Running: ./testmodel.py --libraries=/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/ --ompython_omhome=/usr ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.conf.json
loadFile("/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo", uses=false)
loadFile("/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo", uses=false)
loadFile("/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false)
loadFile("/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/ThermofluidStream 0.4.0-OM_adaptions/package.mo", uses=false)
Using package ThermofluidStream with version 0.4.0 (/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/ThermofluidStream 0.4.0-OM_adaptions/package.mo)
Using package ModelicaServices with version 4.0.0 (/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo)
Using package Modelica with version 4.0.0 (/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo)
Using package Complex with version 4.0.0 (/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo)
Running command: translateModel(ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir,tolerance=1e-06,outputFormat="mat",numberOfIntervals=2000,variableFilter="PI.x|PI1.x|PI2.x|PI3.x|PI4.x|PI5.x|Time|boundary_fore1.rear.m_flow|boundary_rear.fore.m_flow|condenser.thermalElementA.10..h|condenser.thermalElementA.1..h|condenser.thermalElementA.2..h|condenser.thermalElementA.3..h|condenser.thermalElementA.4..h|condenser.thermalElementA.5..h|condenser.thermalElementA.6..h|condenser.thermalElementA.7..h|condenser.thermalElementA.8..h|condenser.thermalElementA.9..h|condenser.thermalElementB.10..h|condenser.thermalElementB.1..h|condenser.thermalElementB.2..h|condenser.thermalElementB.3..h|condenser.thermalElementB.4..h|condenser.thermalElementB.5..h|condenser.thermalElementB.6..h|condenser.thermalElementB.7..h|condenser.thermalElementB.8..h|condenser.thermalElementB.9..h|discretizedHEXUndir.thermalElementA.10..h|discretizedHEXUndir.thermalElementA.1..h|discretizedHEXUndir.thermalElementA.2..h|discretizedHEXUndir.thermalElementA.3..h|discretizedHEXUndir.thermalElementA.4..h|discretizedHEXUndir.thermalElementA.5..h|discretizedHEXUndir.thermalElementA.6..h|discretizedHEXUndir.thermalElementA.7..h|discretizedHEXUndir.thermalElementA.8..h|discretizedHEXUndir.thermalElementA.9..h|discretizedHEXUndir.thermalElementB.10..h|discretizedHEXUndir.thermalElementB.1..h|discretizedHEXUndir.thermalElementB.2..h|discretizedHEXUndir.thermalElementB.3..h|discretizedHEXUndir.thermalElementB.4..h|discretizedHEXUndir.thermalElementB.5..h|discretizedHEXUndir.thermalElementB.6..h|discretizedHEXUndir.thermalElementB.7..h|discretizedHEXUndir.thermalElementB.8..h|discretizedHEXUndir.thermalElementB.9..h|evaporator.thermalElementA.10..h|evaporator.thermalElementA.1..h|evaporator.thermalElementA.2..h|evaporator.thermalElementA.3..h|evaporator.thermalElementA.4..h|evaporator.thermalElementA.5..h|evaporator.thermalElementA.6..h|evaporator.thermalElementA.7..h|evaporator.thermalElementA.8..h|evaporator.thermalElementA.9..h|evaporator.thermalElementB.10..h|evaporator.thermalElementB.1..h|evaporator.thermalElementB.2..h|evaporator.thermalElementB.3..h|evaporator.thermalElementB.4..h|evaporator.thermalElementB.5..h|evaporator.thermalElementB.6..h|evaporator.thermalElementB.7..h|evaporator.thermalElementB.8..h|evaporator.thermalElementB.9..h|sourceA.outlet.m_flow|sourceA1.outlet.m_flow|sourceB.outlet.m_flow|sourceB1.outlet.m_flow",fileNamePrefix="ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir")
translateModel(ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir,tolerance=1e-06,outputFormat="mat",numberOfIntervals=2000,variableFilter="PI.x|PI1.x|PI2.x|PI3.x|PI4.x|PI5.x|Time|boundary_fore1.rear.m_flow|boundary_rear.fore.m_flow|condenser.thermalElementA.10..h|condenser.thermalElementA.1..h|condenser.thermalElementA.2..h|condenser.thermalElementA.3..h|condenser.thermalElementA.4..h|condenser.thermalElementA.5..h|condenser.thermalElementA.6..h|condenser.thermalElementA.7..h|condenser.thermalElementA.8..h|condenser.thermalElementA.9..h|condenser.thermalElementB.10..h|condenser.thermalElementB.1..h|condenser.thermalElementB.2..h|condenser.thermalElementB.3..h|condenser.thermalElementB.4..h|condenser.thermalElementB.5..h|condenser.thermalElementB.6..h|condenser.thermalElementB.7..h|condenser.thermalElementB.8..h|condenser.thermalElementB.9..h|discretizedHEXUndir.thermalElementA.10..h|discretizedHEXUndir.thermalElementA.1..h|discretizedHEXUndir.thermalElementA.2..h|discretizedHEXUndir.thermalElementA.3..h|discretizedHEXUndir.thermalElementA.4..h|discretizedHEXUndir.thermalElementA.5..h|discretizedHEXUndir.thermalElementA.6..h|discretizedHEXUndir.thermalElementA.7..h|discretizedHEXUndir.thermalElementA.8..h|discretizedHEXUndir.thermalElementA.9..h|discretizedHEXUndir.thermalElementB.10..h|discretizedHEXUndir.thermalElementB.1..h|discretizedHEXUndir.thermalElementB.2..h|discretizedHEXUndir.thermalElementB.3..h|discretizedHEXUndir.thermalElementB.4..h|discretizedHEXUndir.thermalElementB.5..h|discretizedHEXUndir.thermalElementB.6..h|discretizedHEXUndir.thermalElementB.7..h|discretizedHEXUndir.thermalElementB.8..h|discretizedHEXUndir.thermalElementB.9..h|evaporator.thermalElementA.10..h|evaporator.thermalElementA.1..h|evaporator.thermalElementA.2..h|evaporator.thermalElementA.3..h|evaporator.thermalElementA.4..h|evaporator.thermalElementA.5..h|evaporator.thermalElementA.6..h|evaporator.thermalElementA.7..h|evaporator.thermalElementA.8..h|evaporator.thermalElementA.9..h|evaporator.thermalElementB.10..h|evaporator.thermalElementB.1..h|evaporator.thermalElementB.2..h|evaporator.thermalElementB.3..h|evaporator.thermalElementB.4..h|evaporator.thermalElementB.5..h|evaporator.thermalElementB.6..h|evaporator.thermalElementB.7..h|evaporator.thermalElementB.8..h|evaporator.thermalElementB.9..h|sourceA.outlet.m_flow|sourceA1.outlet.m_flow|sourceB.outlet.m_flow|sourceB1.outlet.m_flow",fileNamePrefix="ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir")
