Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes.conf.json loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false) [Timeout 90] Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.001627/0.001627, allocations: 103 kB / 18.19 MB, free: 3.879 MB / 14.72 MB [Timeout remaining time 90] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo", uses=false) [Timeout 90] Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.00172/0.00172, allocations: 189.9 kB / 21.34 MB, free: 0.7383 MB / 14.72 MB [Timeout remaining time 90] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo", uses=false) [Timeout 90] Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo): time 1.406/1.406, allocations: 225.6 MB / 249.9 MB, free: 3.184 MB / 190.1 MB [Timeout remaining time 88] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream 1.1.0/package.mo", uses=false) [Timeout 90] Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream 1.1.0/package.mo): time 0.5954/0.5954, allocations: 90.29 MB / 395.3 MB, free: 3.93 MB / 318.1 MB [Timeout remaining time 89] Using package ThermofluidStream with version 1.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream 1.1.0/package.mo) Using package Modelica with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo) Using package Complex with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo) Using package ModelicaServices with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo) Running command: translateModel(ThermofluidStream.HeatExchangers.Tests.FlowRes,tolerance=1e-06,outputFormat="mat",numberOfIntervals=1000,variableFilter="CPUtime|EventCounter|Time|condenser.A|condenser.G|condenser.M_A|condenser.M_B|condenser.Q_flow_A|condenser.Q_flow_B|condenser.V_Hex|condenser.calculate_efficiency|condenser.deltaE_system|condenser.enforce_global_energy_conservation|condenser.flowResistanceA.10..D_h|condenser.flowResistanceA.10..L|condenser.flowResistanceA.10..L_value|condenser.flowResistanceA.10..Xi_in.1.|condenser.flowResistanceA.10..Xi_out.1.|condenser.flowResistanceA.10..a|condenser.flowResistanceA.10..areaCross|condenser.flowResistanceA.10..areaCrossInput|condenser.flowResistanceA.10..areaHydraulic|condenser.flowResistanceA.10..b|condenser.flowResistanceA.10..clip_p_out|condenser.flowResistanceA.10..computeL|condenser.flowResistanceA.10..dp|condenser.flowResistanceA.10..dr_corr|condenser.flowResistanceA.10..h_in|condenser.flowResistanceA.10..h_out|condenser.flowResistanceA.10..initM_flow|der.condenser.flowResistanceA.10..inlet.m_flow.|condenser.flowResistanceA.10..inlet.m_flow|condenser.flowResistanceA.10..inlet.r|condenser.flowResistanceA.10..inlet.state.T|condenser.flowResistanceA.10..inlet.state.X.1.|condenser.flowResistanceA.10..inlet.state.X.2.|condenser.flowResistanceA.10..inlet.state.p|condenser.flowResistanceA.10..l|condenser.flowResistanceA.10..m_acceleration_0|condenser.flowResistanceA.10..m_flow|condenser.flowResistanceA.10..m_flowStateSelect|condenser.flowResistanceA.10..m_flow_0|condenser.flowResistanceA.10..mu_in|condenser.flowResistanceA.10..outlet.m_flow|condenser.flowResistanceA.10..outlet.r|condenser.flowResistanceA.10..outlet.state.T|condenser.flowResistanceA.10..outlet.state.X.1.|condenser.flowResistanceA.10..outlet.state.X.2.|condenser.flowResistanceA.10..outlet.state.p|condenser.flowResistanceA.10..p_in|condenser.flowResistanceA.10..p_min|condenser.flowResistanceA.10..p_out|condenser.flowResistanceA.10..perimeter|condenser.flowResistanceA.10..perimeterInput|condenser.flowResistanceA.10..r|condenser.flowResistanceA.10..rho_in|condenser.flowResistanceA.10..rho_min|condenser.flowResistanceA.10..shape|condenser.flowResistanceA.1..D_h|condenser.flowResistanceA.1..L|condenser.flowResistanceA.1..L_value|condenser.flowResistanceA.1..Xi_in.1.|condenser.flowResistanceA.1..Xi_out.1.|condenser.flowResistanceA.1..a|condenser.flowResistanceA.1..areaCross|condenser.flowResistanceA.1..areaCrossInput|condenser.flowResistanceA.1..areaHydraulic|condenser.flowResistanceA.1..b|condenser.flowResistanceA.1..clip_p_out|condenser.flowResistanceA.1..computeL|condenser.flowResistanceA.1..dp|condenser.flowResistanceA.1..dr_corr|condenser.flowResistanceA.1..h_in|condenser.flowResistanceA.1..h_out|condenser.flowResistanceA.1..initM_flow|der.condenser.flowResistanceA.1..inlet.m_flow.|condenser.flowResistanceA.1..inlet.m_flow|condenser.flowResistanceA.1..inlet.r|condenser.flowResistanceA.1..inlet.state.T|condenser.flowResistanceA.1..inlet.state.X.1.|condenser.flowResistanceA.1..inlet.state.X.2.|condenser.flowResistanceA.1..inlet.state.p|condenser.flowResistanceA.1..l|condenser.flowResistanceA.1..m_acceleration_0|condenser.flowResistanceA.1..m_flow|condenser.flowResistanceA.1..m_flowStateSelect|condenser.flowResistanceA.1..m_flow_0|condenser.flowResistanceA.1..mu_in|condenser.flowResistanceA.1..outlet.m_flow|condenser.flowResistanceA.1..outlet.r|condenser.flowResistanceA.1..outlet.state.T|condenser.flowResistanceA.1..outlet.state.X.1.|condenser.flowResistanceA.1..outlet.state.X.2.|condenser.flowResistanceA.1..outlet.state.p|condenser.flowResistanceA.1..p_in|condenser.flowResistanceA.1..p_min|condenser.flowResistanceA.1..p_out|condenser.flowResistanceA.1..perimeter|condenser.flowResistanceA.1..perimeterInput|condenser.flowResistanceA.1..r|condenser.flowResistanceA.1..rho_in|condenser.flowResistanceA.1..rho_min|condenser.flowResistanceA.1..shape|condenser.flowResistanceA.2..D_h|condenser.flowResistanceA.2..L|condenser.flowResistanceA.2..L_value|condenser.flowResistanceA.2..Xi_in.1.|condenser.flowResistanceA.2..Xi_out.1.|condenser.flowResistanceA.2..a|condenser.flowResistanceA.2..areaCross|condenser.flowResistanceA.2..areaCrossInput|condenser.flowResistanceA.2..areaHydraulic|condenser.flowResistanceA.2..b|condenser.flowResistanceA.2..clip_p_out|condenser.flowResistanceA.2..computeL|condenser.flowResistanceA.2..dp|condenser.flowResistanceA.2..dr_corr|condenser.flowResistanceA.2..h_in|condenser.flowResistanceA.2..h_out|condenser.flowResistanceA.2..initM_flow|der.condenser.flowResistanceA.2..inlet.m_flow.|condenser.flowResistanceA.2..inlet.m_flow|condenser.flowResistanceA.2..inlet.r|condenser.flowResistanceA.2..inlet.state.T|condenser.flowResistanceA.2..inlet.state.X.1.|condenser.flowResistanceA.2..inlet.state.X.2.|condenser.flowResistanceA.2..inlet.state.p|condenser.flowResistanceA.2..l|condenser.flowResistanceA.2..m_acceleration_0|condenser.flowResistanceA.2..m_flow|condenser.flowResistanceA.2..m_flowStateSelect|conde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FromInput|sourceA.xiFromInput|sourceA1.L|sourceA1.T0|sourceA1.T0_par|sourceA1.Xi0.1.|sourceA1.Xi0_par.1.|sourceA1.enthalpyFromInput|sourceA1.h0|sourceA1.h0_par|der.sourceA1.outlet.m_flow.|sourceA1.outlet.m_flow|sourceA1.outlet.r|sourceA1.outlet.state.T|sourceA1.outlet.state.X.1.|sourceA1.outlet.state.X.2.|sourceA1.outlet.state.p|sourceA1.p0|sourceA1.p0_par|sourceA1.pressureFromInput|sourceA1.setEnthalpy|sourceA1.temperatureFromInput|sourceA1.xiFromInput|sourceA2.L|sourceA2.T0|sourceA2.T0_par|sourceA2.Xi0.1.|sourceA2.Xi0_par.1.|sourceA2.enthalpyFromInput|sourceA2.h0|sourceA2.h0_par|der.sourceA2.outlet.m_flow.|sourceA2.outlet.m_flow|sourceA2.outlet.r|sourceA2.outlet.state.T|sourceA2.outlet.state.X.1.|sourceA2.outlet.state.X.2.|sourceA2.outlet.state.p|sourceA2.p0|sourceA2.p0_par|sourceA2.pressureFromInput|sourceA2.setEnthalpy|sourceA2.temperatureFromInput|sourceA2.xiFromInput|sourceA3.L|sourceA3.T0|sourceA3.T0_par|sourceA3.Xi0.1.|sourceA3.Xi0_par.1.|sourceA3.enthalpyFromInput|sourceA3.h0|sourceA3.h0_par|der.sourceA3.outlet.m_flow.|sourceA3.outlet.m_flow|sourceA3.outlet.r|sourceA3.outlet.state.T|sourceA3.outlet.state.X.1.|sourceA3.outlet.state.X.2.|sourceA3.outlet.state.p|sourceA3.p0|sourceA3.p0_par|sourceA3.pressureFromInput|sourceA3.setEnthalpy|sourceA3.temperatureFromInput|sourceA3.xiFromInput|sourceB.L|sourceB.T0|sourceB.T0_par|sourceB.enthalpyFromInput|sourceB.h0|sourceB.h0_par|der.sourceB.outlet.m_flow.|sourceB.outlet.m_flow|sourceB.outlet.r|sourceB.outlet.state.T|sourceB.outlet.state.d|sourceB.outlet.state.h|sourceB.outlet.state.p|sourceB.outlet.state.phase|sourceB.p0|sourceB.p0_par|sourceB.pressureFromInput|sourceB.setEnthalpy|sourceB.temperatureFromInput|sourceB.xiFromInput|sourceB1.L|sourceB1.T0|sourceB1.T0_par|sourceB1.enthalpyFromInput|sourceB1.h0|sourceB1.h0_par|der.sourceB1.outlet.m_flow.|sourceB1.outlet.m_flow|sourceB1.outlet.r|sourceB1.outlet.state.T|sourceB1.outlet.state.d|sourceB1.outlet.state.h|sourceB1.outlet.state.p|sourceB1.outlet.state.phase|sourceB1.p0|sourceB1.p0_par|sourceB1.pressureFromInput|sourceB1.setEnthalpy|sourceB1.temperatureFromInput|sourceB1.xiFromInput|sourceB2.L|sourceB2.T0|sourceB2.T0_par|sourceB2.enthalpyFromInput|sourceB2.h0|sourceB2.h0_par|der.sourceB2.outlet.m_flow.|sourceB2.outlet.m_flow|sourceB2.outlet.r|sourceB2.outlet.state.T|sourceB2.outlet.state.d|sourceB2.outlet.state.h|sourceB2.outlet.state.p|sourceB2.outlet.state.phase|sourceB2.p0|sourceB2.p0_par|sourceB2.pressureFromInput|sourceB2.setEnthalpy|sourceB2.temperatureFromInput|sourceB2.xiFromInput|sourceB3.L|sourceB3.T0|sourceB3.T0_par|sourceB3.enthalpyFromInput|sourceB3.h0|sourceB3.h0_par|der.sourceB3.outlet.m_flow.|sourceB3.outlet.m_flow|sourceB3.outlet.r|sourceB3.outlet.state.T|sourceB3.outlet.state.d|sourceB3.outlet.state.h|sourceB3.outlet.state.p|sourceB3.outlet.state.phase|sourceB3.p0|sourceB3.p0_par|sourceB3.pressureFromInput|sourceB3.setEnthalpy|sourceB3.temperatureFromInput|sourceB3.xiFromInput",fileNamePrefix="ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes") [Timeout 660] Notification: Performance of FrontEnd - loaded program: time 0.002304/0.002304, allocations: 87.88 kB / 0.5405 GB, free: 308 kB / 398.1 MB Notification: Performance of FrontEnd - Absyn->SCode: time 0.3752/0.3775, allocations: 70.83 MB / 0.6096 GB, free: 7.336 MB / 462.1 MB Notification: Performance of NFInst.instantiate(ThermofluidStream.HeatExchangers.Tests.FlowRes): time 1.666/2.044, allocations: 0.8317 GB / 1.441 GB, free: 12.89 MB / 0.9044 GB Notification: Performance of NFInst.instExpressions: time 1.048/3.092, allocations: 459.3 MB / 1.89 GB, free: 4.23 MB / 1.092 GB Notification: Performance of NFInst.updateImplicitVariability: time 0.006428/3.098, allocations: 110.9 kB / 1.89 GB, free: 4.16 MB / 1.092 GB Notification: Performance of NFTyping.typeComponents: time 0.01658/3.115, allocations: 6.408 MB / 1.896 GB, free: 14.01 MB / 1.107 GB Notification: Performance of NFTyping.typeBindings: time 0.06679/3.182, allocations: 24.59 MB / 1.92 GB, free: 5.309 MB / 1.123 GB Notification: Performance of NFTyping.typeClassSections: time 0.13/3.312, allocations: 47.41 MB / 1.967 GB, free: 5.715 MB / 1.17 GB Notification: Performance of NFFlatten.flatten: time 0.04797/3.36, allocations: 45.5 MB / 2.011 GB, free: 8.023 MB / 1.217 GB Notification: Performance of NFFlatten.resolveConnections: time 0.01316/3.373, allocations: 8.746 MB / 2.02 GB, free: 15.15 MB / 1.232 GB Notification: Performance of NFEvalConstants.evaluate: time 0.07114/3.444, allocations: 43.44 MB / 2.062 GB, free: 3.602 MB / 1.264 GB Notification: Performance of NFSimplifyModel.simplify: time 1.311/4.755, allocations: 20.77 MB / 2.082 GB, free: 55.34 MB / 1.279 GB Notification: Performance of NFPackage.collectConstants: time 0.0115/4.767, allocations: 3.341 MB / 2.086 GB, free: 55.34 MB / 1.279 GB Notification: Performance of NFFlatten.collectFunctions: time 0.2762/5.043, allocations: 139.9 MB / 2.222 GB, free: 50.93 MB / 1.279 GB Notification: Performance of NFScalarize.scalarize: time 0.01326/5.056, allocations: 8.966 MB / 2.231 GB, free: 48.97 MB / 1.279 GB Notification: Performance of NFVerifyModel.verify: time 0.03255/5.089, allocations: 17.41 MB / 2.248 GB, free: 42.95 MB / 1.279 GB Notification: Performance of NFConvertDAE.convert: time 0.5921/5.681, allocations: 239 MB / 2.481 GB, free: 10.46 MB / 1.451 GB Notification: Performance of FrontEnd - DAE generated: time 5.441e-06/5.681, allocations: 0 / 2.481 GB, free: 10.46 MB / 1.451 GB Notification: Performance of FrontEnd: time 1.533e-06/5.681, allocations: 0 / 2.481 GB, free: 10.46 MB / 1.451 GB Notification: Performance of Transformations before backend: time 0.00134/5.682, allocations: 1.719 kB / 2.481 GB, free: 10.46 MB / 1.451 GB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 6164 * Number of variables: 6164 Notification: Performance of Generate backend data structure: time 0.203/5.885, allocations: 48.41 MB / 2.529 GB, free: 15.53 MB / 1.498 GB Notification: Performance of prepare preOptimizeDAE: time 4.224e-05/5.885, allocations: 8.031 kB / 2.529 GB, free: 15.52 MB / 1.498 GB Notification: Performance of preOpt normalInlineFunction (simulation): time 0.02518/5.91, allocations: 4.103 MB / 2.533 GB, free: 11.58 MB / 1.498 GB Notification: Performance of preOpt evaluateParameters (simulation): time 0.04135/5.952, allocations: 16.89 MB / 2.549 GB, free: 13.8 MB / 1.514 GB Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.002095/5.954, allocations: 1.671 MB / 2.551 GB, free: 12.16 MB / 1.514 GB Notification: Performance of preOpt expandDerOperator (simulation): time 0.01109/5.965, allocations: 2.203 MB / 2.553 GB, free: 9.992 MB / 1.514 GB Notification: Performance of preOpt clockPartitioning (simulation): time 0.1281/6.093, allocations: 48.65 MB / 2.6 GB, free: 9.273 MB / 1.561 GB Notification: Performance of preOpt findStateOrder (simulation): time 0.0008328/6.094, allocations: 3 kB / 2.6 GB, free: 9.273 MB / 1.561 GB Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.008568/6.102, allocations: 0.8677 MB / 2.601 GB, free: 8.441 MB / 1.561 GB Notification: Performance of preOpt inlineArrayEqn (simulation): time 0.002522/6.105, allocations: 1.79 MB / 2.603 GB, free: 6.648 MB / 1.561 GB Notification: Performance of preOpt removeEqualRHS (simulation): time 0.7872/6.892, allocations: 63.77 MB / 2.665 GB, free: 0.8122 GB / 1.592 GB Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.2332/7.125, allocations: 183.7 MB / 2.845 GB, free: 0.6869 GB / 1.592 GB Notification: Performance of preOpt comSubExp (simulation): time 0.05475/7.18, allocations: 37.34 MB / 2.881 GB, free: 0.6654 GB / 1.592 GB Notification: Performance of preOpt resolveLoops (simulation): time 0.0376/7.217, allocations: 26.85 MB / 2.907 GB, free: 0.6426 GB / 1.592 GB Notification: Performance of preOpt evalFunc (simulation): time 0.03591/7.253, allocations: 65.57 MB / 2.971 GB, free: 0.5654 GB / 1.592 GB Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.0005206/7.254, allocations: 309.1 kB / 2.972 GB, free: 0.5651 GB / 1.592 GB Notification: Performance of pre-optimization done (n=2910): time 4.894e-05/7.254, allocations: 0 / 2.972 GB, free: 0.5651 GB / 1.592 GB Notification: Performance of matching and sorting (n=2914): time 0.2445/7.498, allocations: 134.8 MB / 3.103 GB, free: 443.1 MB / 1.592 GB Notification: Performance of inlineWhenForInitialization (initialization): time 0.0002436/7.499, allocations: 379.9 kB / 3.104 GB, free: 442.7 MB / 1.592 GB Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.02283/7.522, allocations: 15.83 MB / 3.119 GB, free: 427 MB / 1.592 GB Notification: Performance of collectPreVariables (initialization): time 0.006489/7.528, allocations: 447.9 kB / 3.12 GB, free: 426.5 MB / 1.592 GB Notification: Performance of collectInitialEqns (initialization): time 0.006148/7.534, allocations: 9.463 MB / 3.129 GB, free: 418 MB / 1.592 GB Notification: Performance of collectInitialBindings (initialization): time 0.01122/7.545, allocations: 10.19 MB / 3.139 GB, free: 409.3 MB / 1.592 GB Notification: Performance of simplifyInitialFunctions (initialization): time 0.02097/7.566, allocations: 5.34 MB / 3.144 GB, free: 403.9 MB / 1.592 GB Notification: Performance of setup shared object (initialization): time 4.773e-05/7.566, allocations: 309.1 kB / 3.144 GB, free: 403.6 MB / 1.592 GB Notification: Performance of preBalanceInitialSystem (initialization): time 0.03764/7.604, allocations: 24.53 MB / 3.168 GB, free: 379.1 MB / 1.592 GB Notification: Performance of partitionIndependentBlocks (initialization): time 0.0417/7.646, allocations: 27.81 MB / 3.195 GB, free: 350.5 MB / 1.592 GB Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: condenser1.thermalElementA[10].deltaE_system = $START.condenser1.thermalElementA[10].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[9].deltaE_system = $START.condenser1.thermalElementA[9].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[8].deltaE_system = $START.condenser1.thermalElementA[8].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[7].deltaE_system = $START.condenser1.thermalElementA[7].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[6].deltaE_system = $START.condenser1.thermalElementA[6].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[5].deltaE_system = $START.condenser1.thermalElementA[5].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[4].deltaE_system = $START.condenser1.thermalElementA[4].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[3].deltaE_system = $START.condenser1.thermalElementA[3].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[2].deltaE_system = $START.condenser1.thermalElementA[2].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementA[1].deltaE_system = $START.condenser1.thermalElementA[1].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[10].deltaE_system = $START.condenser1.thermalElementB[10].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[9].deltaE_system = $START.condenser1.thermalElementB[9].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[8].deltaE_system = $START.condenser1.thermalElementB[8].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[7].deltaE_system = $START.condenser1.thermalElementB[7].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[6].deltaE_system = $START.condenser1.thermalElementB[6].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[5].deltaE_system = $START.condenser1.thermalElementB[5].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[4].deltaE_system = $START.condenser1.thermalElementB[4].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[3].deltaE_system = $START.condenser1.thermalElementB[3].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[2].deltaE_system = $START.condenser1.thermalElementB[2].deltaE_system (0.0 = $START.condenser1.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: condenser1.thermalElementB[1].deltaE_system = $START.condenser1.thermalElementB[1].deltaE_system (0.0 = $START.condenser1.