inletB.m_flow,junction2.inletB.r,junction2.inletB.state.T,junction2.inletB.state.p,junction2.isDPWithinTol,junction2.m_flowA,junction2.m_flowA_reg,junction2.m_flowB,junction2.m_flowB_reg,junction2.m_flow_eps,junction2.outlet.m_flow,junction2.outlet.r,junction2.outlet.state.T,junction2.outlet.state.p,junction2.pA,junction2.pB,junction2.p_mix,junction2.rA,junction2.rA2,junction2.rB,junction2.rB2,junction2.r_mix,junction2.relTol_dp_AB,junction2.stateA.T,junction2.stateA.p,junction2.stateB.T,junction2.stateB.p,junction2.wA,junction2.wB,junction3.L,junction3.assertionLevel,junction3.dp_AB_rel,junction3.free,junction3.hA,junction3.hB,junction3.h_mix,junction3.inletA.m_flow,junction3.inletA.r,junction3.inletA.state.T,junction3.inletA.state.p,junction3.inletB.m_flow,junction3.inletB.r,junction3.inletB.state.T,junction3.inletB.state.p,junction3.isDPWithinTol,junction3.m_flowA,junction3.m_flowA_reg,junction3.m_flowB,junction3.m_flowB_reg,junction3.m_flow_eps,junction3.outlet.m_flow,junction3.outlet.r,junction3.outlet.state.T,junction3.outlet.state.p,junction3.pA,junction3.pB,junction3.p_mix,junction3.rA,junction3.rA2,junction3.rB,junction3.rB2,junction3.r_mix,junction3.relTol_dp_AB,junction3.stateA.T,junction3.stateA.p,junction3.stateB.T,junction3.stateB.p,junction3.wA,junction3.wB,junction4.L,junction4.assertionLevel,junction4.dp_AB_rel,junction4.free,junction4.hA,junction4.hB,junction4.h_mix,junction4.inletA.m_flow,junction4.inletA.r,junction4.inletA.state.T,junction4.inletA.state.p,junction4.inletB.m_flow,junction4.inletB.r,junction4.inletB.state.T,junction4.inletB.state.p,junction4.isDPWithinTol,junction4.m_flowA,junction4.m_flowA_reg,junction4.m_flowB,junction4.m_flowB_reg,junction4.m_flow_eps,junction4.outlet.m_flow,junction4.outlet.r,junction4.outlet.state.T,junction4.outlet.state.p,junction4.pA,junction4.pB,junction4.p_mix,junction4.rA,junction4.rA2,junction4.rB,junction4.rB2,junction4.r_mix,junction4.relTol_dp_AB,junction4.stateA.T,junction4.stateA.p,junction4.stateB.T,junction4.stateB.p,junction4.wA,junction4.wB,massFlowRateA.L,massFlowRateA.clip_p_out,massFlowRateA.dp,massFlowRateA.dr_corr,massFlowRateA.h_in,massFlowRateA.h_out,massFlowRateA.initM_flow,massFlowRateA.inlet.m_flow,massFlowRateA.inlet.r,massFlowRateA.inlet.state.T,massFlowRateA.inlet.state.p,massFlowRateA.m_acceleration_0,massFlowRateA.m_flow,massFlowRateA.m_flowSpec,massFlowRateA.m_flowStateSelect,massFlowRateA.m_flow_0,massFlowRateA.m_flow_actual,massFlowRateA.m_flow_fixed,massFlowRateA.outlet.m_flow,massFlowRateA.outlet.r,massFlowRateA.outlet.state.T,massFlowRateA.outlet.state.p,massFlowRateA.p_in,massFlowRateA.p_min,massFlowRateA.p_out,massFlowRateA1.L,massFlowRateA1.clip_p_out,massFlowRateA1.dp,massFlowRateA1.dr_corr,massFlowRateA1.h_in,massFlowRateA1.h_out,massFlowRateA1.initM_flow,massFlowRateA1.inlet.m_flow,massFlowRateA1.inlet.r,massFlowRateA1.inlet.state.T,massFlowRateA1.inlet.state.p,massFlowRateA1.m_acceleration_0,massFlowRateA1.m_flow,massFlowRateA1.m_flowSpec,massFlowRateA1.m_flowStateSelect,massFlowRateA1.m_flow_0,massFlowRateA1.m_flow_actual,massFlowRateA1.m_flow_fixed,massFlowRateA1.outlet.m_flow,massFlowRateA1.outlet.r,massFlowRateA1.outlet.state.T,massFlowRateA1.outlet.state.p,massFlowRateA1.p_in,massFlowRateA1.p_min,massFlowRateA1.p_out,massFlowRateA2.L,massFlowRateA2.clip_p_out,massFlowRateA2.dp,massFlowRateA2.dr_corr,massFlowRateA2.h_in,massFlowRateA2.h_out,massFlowRateA2.initM_flow,massFlowRateA2.inlet.m_flow,massFlowRateA2.inlet.r,massFlowRateA2.inlet.state.T,massFlowRateA2.inlet.state.p,massFlowRateA2.m_acceleration_0,massFlowRateA2.m_flow,massFlowRateA2.m_flowSpec,massFlowRateA2.m_flowStateSelect,massFlowRateA2.m_flow_0,massFlowRateA2.m_flow_actual,massFlowRateA2.m_flow_fixed,massFlowRateA2.outlet.m_flow,massFlowRateA2.outlet.r,massFlowRateA2.outlet.state.T,massFlowRateA2.outlet.state.p,massFlowRateA2.p_in,massFlowRateA2.p_min,massFlowRateA2.p_out,massFlowRateA4.L,massFlowRateA4.clip_p_out,massFlowRateA4.dp,massFlowRateA4.dr_corr,massFlowRateA4.h_in,massFlowRateA4.h_out,massFlowRateA4.initM_flow,massFlowRateA4.inlet.m_flow,massFlowRateA4.inlet.r,massFlowRateA4.inlet.state.T,massFlowRateA4.inlet.state.p,massFlowRateA4.m_acceleration_0,massFlowRateA4.m_flow,massFlowRateA4.m_flowSpec,massFlowRateA4.m_flowStateSelect,massFlowRateA4.m_flow_0,massFlowRateA4.m_flow_actual,massFlowRateA4.m_flow_fixed,massFlowRateA4.outlet.m_flow,massFlowRateA4.outlet.r,massFlowRateA4.outlet.state.T,massFlowRateA4.outlet.state.p,massFlowRateA4.p_in,massFlowRateA4.p_min,massFlowRateA4.p_out,massFlowRateB.L,massFlowRateB.clip_p_out,massFlowRateB.dp,massFlowRateB.dr_corr,massFlowRateB.h_in,massFlowRateB.h_out,massFlowRateB.initM_flow,massFlowRateB.inlet.m_flow,massFlowRateB.inlet.r,massFlowRateB.inlet.state.T,massFlowRateB.inlet.state.p,massFlowRateB.m_acceleration_0,massFlowRateB.m_flow,massFlowRateB.m_flowSpec,massFlowRateB.m_flowStateSelect,massFlowRateB.m_flow_0,massFlowRateB.m_flow_actual,massFlowRateB.m_flow_fixed,massFlowRateB.outlet.m_flow,massFlowRateB.outlet.r,massFlowRateB.outlet.state.T,massFlowRateB.outlet.state.p,massFlowRateB.p_in,massFlowRateB.p_min,massFlowRateB.p_out,massFlowRateB1.L,massFlowRateB1.clip_p_out,massFlowRateB1.dp,massFlowRateB1.dr_corr,massFlowRateB1.h_in,massFlowRateB1.h_out,massFlowRateB1.initM_flow,massFlowRateB1.inlet.m_flow,massFlowRateB1.inlet.r,massFlowRateB1.inlet.state.T,massFlowRateB1.inlet.state.p,massFlowRateB1.m_acceleration_0,massFlowRateB1.m_flow,massFlowRateB1.m_flowSpec,massFlowRateB1.m_flowStateSelect,massFlowRateB1.m_flow_0,massFlowRateB1.m_flow_actual,massFlowRateB1.m_flow_fixed,massFlowRateB1.outlet.m_flow,massFlowRateB1.outlet.r,massFlowRateB1.outlet.state.T,massFlowRateB1.outlet.state.p,massFlowRateB1.p_in,massFlowRateB1.p_min,massFlowRateB1.p_out,massFlowRateB2.L,massFlowRateB2.clip_p_out,massFlowRateB2.dp,massFlowRateB2.dr_corr,massFlowRateB2.h_in,massFlowRateB2.h_out,massFlowRateB2.initM_flow,massFlowRateB2.inlet.m_flow,massFlowRateB2.inlet.r,massFlowRateB2.inlet.state.T,massFlowRateB2.inlet.state.p,massFlowRateB2.m_acceleration_0,massFlowRateB2.m_flow,massFlowRateB2.m_flowSpec,massFlowRateB2.m_flowStateSelect,massFlowRateB2.m_flow_0,massFlowRateB2.m_flow_actual,massFlowRateB2.m_flow_fixed,massFlowRateB2.outlet.m_flow,massFlowRateB2.outlet.r,massFlowRateB2.outlet.state.T,massFlowRateB2.outlet.state.p,massFlowRateB2.p_in,massFlowRateB2.p_min,massFlowRateB2.p_out,massFlowRateB3.L,massFlowRateB3.clip_p_out,massFlowRateB3.dp,massFlowRateB3.dr_corr,massFlowRateB3.h_in,massFlowRateB3.h_out,massFlowRateB3.initM_flow,massFlowRateB3.inlet.m_flow,massFlowRateB3.inlet.r,massFlowRateB3.inlet.state.T,massFlowRateB3.inlet.state.p,massFlowRateB3.m_acceleration_0,massFlowRateB3.m_flow,massFlowRateB3.m_flowSpec,massFlowRateB3.m_flowStateSelect,massFlowRateB3.m_flow_0,massFlowRateB3.m_flow_actual,massFlowRateB3.m_flow_fixed,massFlowRateB3.outlet.m_flow,massFlowRateB3.outlet.r,massFlowRateB3.outlet.state.T,massFlowRateB3.outlet.state.p,massFlowRateB3.p_in,massFlowRateB3.p_min,massFlowRateB3.p_out,sink.L,sink.inlet.m_flow,sink.inlet.r,sink.inlet.state.T,sink.inlet.state.p,sink.p,sink.p0,sink.p0_par,sink.r,sink1.L,sink1.inlet.m_flow,sink1.inlet.r,sink1.inlet.state.T,sink1.inlet.state.p,sink1.p,sink1.p0,sink1.p0_par,sink1.r,sink2.L,sink2.inlet.m_flow,sink2.inlet.r,sink2.inlet.state.T,sink2.inlet.state.p,sink2.r,sink3.L,sink3.inlet.m_flow,sink3.inlet.r,sink3.inlet.state.T,sink3.inlet.state.p,sink3.r,sink4.L,sink4.inlet.m_flow,sink4.inlet.r,sink4.inlet.state.T,sink4.inlet.state.p,sourceA.L,sourceA.T0,sourceA.T0_par,sourceA.h0,sourceA.h0_par,sourceA.outlet.m_flow,sourceA.outlet.r,sourceA.outlet.state.T,sourceA.outlet.state.p,sourceA.p0,sourceA.p0_par,sourceA1.L,sourceA1.T0,sourceA1.T0_par,sourceA1.h0,sourceA1.h0_par,sourceA1.outlet.m_flow,sourceA1.outlet.r,sourceA1.outlet.state.T,sourceA1.outlet.state.p,sourceA1.p0,sourceA1.p0_par,sourceA2.L,sourceA2.T0,sourceA2.T0_par,sourceA2.h0,sourceA2.h0_par,sourceA2.outlet.m_flow,sourceA2.outlet.r,sourceA2.outlet.state.T,sourceA2.outlet.state.p,sourceA2.p0,sourceA2.p0_par,sourceA3.L,sourceA3.T0,sourceA3.T0_par,sourceA3.h0,sourceA3.h0_par,sourceA3.outlet.m_flow,sourceA3.outlet.r,sourceA3.outlet.state.T,sourceA3.outlet.state.p,sourceA3.p0,sourceA3.p0_par,sourceA4.L,sourceA4.T0,sourceA4.T0_par,sourceA4.h0,sourceA4.h0_par,sourceA4.outlet.m_flow,sourceA4.outlet.r,sourceA4.outlet.state.T,sourceA4.outlet.state.p,sourceA4.p0,sourceA4.p0_par,sourceB.L,sourceB.T0,sourceB.T0_par,sourceB.h0,sourceB.h0_par,sourceB.outlet.m_flow,sourceB.outlet.r,sourceB.outlet.state.T,sourceB.outlet.state.p,sourceB.p0,sourceB.p0_par,sourceB1.L,sourceB1.T0,sourceB1.T0_par,sourceB1.h0,sourceB1.h0_par,sourceB1.outlet.m_flow,sourceB1.outlet.r,sourceB1.outlet.state.T,sourceB1.outlet.state.p,sourceB1.p0,sourceB1.p0_par,sourceB2.L,sourceB2.T0,sourceB2.T0_par,sourceB2.h0,sourceB2.h0_par,sourceB2.outlet.m_flow,sourceB2.outlet.r,sourceB2.outlet.state.T,sourceB2.outlet.state.p,sourceB2.p0,sourceB2.p0_par,sourceB3.L,sourceB3.T0,sourceB3.T0_par,sourceB3.h0,sourceB3.h0_par,sourceB3.outlet.m_flow,sourceB3.outlet.r,sourceB3.outlet.state.T,sourceB3.outlet.state.p,sourceB3.p0,sourceB3.p0_par,sourceB4.L,sourceB4.T0,sourceB4.T0_par,sourceB4.h0,sourceB4.h0_par,sourceB4.outlet.m_flow,sourceB4.outlet.r,sourceB4.outlet.state.T,sourceB4.outlet.state.p,sourceB4.p0,sourceB4.p0_par,time
[Calling sys.exit(0), Time elapsed: 5.233863235451281]