Notification: Performance of loadFile(/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.0008767/0.0008768, allocations: 174.7 kB / 15.43 MB, free: 6.203 MB / 13.93 MB
Notification: Performance of loadFile(/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo): time 1.181/1.181, allocations: 225.7 MB / 241.9 MB, free: 392 kB / 186.7 MB
Notification: Performance of loadFile(/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.0007492/0.000749, allocations: 88.48 kB / 293.1 MB, free: 12.9 MB / 234.7 MB
Notification: Performance of loadFile(/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/converted-libraries/.openmodelica/libraries/ThermofluidStream 0.4.0-OM_adaptions/package.mo): time 0.6047/0.6047, allocations: 90.99 MB / 435.2 MB, free: 24.42 MB / 330.7 MB
Warning: Ignoring unknown experiment annotation option: __Dymola_Algorithm = "Dassl"
Notification: Performance of FrontEnd - loaded program: time 0.0002665/0.0002669, allocations: 8 kB / 0.503 GB, free: 9.387 MB / 394.7 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 0.2655/0.2657, allocations: 69.1 MB / 0.5704 GB, free: 45.65 MB / 442.7 MB
Notification: Performance of NFInst.instantiate(ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir): time 0.5848/0.8506, allocations: 417.3 MB / 0.978 GB, free: 1.789 MB / 0.6355 GB
Notification: Performance of NFInst.instExpressions: time 0.4927/1.343, allocations: 240.4 MB / 1.213 GB, free: 7.52 MB / 0.698 GB
Notification: Performance of NFInst.updateImplicitVariability: time 0.00498/1.348, allocations: 81.72 kB / 1.213 GB, free: 7.469 MB / 0.698 GB
Notification: Performance of NFTyping.typeComponents: time 0.008431/1.357, allocations: 2.93 MB / 1.216 GB, free: 5.605 MB / 0.698 GB
Notification: Performance of NFTyping.typeBindings: time 0.03023/1.387, allocations: 9.999 MB / 1.226 GB, free: 13.39 MB / 0.7136 GB
Notification: Performance of NFTyping.typeClassSections: time 0.04887/1.436, allocations: 16.15 MB / 1.241 GB, free: 15.37 MB / 0.7292 GB
Notification: Performance of NFFlatten.flatten: time 0.02661/1.463, allocations: 30.1 MB / 1.271 GB, free: 1.688 MB / 0.7448 GB
Notification: Performance of NFFlatten.resolveConnections: time 0.00743/1.47, allocations: 6.031 MB / 1.277 GB, free: 11.66 MB / 0.7605 GB
Notification: Performance of NFEvalConstants.evaluate: time 0.01472/1.485, allocations: 8.748 MB / 1.285 GB, free: 3.262 MB / 0.7605 GB
Notification: Performance of NFSimplifyModel.simplify: time 0.01256/1.497, allocations: 8.634 MB / 1.294 GB, free: 11.08 MB / 0.7761 GB
Notification: Performance of NFPackage.collectConstants: time 0.002948/1.5, allocations: 0.6132 MB / 1.294 GB, free: 10.46 MB / 0.7761 GB
Notification: Performance of NFFlatten.collectFunctions: time 0.9059/2.406, allocations: 169.9 MB / 1.46 GB, free: 21.22 MB / 0.7918 GB
Notification: Performance of NFScalarize.scalarize: time 0.004429/2.411, allocations: 2.461 MB / 1.462 GB, free: 20.28 MB / 0.7918 GB
Notification: Performance of NFVerifyModel.verify: time 0.01348/2.424, allocations: 7.796 MB / 1.47 GB, free: 16.26 MB / 0.7918 GB
Notification: Performance of NFConvertDAE.convert: time 0.3275/2.752, allocations: 138.7 MB / 1.605 GB, free: 12.79 MB / 0.9168 GB
Notification: Performance of FrontEnd - DAE generated: time 7.344e-06/2.752, allocations: 1.031 kB / 1.605 GB, free: 12.79 MB / 0.9168 GB
Notification: Performance of FrontEnd: time 2.715e-06/2.752, allocations: 1.406 kB / 1.605 GB, free: 12.79 MB / 0.9168 GB
Notification: Performance of Transformations before backend: time 0.0007424/2.753, allocations: 0 / 1.605 GB, free: 12.79 MB / 0.9168 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 3501
 * Number of variables: 3501
Notification: Performance of Generate backend data structure: time 0.07542/2.828, allocations: 20.78 MB / 1.626 GB, free: 9.441 MB / 0.9324 GB
Notification: Performance of prepare preOptimizeDAE: time 3.961e-05/2.828, allocations: 11.98 kB / 1.626 GB, free: 9.43 MB / 0.9324 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.01947/2.848, allocations: 3.345 MB / 1.629 GB, free: 6.621 MB / 0.9324 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.01577/2.863, allocations: 7.496 MB / 1.636 GB, free: 1.27 MB / 0.9324 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.001155/2.865, allocations: 0.9707 MB / 1.637 GB, free: 0.7109 MB / 0.9324 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.005073/2.87, allocations: 1.258 MB / 1.639 GB, free: 15.86 MB / 0.948 GB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.3004/3.17, allocations: 21.01 MB / 1.659 GB, free: 446.3 MB / 0.948 GB
Notification: Performance of preOpt findStateOrder (simulation): time 0.0002377/3.17, allocations: 14.19 kB / 1.659 GB, free: 446.3 MB / 0.948 GB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.001762/3.172, allocations: 0.4959 MB / 1.66 GB, free: 446.3 MB / 0.948 GB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 0.0002662/3.172, allocations: 441 kB / 1.66 GB, free: 446.3 MB / 0.948 GB
Notification: Performance of preOpt removeEqualRHS (simulation): time 0.0422/3.215, allocations: 21.63 MB / 1.681 GB, free: 441.8 MB / 0.948 GB
Warning: The model contains alias variables with redundant start and/or conflicting nominal values. It is recommended to resolve the conflicts, because otherwise the system could be hard to solve. To print the conflicting alias sets and the chosen candidates please use -d=aliasConflicts.