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: 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: evaporator1.thermalElementA[10].deltaE_system = $START.evaporator1.thermalElementA[10].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[9].deltaE_system = $START.evaporator1.thermalElementA[9].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[8].deltaE_system = $START.evaporator1.thermalElementA[8].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[7].deltaE_system = $START.evaporator1.thermalElementA[7].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[6].deltaE_system = $START.evaporator1.thermalElementA[6].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[5].deltaE_system = $START.evaporator1.thermalElementA[5].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[4].deltaE_system = $START.evaporator1.thermalElementA[4].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[3].deltaE_system = $START.evaporator1.thermalElementA[3].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[2].deltaE_system = $START.evaporator1.thermalElementA[2].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementA[1].deltaE_system = $START.evaporator1.thermalElementA[1].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[10].deltaE_system = $START.evaporator1.thermalElementB[10].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[9].deltaE_system = $START.evaporator1.thermalElementB[9].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[8].deltaE_system = $START.evaporator1.thermalElementB[8].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[7].deltaE_system = $START.evaporator1.thermalElementB[7].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[6].deltaE_system = $START.evaporator1.thermalElementB[6].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[5].deltaE_system = $START.evaporator1.thermalElementB[5].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[4].deltaE_system = $START.evaporator1.thermalElementB[4].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[3].deltaE_system = $START.evaporator1.thermalElementB[3].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[2].deltaE_system = $START.evaporator1.thermalElementB[2].deltaE_system (0.0 = $START.evaporator1.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: evaporator1.thermalElementB[1].deltaE_system = $START.evaporator1.thermalElementB[1].deltaE_system (0.0 = $START.evaporator1.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) Notification: Performance of analyzeInitialSystem (initialization): time 0.07652/7.722, allocations: 61.52 MB / 3.255 GB, free: 286.8 MB / 1.592 GB Notification: Performance of solveInitialSystemEqSystem (initialization): time 0.0001182/7.722, allocations: 16 kB / 3.256 GB, free: 286.8 MB / 1.592 GB Notification: Performance of matching and sorting (n=3348) (initialization): time 0.1293/7.852, allocations: 61.61 MB / 3.316 GB, free: 225 MB / 1.592 GB Notification: Performance of prepare postOptimizeDAE: time 0.0001113/7.852, allocations: 32 kB / 3.316 GB, free: 225 MB / 1.592 GB Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.0001409/7.852, allocations: 67.12 kB / 3.316 GB, free: 224.9 MB / 1.592 GB Notification: Performance of postOpt tearingSystem (initialization): time 0.01215/7.864, allocations: 5.589 MB / 3.321 GB, free: 219.3 MB / 1.592 GB Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.02331/7.887, allocations: 5.936 MB / 3.327 GB, free: 213.4 MB / 1.592 GB Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.08815/7.976, allocations: 106.8 MB / 3.431 GB, free: 100.3 MB / 1.592 GB Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.02278/7.998, allocations: 2.248 MB / 3.434 GB, free: 98.23 MB / 1.592 GB Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.007928/8.006, allocations: 1.442 MB / 3.435 GB, free: 96.79 MB / 1.592 GB Warning: The initial conditions are over specified. The following 80 initial equations are redundant, so they are removed from the initialization system: condenser1.thermalElementA[10].deltaE_system = $START.condenser1.thermalElementA[10].deltaE_system condenser1.thermalElementA[9].deltaE_system = $START.condenser1.thermalElementA[9].deltaE_system condenser1.thermalElementA[8].deltaE_system = $START.condenser1.thermalElementA[8].deltaE_system condenser1.thermalElementA[7].deltaE_system = $START.condenser1.thermalElementA[7].deltaE_system condenser1.thermalElementA[6].deltaE_system = $START.condenser1.thermalElementA[6].deltaE_system condenser1.thermalElementA[5].deltaE_system = $START.condenser1.thermalElementA[5].deltaE_system condenser1.thermalElementA[4].deltaE_system = $START.condenser1.thermalElementA[4].deltaE_system condenser1.thermalElementA[3].deltaE_system = $START.condenser1.thermalElementA[3].deltaE_system condenser1.thermalElementA[2].deltaE_system = $START.condenser1.thermalElementA[2].deltaE_system condenser1.thermalElementA[1].deltaE_system = $START.condenser1.thermalElementA[1].deltaE_system condenser1.thermalElementB[10].deltaE_system = $START.condenser1.thermalElementB[10].deltaE_system condenser1.thermalElementB[9].deltaE_system = $START.condenser1.thermalElementB[9].deltaE_system condenser1.thermalElementB[8].deltaE_system = $START.condenser1.thermalElementB[8].deltaE_system condenser1.thermalElementB[7].deltaE_system = $START.condenser1.thermalElementB[7].deltaE_system condenser1.thermalElementB[6].deltaE_system = $START.condenser1.thermalElementB[6].deltaE_system condenser1.thermalElementB[5].deltaE_system = $START.condenser1.thermalElementB[5].deltaE_system condenser1.thermalElementB[4].deltaE_system = $START.condenser1.thermalElementB[4].deltaE_system condenser1.thermalElementB[3].deltaE_system = $START.condenser1.thermalElementB[3].deltaE_system condenser1.thermalElementB[2].deltaE_system = $START.condenser1.thermalElementB[2].deltaE_system condenser1.thermalElementB[1].deltaE_system = $START.condenser1.thermalElementB[1].deltaE_system 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 evaporator1.thermalElementA[10].deltaE_system = $START.evaporator1.thermalElementA[10].deltaE_system