Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.conf.json
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo): time 0.001394/0.001394, allocations: 83.69 kB / 19.27 MB, free: 2.102 MB / 14.72 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo): time 0.001551/0.001551, allocations: 168.4 kB / 22.56 MB, free: 4.316 MB / 14.72 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo): time 1.424/1.424, allocations: 177.1 MB / 202.9 MB, free: 8.227 MB / 190.1 MB
"
[Timeout remaining time 178]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo): time 1.088/1.088, allocations: 116 MB / 375.3 MB, free: 7.746 MB / 350.1 MB
"
[Timeout remaining time 179]
Using package ThermofluidStream with version 1.3.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo)
Using package Modelica with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo)
Using package Complex with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo)
Using package ModelicaServices with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo)
Running command: translateModel(ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance,tolerance=1e-06,outputFormat="mat",numberOfIntervals=100,variableFilter="CPUtime|EventCounter|Time|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow.2.|dropOfCommons.L|dropOfCommons.assertionLevel|dropOfCommons.g|dropOfCommons.instanceNameColor.1.|dropOfCommons.instanceNameColor.2.|dropOfCommons.instanceNameColor.3.|dropOfCommons.k_volume_damping|dropOfCommons.m_flow_reg|dropOfCommons.omega_reg|dropOfCommons.p_min|dropOfCommons.rho_min|firstOrder1.T|der.firstOrder1.y.|firstOrder1.initType|firstOrder1.k|firstOrder1.u|firstOrder1.y|firstOrder1.y_start|firstOrder2.T|der.firstOrder2.y.|firstOrder2.initType|firstOrder2.k|firstOrder2.u|firstOrder2.y|firstOrder2.y_start|firstOrder4.T|der.firstOrder4.y.|firstOrder4.initType|firstOrder4.k|firstOrder4.u|firstOrder4.y|firstOrder4.y_start|m_flow_pulse1.T_start|m_flow_pulse1.T_width|m_flow_pulse1.amplitude|m_flow_pulse1.count|m_flow_pulse1.nperiod|m_flow_pulse1.offset|m_flow_pulse1.period|m_flow_pulse1.startTime|m_flow_pulse1.width|m_flow_pulse1.y|m_flow_pulse2.T_start|m_flow_pulse2.T_width|m_flow_pulse2.amplitude|m_flow_pulse2.count|m_flow_pulse2.nperiod|m_flow_pulse2.offset|m_flow_pulse2.period|m_flow_pulse2.startTime|m_flow_pulse2.width|m_flow_pulse2.y|m_flow_pulse3.T_start|m_flow_pulse3.T_width|m_flow_pulse3.amplitude|m_flow_pulse3.count|m_flow_pulse3.nperiod|m_flow_pulse3.offset|m_flow_pulse3.period|m_flow_pulse3.startTime|m_flow_pulse3.width|m_flow_pulse3.y|m_flow_pulse4.T_start|m_flow_pulse4.T_width|m_flow_pulse4.amplitude|m_flow_pulse4.count|m_flow_pulse4.nperiod|m_flow_pulse4.offset|m_flow_pulse4.period|m_flow_pulse4.startTime|m_flow_pulse4.width|m_flow_pulse4.y|m_flow_pulse5.T_start|m_flow_pulse5.T_width|m_flow_pulse5.amplitude|m_flow_pulse5.count|m_flow_pulse5.nperiod|m_flow_pulse5.offset|m_flow_pulse5.period|m_flow_pulse5.startTime|m_flow_pulse5.width|m_flow_pulse5.y|m_flow_pulse6.T_start|m_flow_pulse6.T_width|m_flow_pulse6.amplitude|m_flow_pulse6.count|m_flow_pulse6.nperiod|m_flow_pulse6.offset|m_flow_pulse6.period|m_flow_pulse6.startTime|m_flow_pulse6.width|m_flow_pulse6.y|massFlowRateA1.L|massFlowRateA1.clip_p_out|massFlowRateA1.dp|massFlowRateA1.dr_corr|massFlowRateA1.h_in|massFlowRateA1.h_out|massFlowRateA1.initM_flow|der.massFlowRateA1.inlet.m_flow.