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.09748/3.312, allocations: 87.57 MB / 1.767 GB, free: 373.9 MB / 0.948 GB
Notification: Performance of preOpt comSubExp (simulation): time 0.02724/3.339, allocations: 16.51 MB / 1.783 GB, free: 359.6 MB / 0.948 GB
Notification: Performance of preOpt resolveLoops (simulation): time 0.01668/3.356, allocations: 10.19 MB / 1.793 GB, free: 349.4 MB / 0.948 GB
Notification: Performance of preOpt evalFunc (simulation): time 0.01799/3.374, allocations: 35.48 MB / 1.827 GB, free: 306.9 MB / 0.948 GB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.0001911/3.374, allocations: 155.1 kB / 1.827 GB, free: 306.7 MB / 0.948 GB
Notification: Performance of pre-optimization done (n=1416): time 2.79e-05/3.374, allocations: 0 / 1.827 GB, free: 306.7 MB / 0.948 GB
Notification: Performance of matching and sorting (n=1416): time 0.06567/3.44, allocations: 35.81 MB / 1.862 GB, free: 270.4 MB / 0.948 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 0.0001085/3.44, allocations: 373.6 kB / 1.863 GB, free: 269.9 MB / 0.948 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.01022/3.45, allocations: 7.348 MB / 1.87 GB, free: 262.6 MB / 0.948 GB
Notification: Performance of collectPreVariables (initialization): time 0.002495/3.453, allocations: 217.7 kB / 1.87 GB, free: 262.4 MB / 0.948 GB
Notification: Performance of collectInitialEqns (initialization): time 0.002932/3.456, allocations: 5.362 MB / 1.875 GB, free: 257 MB / 0.948 GB
Notification: Performance of collectInitialBindings (initialization): time 0.0055/3.461, allocations: 4.684 MB / 1.88 GB, free: 252.3 MB / 0.948 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.002082/3.463, allocations: 236 kB / 1.88 GB, free: 252.1 MB / 0.948 GB
Notification: Performance of setup shared object (initialization): time 0.0008591/3.464, allocations: 0.865 MB / 1.881 GB, free: 251.2 MB / 0.948 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.01574/3.48, allocations: 9.247 MB / 1.89 GB, free: 242 MB / 0.948 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.01712/3.497, allocations: 11.62 MB / 1.901 GB, free: 229.6 MB / 0.948 GB
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[10].deltaE_system = $START.condenser.thermalElementA[10].deltaE_system (0.0 = $START.condenser.thermalElementA[10].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[9].deltaE_system = $START.condenser.thermalElementA[9].deltaE_system (0.0 = $START.condenser.thermalElementA[9].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[8].deltaE_system = $START.condenser.thermalElementA[8].deltaE_system (0.0 = $START.condenser.thermalElementA[8].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[7].deltaE_system = $START.condenser.thermalElementA[7].deltaE_system (0.0 = $START.condenser.thermalElementA[7].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[6].deltaE_system = $START.condenser.thermalElementA[6].deltaE_system (0.0 = $START.condenser.thermalElementA[6].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[5].deltaE_system = $START.condenser.thermalElementA[5].deltaE_system (0.0 = $START.condenser.thermalElementA[5].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[4].deltaE_system = $START.condenser.thermalElementA[4].deltaE_system (0.0 = $START.condenser.thermalElementA[4].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[3].deltaE_system = $START.condenser.thermalElementA[3].deltaE_system (0.0 = $START.condenser.thermalElementA[3].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[2].deltaE_system = $START.condenser.thermalElementA[2].deltaE_system (0.0 = $START.condenser.thermalElementA[2].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementA[1].deltaE_system = $START.condenser.thermalElementA[1].deltaE_system (0.0 = $START.condenser.thermalElementA[1].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[10].deltaE_system = $START.condenser.thermalElementB[10].deltaE_system (0.0 = $START.condenser.thermalElementB[10].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[9].deltaE_system = $START.condenser.thermalElementB[9].deltaE_system (0.0 = $START.condenser.thermalElementB[9].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[8].deltaE_system = $START.condenser.thermalElementB[8].deltaE_system (0.0 = $START.condenser.thermalElementB[8].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[7].deltaE_system = $START.condenser.thermalElementB[7].deltaE_system (0.0 = $START.condenser.thermalElementB[7].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[6].deltaE_system = $START.condenser.thermalElementB[6].deltaE_system (0.0 = $START.condenser.thermalElementB[6].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[5].deltaE_system = $START.condenser.thermalElementB[5].deltaE_system (0.0 = $START.condenser.thermalElementB[5].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[4].deltaE_system = $START.condenser.thermalElementB[4].deltaE_system (0.0 = $START.condenser.thermalElementB[4].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[3].deltaE_system = $START.condenser.thermalElementB[3].deltaE_system (0.0 = $START.condenser.thermalElementB[3].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[2].deltaE_system = $START.condenser.thermalElementB[2].deltaE_system (0.0 = $START.condenser.thermalElementB[2].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser.thermalElementB[1].deltaE_system = $START.condenser.thermalElementB[1].deltaE_system (0.0 = $START.condenser.thermalElementB[1].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[10].deltaE_system = $START.evaporator.thermalElementA[10].deltaE_system (0.0 = $START.evaporator.thermalElementA[10].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[9].deltaE_system = $START.evaporator.thermalElementA[9].deltaE_system (0.0 = $START.evaporator.thermalElementA[9].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[8].deltaE_system = $START.evaporator.thermalElementA[8].deltaE_system (0.0 = $START.evaporator.thermalElementA[8].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[7].deltaE_system = $START.evaporator.thermalElementA[7].deltaE_system (0.0 = $START.evaporator.thermalElementA[7].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[6].deltaE_system = $START.evaporator.thermalElementA[6].deltaE_system (0.0 = $START.evaporator.thermalElementA[6].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[5].deltaE_system = $START.evaporator.thermalElementA[5].deltaE_system (0.0 = $START.evaporator.thermalElementA[5].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[4].deltaE_system = $START.evaporator.thermalElementA[4].deltaE_system (0.0 = $START.evaporator.thermalElementA[4].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[3].deltaE_system = $START.evaporator.thermalElementA[3].deltaE_system (0.0 = $START.evaporator.thermalElementA[3].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[2].deltaE_system = $START.evaporator.thermalElementA[2].deltaE_system (0.0 = $START.evaporator.thermalElementA[2].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementA[1].deltaE_system = $START.evaporator.thermalElementA[1].deltaE_system (0.0 = $START.evaporator.thermalElementA[1].