evaporator1.thermalElementA[9].deltaE_system = $START.evaporator1.thermalElementA[9].deltaE_system evaporator1.thermalElementA[8].deltaE_system = $START.evaporator1.thermalElementA[8].deltaE_system evaporator1.thermalElementA[7].deltaE_system = $START.evaporator1.thermalElementA[7].deltaE_system evaporator1.thermalElementA[6].deltaE_system = $START.evaporator1.thermalElementA[6].deltaE_system evaporator1.thermalElementA[5].deltaE_system = $START.evaporator1.thermalElementA[5].deltaE_system evaporator1.thermalElementA[4].deltaE_system = $START.evaporator1.thermalElementA[4].deltaE_system evaporator1.thermalElementA[3].deltaE_system = $START.evaporator1.thermalElementA[3].deltaE_system evaporator1.thermalElementA[2].deltaE_system = $START.evaporator1.thermalElementA[2].deltaE_system evaporator1.thermalElementA[1].deltaE_system = $START.evaporator1.thermalElementA[1].deltaE_system evaporator1.thermalElementB[10].deltaE_system = $START.evaporator1.thermalElementB[10].deltaE_system evaporator1.thermalElementB[9].deltaE_system = $START.evaporator1.thermalElementB[9].deltaE_system evaporator1.thermalElementB[8].deltaE_system = $START.evaporator1.thermalElementB[8].deltaE_system evaporator1.thermalElementB[7].deltaE_system = $START.evaporator1.thermalElementB[7].deltaE_system evaporator1.thermalElementB[6].deltaE_system = $START.evaporator1.thermalElementB[6].deltaE_system evaporator1.thermalElementB[5].deltaE_system = $START.evaporator1.thermalElementB[5].deltaE_system evaporator1.thermalElementB[4].deltaE_system = $START.evaporator1.thermalElementB[4].deltaE_system evaporator1.thermalElementB[3].deltaE_system = $START.evaporator1.thermalElementB[3].deltaE_system evaporator1.thermalElementB[2].deltaE_system = $START.evaporator1.thermalElementB[2].deltaE_system evaporator1.thermalElementB[1].deltaE_system = $START.evaporator1.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. Notification: Model statistics after passing the back-end for initialization: * Number of independent subsystems: 280 * Number of states: 0 () * Number of discrete variables: 110 (condenser1.flowResistanceB[9].outlet.state.phase,condenser1.flowResistanceB[8].outlet.state.phase,condenser1.flowResistanceB[7].outlet.state.phase,condenser1.flowResistanceB[6].outlet.state.phase,condenser1.flowResistanceB[5].outlet.state.phase,condenser1.flowResistanceB[4].outlet.state.phase,condenser1.flowResistanceB[3].outlet.state.phase,condenser1.flowResistanceB[2].outlet.state.phase,condenser1.flowResistanceB[1].outlet.state.phase,condenser1.thermalElementB[10].state.phase,condenser1.thermalElementB[10].outlet.state.phase,condenser1.thermalElementB[9].state.phase,condenser1.thermalElementB[9].outlet.state.phase,condenser1.thermalElementB[8].state.phase,condenser1.thermalElementB[8].outlet.state.phase,condenser1.thermalElementB[7].state.phase,condenser1.thermalElementB[7].outlet.state.phase,condenser1.thermalElementB[6].state.phase,condenser1.thermalElementB[6].outlet.state.phase,condenser1.thermalElementB[5].state.phase,condenser1.thermalElementB[5].outlet.state.phase,condenser1.thermalElementB[4].state.phase,condenser1.thermalElementB[4].outlet.state.phase,condenser1.thermalElementB[3].state.phase,condenser1.thermalElementB[3].outlet.state.phase,condenser1.thermalElementB[2].state.phase,condenser1.thermalElementB[2].outlet.state.phase,condenser1.thermalElementB[1].state.phase,condenser1.thermalElementB[1].outlet.state.phase,multiSensor_Tpm15.outlet.state.phase,multiSensor_Tpm14.outlet.state.phase,sinkB3.inlet.state.phase,sourceB3.outlet.state.phase,condenser.thermalElementB[10].state.phase,condenser.thermalElementB[9].state.phase,condenser.thermalElementB[9].outlet.state.phase,condenser.thermalElementB[8].state.phase,condenser.thermalElementB[8].outlet.state.phase,condenser.thermalElementB[7].state.phase,condenser.thermalElementB[7].outlet.state.phase,condenser.thermalElementB[6].state.phase,condenser.thermalElementB[6].outlet.state.phase,condenser.thermalElementB[5].state.phase,condenser.thermalElementB[5].outlet.state.phase,condenser.thermalElementB[4].state.phase,condenser.thermalElementB[4].outlet.state.phase,condenser.thermalElementB[3].state.phase,condenser.thermalElementB[3].outlet.state.phase,condenser.thermalElementB[2].state.phase,condenser.thermalElementB[2].outlet.state.phase,condenser.thermalElementB[1].state.phase,condenser.thermalElementB[1].outlet.state.phase,multiSensor_Tpm11.outlet.state.phase,multiSensor_Tpm10.outlet.state.phase,sinkB2.inlet.state.phase,sourceB2.outlet.state.phase,mCV2.outlet.state.phase,evaporator1.flowResistanceB[10].inlet.state.phase,evaporator1.flowResistanceB[9].outlet.state.phase,evaporator1.flowResistanceB[9].inlet.state.phase,evaporator1.flowResistanceB[8].outlet.state.phase,evaporator1.flowResistanceB[8].inlet.state.phase,evaporator1.flowResistanceB[7].outlet.state.phase,evaporator1.flowResistanceB[7].inlet.state.phase,evaporator1.flowResistanceB[6].outlet.state.phase,evaporator1.flowResistanceB[6].inlet.state.phase,evaporator1.flowResistanceB[5].outlet.state.phase,evaporator1.flowResistanceB[5].inlet.state.phase,evaporator1.flowResistanceB[4].outlet.state.phase,evaporator1.flowResistanceB[4].inlet.state.phase,evaporator1.flowResistanceB[3].outlet.state.phase,evaporator1.flowResistanceB[3].inlet.state.phase,evaporator1.flowResistanceB[2].outlet.state.phase,evaporator1.flowResistanceB[2].inlet.state.phase,evaporator1.flowResistanceB[1].outlet.state.phase,evaporator1.flowResistanceB[1].inlet.state.phase,evaporator1.thermalElementB[10].state.phase,evaporator1.thermalElementB[9].state.phase,evaporator1.thermalElementB[8].state.phase,evaporator1.thermalElementB[7].state.phase,evaporator1.thermalElementB[6].state.phase,evaporator1.thermalElementB[5].state.phase,evaporator1.thermalElementB[4].state.phase,evaporator1.thermalElementB[3].state.phase,evaporator1.thermalElementB[2].state.phase,evaporator1.thermalElementB[1].state.phase,multiSensor_Tpm7.outlet.state.phase,multiSensor_Tpm6.outlet.state.phase,mCV.outlet.state.phase,evaporator.thermalElementB[10].state.phase,evaporator.thermalElementB[9].state.phase,evaporator.thermalElementB[9].outlet.state.phase,evaporator.thermalElementB[8].state.phase,evaporator.thermalElementB[8].outlet.state.phase,evaporator.thermalElementB[7].state.phase,evaporator.thermalElementB[7].outlet.state.phase,evaporator.thermalElementB[6].state.phase,evaporator.thermalElementB[6].outlet.state.phase,evaporator.thermalElementB[5].state.phase,evaporator.thermalElementB[5].outlet.state.phase,evaporator.thermalElementB[4].state.phase,evaporator.thermalElementB[4].outlet.state.phase,evaporator.thermalElementB[3].state.phase,evaporator.thermalElementB[3].outlet.state.phase,evaporator.thermalElementB[2].state.phase,evaporator.thermalElementB[2].outlet.state.phase,evaporator.thermalElementB[1].state.phase,evaporator.thermalElementB[1].outlet.state.phase,multiSensor_Tpm3.outlet.state.phase,multiSensor_Tpm2.outlet.state.phase) * Number