|massFlowRateA1.inlet.m_flow|massFlowRateA1.inlet.r|massFlowRateA1.inlet.state.T|massFlowRateA1.inlet.state.p|massFlowRateA1.m_acceleration_0|massFlowRateA1.m_flow|massFlowRateA1.m_flowSpec|massFlowRateA1.m_flowStateSelect|massFlowRateA1.m_flow_0|massFlowRateA1.m_flow_actual|massFlowRateA1.m_flow_fixed|massFlowRateA1.m_flow_prescribed|massFlowRateA1.outlet.m_flow|massFlowRateA1.outlet.r|massFlowRateA1.outlet.state.T|massFlowRateA1.outlet.state.p|massFlowRateA1.p_in|massFlowRateA1.p_min|massFlowRateA1.p_out|massFlowRateA2.L|massFlowRateA2.clip_p_out|massFlowRateA2.dp|massFlowRateA2.dr_corr|massFlowRateA2.h_in|massFlowRateA2.h_out|massFlowRateA2.initM_flow|der.massFlowRateA2.inlet.m_flow.|massFlowRateA2.inlet.m_flow|massFlowRateA2.inlet.r|massFlowRateA2.inlet.state.T|massFlowRateA2.inlet.state.p|massFlowRateA2.m_acceleration_0|massFlowRateA2.m_flow|massFlowRateA2.m_flowSpec|massFlowRateA2.m_flowStateSelect|massFlowRateA2.m_flow_0|massFlowRateA2.m_flow_actual|massFlowRateA2.m_flow_fixed|massFlowRateA2.m_flow_prescribed|massFlowRateA2.outlet.m_flow|massFlowRateA2.outlet.r|massFlowRateA2.outlet.state.T|massFlowRateA2.outlet.state.p|massFlowRateA2.p_in|massFlowRateA2.p_min|massFlowRateA2.p_out|massFlowRateA3.L|massFlowRateA3.clip_p_out|massFlowRateA3.dp|massFlowRateA3.dr_corr|massFlowRateA3.h_in|massFlowRateA3.h_out|massFlowRateA3.initM_flow|der.massFlowRateA3.inlet.m_flow.|massFlowRateA3.inlet.m_flow|massFlowRateA3.inlet.r|massFlowRateA3.inlet.state.T|massFlowRateA3.inlet.state.p|massFlowRateA3.m_acceleration_0|massFlowRateA3.m_flow|massFlowRateA3.m_flowSpec|massFlowRateA3.m_flowStateSelect|massFlowRateA3.m_flow_0|massFlowRateA3.m_flow_actual|massFlowRateA3.m_flow_fixed|massFlowRateA3.m_flow_prescribed|massFlowRateA3.outlet.m_flow|massFlowRateA3.outlet.r|massFlowRateA3.outlet.state.T|massFlowRateA3.outlet.state.p|massFlowRateA3.p_in|massFlowRateA3.p_min|massFlowRateA3.p_out|massFlowRateB1.clip_p_out|massFlowRateB1.dp|massFlowRateB1.dr_corr|massFlowRateB1.h_in|massFlowRateB1.h_out|massFlowRateB1.initM_flow|massFlowRateB1.inlet.m_flow|massFlowRateB1.inlet.r|massFlowRateB1.inlet.state.T|massFlowRateB1.inlet.state.p|massFlowRateB1.m_acceleration_0|massFlowRateB1.m_flow|massFlowRateB1.m_flowSpec|massFlowRateB1.m_flowStateSelect|massFlowRateB1.m_flow_0|massFlowRateB1.m_flow_actual|massFlowRateB1.m_flow_fixed|massFlowRateB1.m_flow_prescribed|massFlowRateB1.outlet.m_flow|massFlowRateB1.outlet.r|massFlowRateB1.outlet.state.T|massFlowRateB1.outlet.state.p|massFlowRateB1.p_in|massFlowRateB1.p_min|massFlowRateB1.p_out