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[10].deltaE_system = $START.evaporator.thermalElementB[10].deltaE_system (0.0 = $START.evaporator.thermalElementB[10].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[9].deltaE_system = $START.evaporator.thermalElementB[9].deltaE_system (0.0 = $START.evaporator.thermalElementB[9].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[8].deltaE_system = $START.evaporator.thermalElementB[8].deltaE_system (0.0 = $START.evaporator.thermalElementB[8].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[7].deltaE_system = $START.evaporator.thermalElementB[7].deltaE_system (0.0 = $START.evaporator.thermalElementB[7].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[6].deltaE_system = $START.evaporator.thermalElementB[6].deltaE_system (0.0 = $START.evaporator.thermalElementB[6].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[5].deltaE_system = $START.evaporator.thermalElementB[5].deltaE_system (0.0 = $START.evaporator.thermalElementB[5].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[4].deltaE_system = $START.evaporator.thermalElementB[4].deltaE_system (0.0 = $START.evaporator.thermalElementB[4].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[3].deltaE_system = $START.evaporator.thermalElementB[3].deltaE_system (0.0 = $START.evaporator.thermalElementB[3].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[2].deltaE_system = $START.evaporator.thermalElementB[2].deltaE_system (0.0 = $START.evaporator.thermalElementB[2].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: evaporator.thermalElementB[1].deltaE_system = $START.evaporator.thermalElementB[1].deltaE_system (0.0 = $START.evaporator.thermalElementB[1].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[10].deltaE_system = $START.discretizedHEXUndir.thermalElementA[10].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[10].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[9].deltaE_system = $START.discretizedHEXUndir.thermalElementA[9].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[9].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[8].deltaE_system = $START.discretizedHEXUndir.thermalElementA[8].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[8].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[7].deltaE_system = $START.discretizedHEXUndir.thermalElementA[7].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[7].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[6].deltaE_system = $START.discretizedHEXUndir.thermalElementA[6].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[6].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[5].deltaE_system = $START.discretizedHEXUndir.thermalElementA[5].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[5].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[4].deltaE_system = $START.discretizedHEXUndir.thermalElementA[4].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[4].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[3].deltaE_system = $START.discretizedHEXUndir.thermalElementA[3].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[3].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[2].deltaE_system = $START.discretizedHEXUndir.thermalElementA[2].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[2].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementA[1].deltaE_system = $START.discretizedHEXUndir.thermalElementA[1].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementA[1].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[10].deltaE_system = $START.discretizedHEXUndir.thermalElementB[10].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[10].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[9].deltaE_system = $START.discretizedHEXUndir.thermalElementB[9].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[9].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[8].deltaE_system = $START.discretizedHEXUndir.thermalElementB[8].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[8].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[7].deltaE_system = $START.discretizedHEXUndir.thermalElementB[7].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[7].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[6].deltaE_system = $START.discretizedHEXUndir.thermalElementB[6].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[6].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[5].deltaE_system = $START.discretizedHEXUndir.thermalElementB[5].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[5].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[4].deltaE_system = $START.discretizedHEXUndir.thermalElementB[4].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[4].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[3].deltaE_system = $START.discretizedHEXUndir.thermalElementB[3].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[3].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[2].deltaE_system = $START.discretizedHEXUndir.thermalElementB[2].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[2].deltaE_system)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: discretizedHEXUndir.thermalElementB[1].deltaE_system = $START.discretizedHEXUndir.thermalElementB[1].deltaE_system (0.0 = $START.discretizedHEXUndir.thermalElementB[1].deltaE_system)
Notification: Performance of analyzeInitialSystem (initialization): time 0.03605/3.533, allocations: 27.02 MB / 1.928 GB, free: 200.7 MB / 0.948 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 7.059e-05/3.533, allocations: 16 kB / 1.928 GB, free: 200.7 MB / 0.948 GB
Notification: Performance of matching and sorting (n=1773) (initialization): time 0.05107/3.584, allocations: 25.09 MB / 1.952 GB, free: 175.5 MB / 0.948 GB
Notification: Performance of prepare postOptimizeDAE: time 0.0007593/3.585, allocations: 1.841 MB / 1.954 GB, free: 172.8 MB / 0.948 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 9.556e-05/3.585, allocations: 56 kB / 1.954 GB, free: 172.8 MB / 0.948 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.005053/3.59, allocations: 2.632 MB / 1.957 GB, free: 170.1 MB / 0.948 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.01194/3.602, allocations: 3.55 MB / 1.96 GB, free: 166.5 MB / 0.948 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.03669/3.639, allocations: 62.81 MB / 2.022 GB, free: 99.02 MB / 0.948 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.01312/3.652, allocations: 2.273 MB / 2.024 GB, free: 96.73 MB / 0.948 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.003933/3.656, allocations: 1.132 MB / 2.025 GB, free: 95.6 MB / 0.948 GB
Notification: Performance of prepare postOptimizeDAE: time 1.124e-05/3.656, allocations: 4 kB / 2.025 GB, free: 95.59 MB / 0.948 GB
Notification: Performance of postOpt replaceHomotopyWithSimplified (initialization): time 0.05107/3.707, allocations: 24.03 MB / 2.048 GB, free: 71.45 MB / 0.948 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.0001853/3.708, allocations: 56 kB / 2.048 GB, free: 71.39 MB / 0.948 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.005235/3.713, allocations: 2.625 MB / 2.051 GB, free: 68.67 MB / 0.948 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.01221/3.725, allocations: 3.511 MB / 2.054 GB, free: 65.15 MB / 0.948 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.3149/4.04, allocations: 62.81 MB / 2.116 GB, free: 390.7 MB / 0.948 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.01253/4.053, allocations: 2.117 MB / 2.118 GB, free: 390.7 MB / 0.948 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.002941/4.055, allocations: 1.134 MB / 2.119 GB, free: 390.7 MB / 0.948 GB