of discrete states: 0 () * Number of clocked states: 0 () * Top-level inputs: 0 Notification: Strong component statistics for initialization (2570): * Single equations (assignments): 2336 * Array equations: 76 * Algorithm blocks: 0 * Record equations: 110 * When equations: 0 * If-equations: 0 * Equation systems (not torn): 0 * Torn equation systems: 48 * Mixed (continuous/discrete) equation systems: 0 Notification: Torn system details for strict tearing set: * Linear torn systems (#iteration vars, #inner vars, density): 48 systems {(1,3,100.0%), (1,23,100.0%), (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%), (11,47,39.7%), (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%), (1,13,100.0%), (11,47,39.7%), (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%), (1,22,100.0%), (1,22,100.0%), (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 prepare postOptimizeDAE: time 0.02361/8.03, allocations: 9.382 MB / 3.444 GB, free: 87.4 MB / 1.592 GB Notification: Performance of postOpt lateInlineFunction (simulation): time 0.01211/8.042, allocations: 2.181 MB / 3.446 GB, free: 85.21 MB / 1.592 GB Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.5552/8.597, allocations: 97.76 MB / 3.542 GB, free: 0.7512 GB / 1.592 GB Notification: Performance of postOpt inlineArrayEqn (simulation): time 0.1079/8.705, allocations: 62.11 MB / 3.602 GB, free: 0.742 GB / 1.592 GB Notification: Performance of postOpt constantLinearSystem (simulation): time 0.0004304/8.706, allocations: 63.11 kB / 3.602 GB, free: 0.742 GB / 1.592 GB Notification: Performance of postOpt simplifysemiLinear (simulation): time 0.0009782/8.706, allocations: 146.6 kB / 3.603 GB, free: 0.742 GB / 1.592 GB Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.2256/8.932, allocations: 141.8 MB / 3.741 GB, free: 0.6739 GB / 1.592 GB Notification: Performance of postOpt simplifyComplexFunction (simulation): time 0.0003654/8.932, allocations: 14.84 kB / 3.741 GB, free: 0.6739 GB / 1.592 GB Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.02514/8.958, allocations: 5.894 MB / 3.747 GB, free: 0.6722 GB / 1.592 GB Notification: Performance of postOpt tearingSystem (simulation): time 0.01338/8.971, allocations: 5.896 MB / 3.753 GB, free: 0.6692 GB / 1.592 GB Notification: Performance of postOpt inputDerivativesUsed (simulation): time 0.007376/8.978, allocations: 1.255 MB / 3.754 GB, free: 0.6685 GB / 1.592 GB Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.07159/9.05, allocations: 106.9 MB / 3.858 GB, free: 0.56 GB / 1.592 GB Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 9.408e-06/9.05, allocations: 19.41 kB / 3.858 GB, free: 0.56 GB / 1.592 GB Notification: Performance of postOpt symbolicJacobian (simulation): time 0.1657/9.216, allocations: 99.02 MB / 3.955 GB, free: 475.7 MB / 1.592 GB Notification: Performance of postOpt removeConstants (simulation): time 0.02193/9.238, allocations: 8.763 MB / 3.963 GB, free: 468 MB / 1.592 GB Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.01121/9.249, allocations: 0.7292 MB / 3.964 GB, free: 467.3 MB / 1.592 GB Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.02217/9.271, allocations: 1.962 MB / 3.966 GB, free: 465.4 MB / 1.592 GB Notification: Performance of postOpt findZeroCrossings (simulation): time 0.008262/9.279, allocations: 2.245 MB / 3.968 GB, free: 463.2 MB / 1.592 GB Notification: Performance of postOpt collapseArrayExpressions (simulation): time 0.007764/9.287, allocations: 1.363 MB / 3.97 GB, free: 461.8 MB / 1.592 GB Notification: Performance of sorting global known variables: time 0.01993/9.307, allocations: 11.37 MB / 3.981 GB, free: 450.5 MB / 1.592 GB Notification: Performance of sort global known variables: time 2e-07/9.307, allocations: 0 / 3.981 GB, free: 450.5 MB / 1.592 GB Notification: Performance of remove unused functions: time 0.1072/9.414, allocations: 18.5 MB / 3.999 GB, free: 434.3 MB / 1.592 GB Notification: Model statistics after passing the back-end for simulation: * Number of independent subsystems: 42 * Number of states: 114 (condenser1.thermalElementB[1].h,condenser1.thermalElementB[2].h,condenser1.thermalElementB[3].h,condenser1.thermalElementB[4].h,condenser1.thermalElementB[5].h,condenser1.thermalElementB[6].h,condenser1.thermalElementB[7].h,condenser1.thermalElementB[8].h,condenser1.thermalElementB[9].h,condenser1.thermalElementB[10].h,condenser1.thermalElementA[1].h,condenser1.thermalElementA[2].h,condenser1.thermalElementA[3].h,condenser1.thermalElementA[4].h,condenser1.thermalElementA[5].h,condenser1.thermalElementA[6].h,condenser1.thermalElementA[7].h,condenser1.thermalElementA[8].h,condenser1.thermalElementA[9].h,condenser1.thermalElementA[10].h,condenser1.flowResistanceA[1].inlet.m_flow,condenser1.flowResistanceA[2].inlet.m_flow,condenser1.flowResistanceA[3].inlet.m_flow,condenser1.flowResistanceA[4].inlet.m_flow,condenser1.flowResistanceA[5].inlet.m_flow,condenser1.flowResistanceA[6].inlet.m_flow,condenser1.flowResistanceA[7].inlet.m_flow,condenser1.flowResistanceA[8].inlet.m_flow,condenser1.flowResistanceA[9].inlet.m_flow,condenser1.flowResistanceA[10].inlet.m_flow,condenser1.flowResistanceB[10].inlet.m_flow,mCV6.dp_int,mCV7.dp_int,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,condenser.flowResistanceA[1].inlet.m_flow,condenser.flowResistanceA[2].inlet.m_flow,condenser.