|massFlowRateB2.clip_p_out|massFlowRateB2.dp|massFlowRateB2.dr_corr|massFlowRateB2.h_in|massFlowRateB2.h_out|massFlowRateB2.initM_flow|massFlowRateB2.inlet.m_flow|massFlowRateB2.inlet.r|massFlowRateB2.inlet.state.T|massFlowRateB2.inlet.state.p|massFlowRateB2.m_acceleration_0|massFlowRateB2.m_flow|massFlowRateB2.m_flowSpec|massFlowRateB2.m_flowStateSelect|massFlowRateB2.m_flow_0|massFlowRateB2.m_flow_actual|massFlowRateB2.m_flow_fixed|massFlowRateB2.m_flow_prescribed|massFlowRateB2.outlet.m_flow|massFlowRateB2.outlet.r|massFlowRateB2.outlet.state.T|massFlowRateB2.outlet.state.p|massFlowRateB2.p_in|massFlowRateB2.p_min|massFlowRateB2.p_out|massFlowRateB4.clip_p_out|massFlowRateB4.dp|massFlowRateB4.dr_corr|massFlowRateB4.h_in|massFlowRateB4.h_out|massFlowRateB4.initM_flow|massFlowRateB4.inlet.m_flow|massFlowRateB4.inlet.r|massFlowRateB4.inlet.state.T|massFlowRateB4.inlet.state.p|massFlowRateB4.m_acceleration_0|massFlowRateB4.m_flow|massFlowRateB4.m_flowSpec|massFlowRateB4.m_flowStateSelect|massFlowRateB4.m_flow_0|massFlowRateB4.m_flow_actual|massFlowRateB4.m_flow_fixed|massFlowRateB4.m_flow_prescribed|massFlowRateB4.outlet.m_flow|massFlowRateB4.outlet.r|massFlowRateB4.outlet.state.T|massFlowRateB4.outlet.state.p|massFlowRateB4.p_in|massFlowRateB4.p_min|massFlowRateB4.p_out|massFlowRateC4.L|massFlowRateC4.clip_p_out|massFlowRateC4.dp|massFlowRateC4.dr_corr|massFlowRateC4.h_in|massFlowRateC4.h_out|massFlowRateC4.initM_flow|der.massFlowRateC4.inlet.m_flow.|massFlowRateC4.inlet.m_flow|massFlowRateC4.inlet.r|massFlowRateC4.inlet.state.T|massFlowRateC4.inlet.state.p|massFlowRateC4.m_acceleration_0|massFlowRateC4.m_flow|massFlowRateC4.m_flowSpec|massFlowRateC4.m_flowStateSelect|massFlowRateC4.m_flow_0|massFlowRateC4.m_flow_actual|massFlowRateC4.m_flow_fixed|massFlowRateC4.m_flow_prescribed|massFlowRateC4.outlet.m_flow|massFlowRateC4.outlet.r|massFlowRateC4.outlet.state.T|massFlowRateC4.outlet.state.p|massFlowRateC4.p_in|massFlowRateC4.p_min|massFlowRateC4.p_out|massFlowRateRampC4.duration|massFlowRateRampC4.height|massFlowRateRampC4.offset|massFlowRateRampC4.startTime|massFlowRateRampC4.y|sinkA1.L|der.sinkA1.inlet.m_flow.|sinkA1.inlet.m_flow|sinkA1.inlet.r|sinkA1.inlet.state.T|sinkA1.inlet.state.p|sinkA2.L|der.sinkA2.inlet.m_flow.|sinkA2.inlet.m_flow|sinkA2.inlet.r|sinkA2.inlet.state.T|sinkA2.inlet.state.p|sinkA3.L|der.sinkA3.inlet.m_flow.|sinkA3.inlet.m_flow|sinkA3.inlet.r|sinkA3.inlet.state.T|sinkA3.inlet.state.p|sinkB1.inlet.m_flow|sinkB1.inlet.r|sinkB1.inlet.state.T|sinkB1.inlet.state.p|sinkB2.inlet.m_flow|sinkB2.inlet.r|sinkB2.inlet.state.T|sinkB2.inlet.state.p|sinkB3.inlet.m_flow|sinkB3.inlet.r|sinkB3.inlet.state.T|sinkB3.inlet.state.p|sinkC4.L|der.sinkC4.inlet.m_flow.