Warning: The initial conditions are over specified. The following 60 initial equations are redundant, so they are removed from the initialization sytem:
         condenser.thermalElementA[10].deltaE_system = $START.condenser.thermalElementA[10].deltaE_system
         condenser.thermalElementA[9].deltaE_system = $START.condenser.thermalElementA[9].deltaE_system
         condenser.thermalElementA[8].deltaE_system = $START.condenser.thermalElementA[8].deltaE_system
         condenser.thermalElementA[7].deltaE_system = $START.condenser.thermalElementA[7].deltaE_system
         condenser.thermalElementA[6].deltaE_system = $START.condenser.thermalElementA[6].deltaE_system
         condenser.thermalElementA[5].deltaE_system = $START.condenser.thermalElementA[5].deltaE_system
         condenser.thermalElementA[4].deltaE_system = $START.condenser.thermalElementA[4].deltaE_system
         condenser.thermalElementA[3].deltaE_system = $START.condenser.thermalElementA[3].deltaE_system
         condenser.thermalElementA[2].deltaE_system = $START.condenser.thermalElementA[2].deltaE_system
         condenser.thermalElementA[1].deltaE_system = $START.condenser.thermalElementA[1].deltaE_system
         condenser.thermalElementB[10].deltaE_system = $START.condenser.thermalElementB[10].deltaE_system
         condenser.thermalElementB[9].deltaE_system = $START.condenser.thermalElementB[9].deltaE_system
         condenser.thermalElementB[8].deltaE_system = $START.condenser.thermalElementB[8].deltaE_system
         condenser.thermalElementB[7].deltaE_system = $START.condenser.thermalElementB[7].deltaE_system
         condenser.thermalElementB[6].deltaE_system = $START.condenser.thermalElementB[6].deltaE_system
         condenser.thermalElementB[5].deltaE_system = $START.condenser.thermalElementB[5].deltaE_system
         condenser.thermalElementB[4].deltaE_system = $START.condenser.thermalElementB[4].deltaE_system
         condenser.thermalElementB[3].deltaE_system = $START.condenser.thermalElementB[3].deltaE_system
         condenser.thermalElementB[2].deltaE_system = $START.condenser.thermalElementB[2].deltaE_system
         condenser.thermalElementB[1].deltaE_system = $START.condenser.thermalElementB[1].deltaE_system
         evaporator.thermalElementA[10].deltaE_system = $START.evaporator.thermalElementA[10].deltaE_system
         evaporator.thermalElementA[9].deltaE_system = $START.evaporator.thermalElementA[9].deltaE_system
         evaporator.thermalElementA[8].deltaE_system = $START.evaporator.thermalElementA[8].deltaE_system
         evaporator.thermalElementA[7].deltaE_system = $START.evaporator.thermalElementA[7].deltaE_system
         evaporator.thermalElementA[6].deltaE_system = $START.evaporator.thermalElementA[6].deltaE_system
         evaporator.thermalElementA[5].deltaE_system = $START.evaporator.thermalElementA[5].deltaE_system
         evaporator.thermalElementA[4].deltaE_system = $START.evaporator.thermalElementA[4].deltaE_system
         evaporator.thermalElementA[3].deltaE_system = $START.evaporator.thermalElementA[3].deltaE_system
         evaporator.thermalElementA[2].deltaE_system = $START.evaporator.thermalElementA[2].deltaE_system
         evaporator.thermalElementA[1].deltaE_system = $START.evaporator.thermalElementA[1].deltaE_system
         evaporator.thermalElementB[10].deltaE_system = $START.evaporator.thermalElementB[10].deltaE_system
         evaporator.thermalElementB[9].deltaE_system = $START.evaporator.thermalElementB[9].deltaE_system
         evaporator.thermalElementB[8].deltaE_system = $START.evaporator.thermalElementB[8].deltaE_system
         evaporator.thermalElementB[7].deltaE_system = $START.evaporator.thermalElementB[7].deltaE_system
         evaporator.thermalElementB[6].deltaE_system = $START.evaporator.thermalElementB[6].deltaE_system
         evaporator.thermalElementB[5].deltaE_system = $START.evaporator.thermalElementB[5].deltaE_system
         evaporator.thermalElementB[4].deltaE_system = $START.evaporator.thermalElementB[4].deltaE_system
         evaporator.thermalElementB[3].deltaE_system = $START.evaporator.thermalElementB[3].deltaE_system
         evaporator.thermalElementB[2].deltaE_system = $START.evaporator.thermalElementB[2].deltaE_system
         evaporator.thermalElementB[1].deltaE_system = $START.evaporator.thermalElementB[1].deltaE_system
         discretizedHEXUndir.thermalElementA[10].deltaE_system = $START.discretizedHEXUndir.thermalElementA[10].deltaE_system
         discretizedHEXUndir.thermalElementA[9].deltaE_system = $START.discretizedHEXUndir.thermalElementA[9].deltaE_system
         discretizedHEXUndir.thermalElementA[8].deltaE_system = $START.discretizedHEXUndir.thermalElementA[8].deltaE_system
         discretizedHEXUndir.thermalElementA[7].deltaE_system = $START.discretizedHEXUndir.thermalElementA[7].deltaE_system
         discretizedHEXUndir.thermalElementA[6].deltaE_system = $START.discretizedHEXUndir.thermalElementA[6].deltaE_system
         discretizedHEXUndir.thermalElementA[5].deltaE_system = $START.discretizedHEXUndir.thermalElementA[5].deltaE_system
         discretizedHEXUndir.thermalElementA[4].deltaE_system = $START.discretizedHEXUndir.thermalElementA[4].deltaE_system
         discretizedHEXUndir.thermalElementA[3].deltaE_system = $START.discretizedHEXUndir.thermalElementA[3].deltaE_system
         discretizedHEXUndir.thermalElementA[2].deltaE_system = $START.discretizedHEXUndir.thermalElementA[2].deltaE_system
         discretizedHEXUndir.thermalElementA[1].deltaE_system = $START.discretizedHEXUndir.thermalElementA[1].deltaE_system
         discretizedHEXUndir.thermalElementB[10].deltaE_system = $START.discretizedHEXUndir.thermalElementB[10].deltaE_system
         discretizedHEXUndir.thermalElementB[9].deltaE_system = $START.discretizedHEXUndir.thermalElementB[9].deltaE_system
         discretizedHEXUndir.thermalElementB[8].deltaE_system = $START.discretizedHEXUndir.thermalElementB[8].deltaE_system
         discretizedHEXUndir.thermalElementB[7].deltaE_system = $START.discretizedHEXUndir.thermalElementB[7].deltaE_system
         discretizedHEXUndir.thermalElementB[6].deltaE_system = $START.discretizedHEXUndir.thermalElementB[6].deltaE_system
         discretizedHEXUndir.thermalElementB[5].deltaE_system = $START.discretizedHEXUndir.thermalElementB[5].deltaE_system
         discretizedHEXUndir.thermalElementB[4].deltaE_system = $START.discretizedHEXUndir.thermalElementB[4].deltaE_system
         discretizedHEXUndir.thermalElementB[3].deltaE_system = $START.discretizedHEXUndir.thermalElementB[3].deltaE_system
         discretizedHEXUndir.thermalElementB[2].deltaE_system = $START.discretizedHEXUndir.thermalElementB[2].deltaE_system
         discretizedHEXUndir.thermalElementB[1].deltaE_system = $START.discretizedHEXUndir.thermalElementB[1].deltaE_system.