flowResistanceA[3].inlet.m_flow,condenser.flowResistanceA[4].inlet.m_flow,condenser.flowResistanceA[5].inlet.m_flow,condenser.flowResistanceA[6].inlet.m_flow,condenser.flowResistanceA[7].inlet.m_flow,condenser.flowResistanceA[8].inlet.m_flow,condenser.flowResistanceA[9].inlet.m_flow,condenser.flowResistanceA[10].inlet.m_flow,mCV4.dp_int,mCV5.dp_int,evaporator1.thermalElementB[1].h,evaporator1.thermalElementB[2].h,evaporator1.thermalElementB[3].h,evaporator1.thermalElementB[4].h,evaporator1.thermalElementB[5].h,evaporator1.thermalElementB[6].h,evaporator1.thermalElementB[7].h,evaporator1.thermalElementB[8].h,evaporator1.thermalElementB[9].h,evaporator1.thermalElementB[10].h,evaporator1.thermalElementA[1].h,evaporator1.thermalElementA[2].h,evaporator1.thermalElementA[3].h,evaporator1.thermalElementA[4].h,evaporator1.thermalElementA[5].h,evaporator1.thermalElementA[6].h,evaporator1.thermalElementA[7].h,evaporator1.thermalElementA[8].h,evaporator1.thermalElementA[9].h,evaporator1.thermalElementA[10].h,evaporator1.flowResistanceB[10].inlet.m_flow,mCV2.dp_int,mCV3.inlet.m_flow,mCV3.dp_int,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,mCV.dp_int,mCV1.inlet.m_flow,mCV1.dp_int) * Number of discrete variables: 278 (condenser1.thermalElementB[1].outlet.state.phase,condenser1.thermalElementB[2].outlet.state.phase,condenser1.thermalElementB[3].outlet.state.phase,condenser1.thermalElementB[4].outlet.state.phase,condenser1.thermalElementB[5].outlet.state.phase,condenser1.thermalElementB[6].outlet.state.phase,condenser1.thermalElementB[7].outlet.state.phase,condenser1.thermalElementB[8].outlet.state.phase,condenser1.thermalElementB[9].outlet.state.phase,condenser1.thermalElementB[10].outlet.state.phase,sinkB3.inlet.state.phase,multiSensor_Tpm14.outlet.state.phase,multiSensor_Tpm15.outlet.state.phase,$cse301.phase,$cse302,$cse304.phase,$cse305,$cse327.phase,$cse328.phase,$cse329,$cse330.phase,$cse331,$cse334.phase,$cse341.phase,$cse342.phase,$cse343,$cse346.phase,$cse347,$cse350.phase,$cse351,$cse354.phase,$cse355,$cse358.phase,$cse359,$cse362.phase,$cse363,$cse366.phase,$cse367,$cse370.phase,$cse371,$cse374.phase,$cse375,$cse378.phase,$cse379,$cse402.phase,$cse403,$cse404.phase,$cse405,$cse406.phase,$cse407,$cse408.phase,$cse409,$cse410.phase,$cse411,$cse412.phase,$cse413,$cse414.phase,$cse415,$cse416.phase,$cse417,$cse418.phase,$cse419,$cse420.phase,$cse421,$cse423.phase,$cse424,$cse425.phase,condenser1.thermalElementB[1].state.phase,condenser1.thermalElementB[2].state.phase,condenser1.thermalElementB[3].state.phase,condenser1.thermalElementB[4].state.phase,condenser1.thermalElementB[5].state.phase,condenser1.thermalElementB[6].state.phase,condenser1.thermalElementB[7].state.phase,condenser1.thermalElementB[8].state.phase,condenser1.thermalElementB[9].state.phase,condenser1.thermalElementB[10].state.phase,condenser1.flowResistanceB[1].outlet.state.phase,condenser1.flowResistanceB[2].outlet.state.phase,condenser1.flowResistanceB[3].outlet.state.phase,condenser1.flowResistanceB[4].outlet.state.phase,condenser1.flowResistanceB[5].outlet.state.phase,condenser1.flowResistanceB[6].outlet.state.phase,condenser1.flowResistanceB[7].outlet.state.phase,condenser1.flowResistanceB[8].outlet.state.phase,condenser1.flowResistanceB[9].outlet.state.phase,condenser.thermalElementB[1].outlet.state.phase,condenser.thermalElementB[2].outlet.state.phase,condenser.thermalElementB[3].outlet.state.phase,condenser.thermalElementB[4].outlet.state.phase,condenser.thermalElementB[5].outlet.state.phase,condenser.thermalElementB[6].outlet.state.phase,condenser.thermalElementB[7].outlet.state.phase,condenser.thermalElementB[8].outlet.state.phase,condenser.thermalElementB[9].outlet.state.phase,sinkB2.inlet.state.phase,multiSensor_Tpm10.outlet.state.phase,multiSensor_Tpm11.outlet.state.phase,$cse202.phase,$cse203,$cse205.phase,$cse206,$cse218.phase,$cse219,$cse220.phase,$cse221,$cse224.phase,$cse231.phase,$cse232.phase,$cse233,$cse236.phase,$cse237,$cse240.phase,$cse241,$cse244.phase,$cse245,$cse248.phase,$cse249,$cse252.phase,$cse253,$cse256.phase,$cse257,$cse260.phase,$cse261,$cse264.phase,$cse265,$cse268.phase,$cse269,$cse293.phase,$cse294,$cse295.phase,condenser.thermalElementB[1].state.phase,condenser.thermalElementB[2].state.phase,condenser.thermalElementB[3].state.phase,condenser.thermalElementB[4].state.phase,condenser.thermalElementB[5].state.phase,condenser.thermalElementB[6].state.phase,condenser.thermalElementB[7].state.phase,condenser.thermalElementB[8].state.phase,condenser.thermalElementB[9].state.phase,condenser.thermalElementB[10].state.phase,multiSensor_Tpm6.outlet.state.phase,evaporator1.flowResistanceB[10].inlet.state.phase,evaporator1.flowResistanceB[9].inlet.state.phase,evaporator1.flowResistanceB[8].inlet.state.phase,evaporator1.flowResistanceB[7].inlet.state.phase,evaporator1.flowResistanceB[6].inlet.state.phase,evaporator1.flowResistanceB[5].inlet.state.phase,evaporator1.flowResistanceB[4].inlet.state.phase,evaporator1.flowResistanceB[3].inlet.state.phase,evaporator1.flowResistanceB[2].inlet.state.phase,evaporator1.flowResistanceB[1].inlet.state.phase,$cse79.phase,$cse80,$cse82.phase,$cse83,$cse95.phase,$cse106.phase,$cse107,$cse108.phase,$cse109,$cse116.phase,$cse117,$cse120.phase,$cse121,$cse124.phase,$cse125,$cse128.phase,$cse129,$cse132.phase,$cse133,$cse136.phase,$cse137,$cse140.phase,$cse141,$cse144.phase,$cse145,$cse148.phase,$cse149,$cse152.phase,$cse153,$cse166.phase,$cse167,$cse168.phase,$cse169,$cse170.phase,$cse171,$cse172.phase,$cse173,$cse174.phase,$cse175,$cse176.phase,$cse177,$cse178.phase,$cse179,$cse180.phase,$cse181,$cse182.phase,$cse183,$cse184.phase,$cse185,$cse196.phase,$cse197,evaporator1.thermalElementB[1].state.phase,evaporator1.thermalElementB[2].state.phase,evaporator1.thermalElementB[3].state.phase,evaporator1.thermalElementB[4].state.phase,evaporator1.thermalElementB[5].state.phase,evaporator1.thermalElementB[6].state.phase,evaporator1.thermalElementB[7].state.phase,evaporator1.thermalElementB[8].state.phase,evaporator1.thermalElementB[9].state.phase,evaporator1.thermalElementB[10].state.phase,evaporator1.flowResistanceB[1].outlet.state.phase,evaporator1.flowResistanceB[2].outlet.state.phase,evaporator1.flowResistanceB[3].outlet.state.phase,evaporator1.flowResistanceB[4].outlet.state.phase,evaporator1.flowResistanceB[5].outlet.state.phase,evaporator1.flowResistanceB[6].outlet.state.phase,evaporator1.flowResistanceB[7].outlet.state.phase,evaporator1.flowResistanceB[8].outlet.state.phase,evaporator1.flowResistanceB[9].outlet.state.phase,mCV2.outlet.state.phase,multiSensor_Tpm2.outlet.state.phase,evaporator.thermalElementB[9].outlet.state.phase,evaporator.thermalElementB[8].outlet.state.phase,evaporator.thermalElementB[7].outlet.state.phase,evaporator.thermalElementB[6].outlet.state.phase,evaporator.thermalElementB[5].outlet.state.phase,evaporator.thermalElementB[4].outlet.state.phase,evaporator.thermalElementB[3].outlet.state.phase,evaporator.thermalElementB[2].outlet.state.phase,evaporator.thermalElementB[1].outlet.state.phase,$cse6.phase,$cse7,$cse9.phase,$cse10,$cse12.phase,$cse13,$cse14.phase,$cse15,$cse22.phase,$cse23,$cse26.phase,$cse27,$cse30.phase,$cse31,$cse34.phase,$cse35,$cse38.phase,$cse39,$cse42.phase,$cse43,$cse46.phase,$cse47,$cse50.phase,$cse51,$cse54.phase,$cse55,$cse58.phase,$cse59,$cse72.phase,$cse73,evaporator.thermalElementB[1].state.phase,evaporator.thermalElementB[2].state.phase,evaporator.thermalElementB[3].state.phase,evaporator.thermalElementB[4].state.phase,evaporator.thermalElementB[5].state.phase,evaporator.thermalElementB[6].state.phase,evaporator.thermalElementB[7].state.phase,evaporator.thermalElementB[8].state.phase,evaporator.thermalElementB[9].state.phase,evaporator.thermalElementB[10].state.phase,mCV.outlet.state.phase,multiSensor_Tpm3.outlet.state.phase,multiSensor_Tpm7.outlet.state.phase,$cse426,$cse296) * Number of discrete states: 0 () * Number of clocked states: 0 () * Top-level inputs: 0 Notification: Strong component statistics for simulation (2728): * Single equations (assignments): 2416 * Array equations: 76 * Algorithm blocks: 0 * Record equations: 188 * When equations: 0 * If-equations: 0 * Equation systems (not torn): 0 * Torn equation systems: 48 * Mixed (continuous/discrete) equation systems: 0 Notification: Torn system details for strict tearing set: * Linear torn systems (#iteration vars, #inner vars, density): 48 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%), (11,47,39.7%), (1,23,100.0%), (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%), (11,47,39.7%), (1,13,100.0%), (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%), (1,22,100.0%), (1,22,100.0%), (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 0.3684/9.782, allocations: 102.5 MB / 4.099 GB, free: 336.7 MB / 1.592 GB Notification: Performance of simCode: created initialization part: time 0.09668/9.879, allocations: 62.85 MB / 4.16 GB, free: 273.1 MB / 1.592 GB Notification: Performance of simCode: created event and clocks part: time 2.286e-05/9.879, allocations: 10.69 kB / 4.16 GB, free: 273.1 MB / 1.592 GB Notification: Performance of simCode: created simulation system equations: time 0.05294/9.932, allocations: 37.46 MB / 4.197 GB, free: 234.5 MB / 1.592 GB Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.05499/9.987, allocations: 11.58 MB / 4.208 GB, free: 223.2 MB / 1.592 GB [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality5.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality4.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect5.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect4.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality7.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality6.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect7.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect6.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality7.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality6.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect7.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect6.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality5.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality4.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect5.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect4.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality7.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality6.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect7.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect6.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality5.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(sensorVaporQuality4.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect5.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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(singleSensorSelect4.quantity) [/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/SimCode/SimCodeUtil.mo:10446:11-10446:220: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 0.128/10.12, allocations: 83.52 MB / 4.29 GB, free: 139.7 MB / 1.592 GB Notification: Performance of simCode: some other stuff during SimCode phase: time 0.02396/10.14, allocations: 17.77 MB / 4.307 GB, free: 121.8 MB / 1.592 GB Notification: Performance of simCode: all other stuff during SimCode phase: time 0.01691/10.16, allocations: 3.313 MB / 4.31 GB, free: 118.5 MB / 1.592 GB Notification: Performance of SimCode: time 1.272e-06/10.16, allocations: 0 / 4.31 GB, free: 118.5 MB / 1.592 GB Notification: Performance of Templates: time 11.34/21.49, allocations: 7.545 GB / 11.86 GB, free: 0.643 GB / 1.592 GB [Timeout remaining time 638] make -j1 -f ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes.makefile [Timeout 660] (rm -f ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes.pipe ; mkfifo ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes.pipe ; head -c 1048576 < ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes.pipe >> ../files/ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes.sim & ./ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes -abortSlowSimulation -alarm=1200 -emit_protected -lv LOG_STATS > ThermofluidStream_ThermofluidStream.HeatExchangers.Tests.FlowRes.pipe 2>&1) [Timeout 1200]