Notification: Model statistics after passing the back-end for initialization:
 * Number of independent subsystems: 258
 * Number of states: 0 ()
 * Number of discrete variables: 80 (sinkB1.inlet.state.phase,multiSensor_Tpm10.outlet.state.phase,multiSensor_Tpm11.outlet.state.phase,condenser.thermalElementB[1].outlet.state.phase,condenser.thermalElementB[1].state.phase,condenser.thermalElementB[2].outlet.state.phase,condenser.thermalElementB[2].state.phase,condenser.thermalElementB[3].outlet.state.phase,condenser.thermalElementB[3].state.phase,condenser.thermalElementB[4].outlet.state.phase,condenser.thermalElementB[4].state.phase,condenser.thermalElementB[5].outlet.state.phase,condenser.thermalElementB[5].state.phase,condenser.thermalElementB[6].outlet.state.phase,condenser.thermalElementB[6].state.phase,condenser.thermalElementB[7].outlet.state.phase,condenser.thermalElementB[7].state.phase,condenser.thermalElementB[8].outlet.state.phase,condenser.thermalElementB[8].state.phase,condenser.thermalElementB[9].outlet.state.phase,condenser.thermalElementB[9].state.phase,condenser.thermalElementB[10].state.phase,sinkB.inlet.state.phase,multiSensor_Tpm6.outlet.state.phase,multiSensor_Tpm7.outlet.state.phase,evaporator.thermalElementB[1].outlet.state.phase,evaporator.thermalElementB[1].state.phase,evaporator.thermalElementB[2].outlet.state.phase,evaporator.thermalElementB[2].state.phase,evaporator.thermalElementB[3].outlet.state.phase,evaporator.thermalElementB[3].state.phase,evaporator.thermalElementB[4].outlet.state.phase,evaporator.thermalElementB[4].state.phase,evaporator.thermalElementB[5].outlet.state.phase,evaporator.thermalElementB[5].state.phase,evaporator.thermalElementB[6].outlet.state.phase,evaporator.thermalElementB[6].state.phase,evaporator.thermalElementB[7].outlet.state.phase,evaporator.thermalElementB[7].state.phase,evaporator.thermalElementB[8].outlet.state.phase,evaporator.thermalElementB[8].state.phase,evaporator.thermalElementB[9].outlet.state.phase,evaporator.thermalElementB[9].state.phase,evaporator.thermalElementB[10].state.phase,boundary_fore1.rear.state_rearwards.phase,boundary_fore1.rear.state_forwards.phase,discretizedHEXUndir.thermalElementB[1].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[1].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[1].state.phase,discretizedHEXUndir.thermalElementB[2].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[2].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[2].state.phase,discretizedHEXUndir.thermalElementB[3].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[3].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[3].state.phase,discretizedHEXUndir.thermalElementB[4].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[4].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[4].state.phase,discretizedHEXUndir.thermalElementB[5].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[5].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[5].state.phase,discretizedHEXUndir.thermalElementB[6].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[6].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[6].state.phase,discretizedHEXUndir.thermalElementB[7].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[7].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[7].state.phase,discretizedHEXUndir.thermalElementB[8].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[8].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[8].state.phase,discretizedHEXUndir.thermalElementB[9].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[9].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[9].state.phase,discretizedHEXUndir.thermalElementB[10].state.phase,multiSensor_Tpm2.rear.state_rearwards.phase,multiSensor_Tpm2.fore.state_forwards.phase,multiSensor_Tpm2.state.phase,multiSensor_Tpm3.rear.state_rearwards.phase,multiSensor_Tpm3.fore.state_forwards.phase,multiSensor_Tpm3.state.phase)
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for initialization (1287):
 * Single equations (assignments): 1167
 * Array equations: 0
 * Algorithm blocks: 0
 * Record equations: 84
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 0
 * Torn equation systems: 36
 * Mixed (continuous/discrete) equation systems: 0
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 36 systems
   {(1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,12,100.0%), (1,12,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,12,100.0%), (1,12,100.0%), (1,3,100.0%), (1,12,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,12,100.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 0 systems
Notification: Performance of prepare postOptimizeDAE: time 0.009141/4.065, allocations: 4.976 MB / 2.124 GB, free: 390.2 MB / 0.948 GB
Notification: Performance of postOpt lateInlineFunction (simulation): time 0.002507/4.067, allocations: 1.06 MB / 2.125 GB, free: 390.2 MB / 0.948 GB
Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.06224/4.129, allocations: 31 MB / 2.155 GB, free: 389.1 MB / 0.948 GB
Notification: Performance of postOpt inlineArrayEqn (simulation): time 0.04065/4.17, allocations: 23.37 MB / 2.178 GB, free: 387.1 MB / 0.948 GB
Notification: Performance of postOpt constantLinearSystem (simulation): time 0.0001139/4.17, allocations: 34.53 kB / 2.178 GB, free: 387.1 MB / 0.948 GB
Notification: Performance of postOpt simplifysemiLinear (simulation): time 0.0002452/4.17, allocations: 71.44 kB / 2.178 GB, free: 387.1 MB / 0.948 GB
Warning: The model contains alias variables with redundant start and/or conflicting nominal values. It is recommended to resolve the conflicts, because otherwise the system could be hard to solve. To print the conflicting alias sets and the chosen candidates please use -d=aliasConflicts.
Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.08097/4.251, allocations: 51.96 MB / 2.229 GB, free: 365.8 MB / 0.948 GB
Notification: Performance of postOpt simplifyComplexFunction (simulation): time 8.464e-05/4.252, allocations: 2.844 kB / 2.229 GB, free: 365.8 MB / 0.948 GB
Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.01198/4.264, allocations: 3.373 MB / 2.232 GB, free: 364.7 MB / 0.948 GB
Notification: Performance of postOpt tearingSystem (simulation): time 0.004988/4.269, allocations: 2.514 MB / 2.235 GB, free: 362.8 MB / 0.948 GB
Notification: Performance of postOpt inputDerivativesUsed (simulation): time 0.002427/4.271, allocations: 0.5817 MB / 2.235 GB, free: 362.2 MB / 0.948 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.03521/4.306, allocations: 62.3 MB / 2.296 GB, free: 295.6 MB / 0.948 GB
Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 3.246e-06/4.306, allocations: 3.938 kB / 2.296 GB, free: 295.6 MB / 0.948 GB
Notification: Performance of postOpt symbolicJacobian (simulation): time 0.05685/4.363, allocations: 38.17 MB / 2.333 GB, free: 257.3 MB / 0.948 GB
Notification: Performance of postOpt removeConstants (simulation): time 0.007383/4.371, allocations: 3.5 MB / 2.337 GB, free: 253.8 MB / 0.948 GB
Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.002504/4.373, allocations: 331.9 kB / 2.337 GB, free: 253.5 MB / 0.948 GB
Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.01039/4.383, allocations: 2.088 MB / 2.339 GB, free: 251.4 MB / 0.948 GB
Notification: Performance of postOpt findZeroCrossings (simulation): time 0.002388/4.386, allocations: 1.11 MB / 2.34 GB, free: 250.3 MB / 0.948 GB
Notification: Performance of postOpt collapseArrayExpressions (simulation): time 0.001515/4.387, allocations: 0.8199 MB / 2.341 GB, free: 249.4 MB / 0.948 GB
Notification: Performance of sorting global known variables: time 0.005858/4.393, allocations: 4.94 MB / 2.346 GB, free: 244.5 MB / 0.948 GB
Notification: Performance of sort global known variables: time 3.61e-07/4.393, allocations: 0 / 2.346 GB, free: 244.5 MB / 0.948 GB
Notification: Performance of remove unused functions: time 0.0451/4.438, allocations: 12.53 MB / 2.358 GB, free: 232.6 MB / 0.948 GB
Notification: Model statistics after passing the back-end for simulation:
 * Number of independent subsystems: 9
 * Number of states: 72 (PI4.x,PI5.x,condenser.thermalElementB[1].h,condenser.thermalElementB[2].h,condenser.thermalElementB[3].h,condenser.thermalElementB[4].h,condenser.thermalElementB[5].h,condenser.thermalElementB[6].h,condenser.thermalElementB[7].h,condenser.thermalElementB[8].h,condenser.thermalElementB[9].h,condenser.thermalElementB[10].inlet.m_flow,condenser.thermalElementB[10].h,condenser.thermalElementA[1].h,condenser.thermalElementA[2].h,condenser.thermalElementA[3].h,condenser.thermalElementA[4].h,condenser.thermalElementA[5].h,condenser.thermalElementA[6].h,condenser.thermalElementA[7].h,condenser.thermalElementA[8].h,condenser.thermalElementA[9].h,condenser.thermalElementA[10].h,flowResistanceA2.inlet.m_flow,PI2.x,PI3.x,evaporator.thermalElementB[1].h,evaporator.thermalElementB[2].h,evaporator.thermalElementB[3].h,evaporator.thermalElementB[4].h,evaporator.thermalElementB[5].h,evaporator.thermalElementB[6].h,evaporator.thermalElementB[7].h,evaporator.thermalElementB[8].h,evaporator.thermalElementB[9].h,evaporator.thermalElementB[10].inlet.m_flow,evaporator.thermalElementB[10].h,evaporator.thermalElementA[1].h,evaporator.thermalElementA[2].h,evaporator.thermalElementA[3].h,evaporator.thermalElementA[4].h,evaporator.thermalElementA[5].h,evaporator.thermalElementA[6].h,evaporator.thermalElementA[7].h,evaporator.thermalElementA[8].h,evaporator.thermalElementA[9].h,evaporator.thermalElementA[10].h,flowResistanceA1.inlet.m_flow,flowResistanceA.rear.m_flow,discretizedHEXUndir.thermalElementB[1].rear.m_flow,discretizedHEXUndir.thermalElementB[1].h,discretizedHEXUndir.thermalElementB[2].h,discretizedHEXUndir.thermalElementB[3].h,discretizedHEXUndir.thermalElementB[4].h,discretizedHEXUndir.thermalElementB[5].h,discretizedHEXUndir.thermalElementB[6].h,discretizedHEXUndir.thermalElementB[7].h,discretizedHEXUndir.thermalElementB[8].h,discretizedHEXUndir.thermalElementB[9].h,discretizedHEXUndir.thermalElementB[10].h,discretizedHEXUndir.thermalElementA[1].h,discretizedHEXUndir.thermalElementA[2].h,discretizedHEXUndir.thermalElementA[3].h,discretizedHEXUndir.thermalElementA[4].h,discretizedHEXUndir.thermalElementA[5].h,discretizedHEXUndir.thermalElementA[6].h,discretizedHEXUndir.thermalElementA[7].h,discretizedHEXUndir.thermalElementA[8].h,discretizedHEXUndir.thermalElementA[9].h,discretizedHEXUndir.thermalElementA[10].h,PI1.x,PI.x)
 * Number of discrete variables: 136 (condenser.thermalElementB[3].outlet.state.phase,condenser.thermalElementB[3].state.phase,condenser.thermalElementB[8].outlet.state.phase,condenser.thermalElementB[8].state.phase,condenser.thermalElementB[9].outlet.state.phase,condenser.thermalElementB[9].state.phase,sinkB1.inlet.state.phase,multiSensor_Tpm10.outlet.state.phase,condenser.thermalElementB[10].state.phase,condenser.thermalElementB[7].outlet.state.phase,condenser.thermalElementB[7].state.phase,condenser.thermalElementB[6].outlet.state.phase,condenser.thermalElementB[6].state.phase,condenser.thermalElementB[5].outlet.state.phase,condenser.thermalElementB[5].state.phase,condenser.thermalElementB[4].outlet.state.phase,condenser.thermalElementB[4].state.phase,condenser.thermalElementB[2].outlet.state.phase,condenser.thermalElementB[2].state.phase,condenser.thermalElementB[1].outlet.state.phase,condenser.thermalElementB[1].state.phase,$cse76.phase,$cse77.phase,$cse78.phase,$cse79.phase,$cse80.phase,$cse81.phase,$cse82.phase,$cse83.phase,$cse84.phase,$cse85.phase,$cse88.phase,multiSensor_Tpm11.outlet.state.phase,evaporator.thermalElementB[3].outlet.state.phase,evaporator.thermalElementB[3].state.phase,evaporator.thermalElementB[8].outlet.state.phase,evaporator.thermalElementB[8].state.phase,evaporator.thermalElementB[9].outlet.state.phase,evaporator.thermalElementB[9].state.phase,sinkB.inlet.state.phase,multiSensor_Tpm6.outlet.state.phase,evaporator.thermalElementB[10].state.phase,evaporator.thermalElementB[7].outlet.state.phase,evaporator.thermalElementB[7].state.phase,evaporator.thermalElementB[6].outlet.state.phase,evaporator.thermalElementB[6].state.phase,evaporator.thermalElementB[5].outlet.state.phase,evaporator.thermalElementB[5].state.phase,evaporator.thermalElementB[4].outlet.state.phase,evaporator.thermalElementB[4].state.phase,evaporator.thermalElementB[2].outlet.state.phase,evaporator.thermalElementB[2].state.phase,evaporator.thermalElementB[1].outlet.state.phase,evaporator.thermalElementB[1].state.phase,$cse53.phase,$cse54.phase,$cse55.phase,$cse56.phase,$cse57.phase,$cse58.phase,$cse59.phase,$cse60.phase,$cse61.phase,$cse62.phase,$cse65.phase,multiSensor_Tpm7.outlet.state.phase,multiSensor_Tpm3.state.phase,multiSensor_Tpm3.rear.state_rearwards.phase,discretizedHEXUndir.thermalElementB[9].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[7].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[6].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[4].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[3].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[2].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[1].fore.state_rearwards.phase,multiSensor_Tpm2.rear.state_rearwards.phase,multiSensor_Tpm2.state.phase,discretizedHEXUndir.thermalElementB[1].state.phase,discretizedHEXUndir.thermalElementB[2].state.phase,discretizedHEXUndir.thermalElementB[3].state.phase,discretizedHEXUndir.thermalElementB[4].state.phase,discretizedHEXUndir.thermalElementB[5].state.phase,discretizedHEXUndir.thermalElementB[5].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[6].state.phase,discretizedHEXUndir.thermalElementB[7].state.phase,discretizedHEXUndir.thermalElementB[8].state.phase,discretizedHEXUndir.thermalElementB[8].fore.state_rearwards.phase,discretizedHEXUndir.thermalElementB[9].state.phase,discretizedHEXUndir.thermalElementB[10].state.phase,discretizedHEXUndir.thermalElementB[4].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[5].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[7].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[8].fore.state_forwards.phase,boundary_fore1.rear.state_forwards.phase,multiSensor_Tpm3.fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[9].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[6].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[3].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[2].fore.state_forwards.phase,discretizedHEXUndir.thermalElementB[1].fore.state_forwards.phase,$cse3.phase,$cse4.phase,$cse5.phase,$cse6.phase,$cse7.phase,$cse8.phase,$cse9.phase,$cse10.phase,$cse11.phase,$cse12.phase,$cse13.phase,$cse14.phase,$cse15.phase,$cse16.phase,$cse17.phase,$cse18.phase,$cse19.phase,$cse20.phase,$cse21.phase,$cse22.phase,$cse23.phase,$cse24.phase,$cse25.phase,$cse26.phase,$cse27.phase,$cse28.phase,$cse29.phase,$cse30.phase,$cse31.phase,$cse32.phase,$cse39.phase,$cse40.phase,$cse41.phase,$cse42.phase,boundary_fore1.rear.state_rearwards.phase,multiSensor_Tpm2.fore.state_forwards.phase)
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for simulation (1329):
 * Single equations (assignments): 1199
 * Array equations: 0
 * Algorithm blocks: 0
 * Record equations: 94
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 0
 * Torn equation systems: 36
 * Mixed (continuous/discrete) equation systems: 0
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 36 systems
   {(1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,12,100.0%), (1,12,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,12,100.0%), (1,12,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,3,100.0%), (1,12,100.0%), (1,12,100.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 0 systems
Notification: Performance of Backend phase and start with SimCode phase: time 0.1582/4.597, allocations: 34.42 MB / 2.392 GB, free: 199.4 MB / 0.948 GB
Notification: Performance of simCode: created initialization part: time 0.0691/4.666, allocations: 57.7 MB / 2.448 GB, free: 138.4 MB / 0.948 GB
Notification: Performance of simCode: created event and clocks part: time 1.375e-05/4.666, allocations: 10.31 kB / 2.448 GB, free: 138.4 MB / 0.948 GB
Notification: Performance of simCode: created simulation system equations: time 0.0232/4.689, allocations: 17.51 MB / 2.465 GB, free: 120.3 MB / 0.948 GB
Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.02596/4.715, allocations: 5.697 MB / 2.471 GB, free: 114.6 MB / 0.948 GB
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality1.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect1.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality3.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality2.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect3.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect2.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality3.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality2.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect3.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect2.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality1.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect1.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality3.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality2.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect3.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect2.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality1.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getTwoPhaseUnit(sensorVaporQuality.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect1.quantity)
[/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10061:11-10061:220:writable] Error: Internal error Unexpected expression (should have been handled earlier, probably in the front-end. Unit/displayUnit expression is not a string literal: ThermofluidStream.Sensors.Internal.getUnit(singleSensorSelect.quantity)
Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 0.3326/5.048, allocations: 47.35 MB / 2.517 GB, free: 346.9 MB / 0.948 GB
Notification: Performance of simCode: some other stuff during SimCode phase: time 0.01355/5.061, allocations: 9.915 MB / 2.526 GB, free: 345.8 MB / 0.948 GB
Notification: Performance of simCode: alias equations: time 0.03587/5.097, allocations: 8.913 MB / 2.535 GB, free: 345.3 MB / 0.948 GB
Notification: Performance of simCode: all other stuff during SimCode phase: time 0.009112/5.106, allocations: 1.89 MB / 2.537 GB, free: 345.3 MB / 0.948 GB
Notification: Performance of SimCode: time 1.032e-06/5.106, allocations: 0 / 2.537 GB, free: 345.3 MB / 0.948 GB
Notification: Performance of Templates: time 0.7764/5.883, allocations: 423.1 MB / 2.95 GB, free: 290.8 MB / 0.948 GB
make -j1 -f ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.makefile
(rm -f ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.pipe ; mkfifo ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.pipe ; head -c 1048576 < ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.pipe >> ../files/ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.sim & ./ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir -abortSlowSimulation -alarm=1200   -emit_protected -lv LOG_STATS > ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.pipe 2>&1)
diffSimulationResults("ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir_res.mat","/mnt/ReferenceFiles/ThermofluidStream-OM-regression/ReferenceData/ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir_ref.mat","../files/ThermofluidStream_OM_adaptions_ThermofluidStream.Undirected.HeatExchangers.Tests.TestDiscretizedHEXvsDir.diff",relTol=0.003,relTolDiffMinMax=0.003,rangeDelta=0.001)
Reference file matches