|sinkC4.inlet.m_flow|sinkC4.inlet.r|sinkC4.inlet.state.T|sinkC4.inlet.state.p|source1.T0|source1.T0_par|source1.h0|source1.h0_par|source1.outlet.m_flow|source1.outlet.r|source1.outlet.state.T|source1.outlet.state.p|source1.p0|source1.p0_par|source2.T0|source2.T0_par|source2.h0|source2.h0_par|source2.outlet.m_flow|source2.outlet.r|source2.outlet.state.T|source2.outlet.state.p|source2.p0|source2.p0_par|source3.T0|source3.T0_par|source3.h0|source3.h0_par|source3.outlet.m_flow|source3.outlet.r|source3.outlet.state.T|source3.outlet.state.p|source3.p0|source3.p0_par|splitter1.inlet.m_flow|splitter1.inlet.r|splitter1.inlet.state.T|splitter1.inlet.state.p|splitter1.outletA.m_flow|splitter1.outletA.r|splitter1.outletA.state.T|splitter1.outletA.state.p|splitter1.outletB.m_flow|splitter1.outletB.r|splitter1.outletB.state.T|splitter1.outletB.state.p|splitter1.splitterN.N|splitter1.splitterN.inlet.m_flow|splitter1.splitterN.inlet.r|splitter1.splitterN.inlet.state.T|splitter1.splitterN.inlet.state.p|splitter1.splitterN.outlets.1..m_flow|splitter1.splitterN.outlets.1..r|splitter1.splitterN.outlets.1..state.T|splitter1.splitterN.outlets.1..state.p|splitter1.splitterN.outlets.2..m_flow|splitter1.splitterN.outlets.2..r|splitter1.splitterN.outlets.2..state.T|splitter1.splitterN.outlets.2..state.p|splitter1.splitterN.r_mix|splitter4.inlet.m_flow|splitter4.inlet.r|splitter4.inlet.state.T|splitter4.inlet.state.p|splitter4.outletA.m_flow|splitter4.outletA.r|splitter4.outletA.state.T|splitter4.outletA.state.p|splitter4.outletB.m_flow|splitter4.outletB.r|splitter4.outletB.state.T|splitter4.outletB.state.p|splitter4.splitterN.N|splitter4.splitterN.inlet.m_flow|splitter4.splitterN.inlet.r|splitter4.splitterN.inlet.state.T|splitter4.splitterN.inlet.state.p|splitter4.splitterN.outlets.1..m_flow|splitter4.splitterN.outlets.1..r|splitter4.splitterN.outlets.1..state.T|splitter4.splitterN.outlets.1..state.p|splitter4.splitterN.outlets.2..m_flow|splitter4.splitterN.outlets.2..r|splitter4.splitterN.outlets.2..state.T|splitter4.splitterN.outlets.2..state.p|splitter4.splitterN.r_mix|splitterX1.inlet.m_flow|splitterX1.inlet.r|splitterX1.inlet.state.T|splitterX1.inlet.state.p|splitterX1.outletA.m_flow|splitterX1.outletA.r|splitterX1.outletA.state.T|splitterX1.outletA.state.p|splitterX1.outletB.m_flow|splitterX1.outletB.r|splitterX1.outletB.state.T|splitterX1.outletB.state.p|splitterX1.outletC.m_flow|splitterX1.outletC.r|splitterX1.outletC.state.T|splitterX1.outletC.state.p|splitterX1.splitterN.N|splitterX1.splitterN.inlet.m_flow|splitterX1.splitterN.inlet.r|splitterX1.splitterN.inlet.state.T|splitterX1.splitterN.inlet.state.p|splitterX1.splitterN.outlets.1..m_flow|splitterX1.splitterN.outlets.1..r|splitterX1.splitterN.outlets.1..state.T|splitterX1.splitterN.outlets.1..state.p|splitterX1.splitterN.outlets.2..m_flow|splitterX1.splitterN.outlets.2..r|splitterX1.splitterN.outlets.2..state.T|splitterX1.splitterN.outlets.2..state.p|splitterX1.splitterN.outlets.3..m_flow|splitterX1.splitterN.outlets.3..r|splitterX1.splitterN.outlets.3..state.T|splitterX1.splitterN.outlets.3..state.p|splitterX1.splitterN.r_mix",fileNamePrefix="ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance")
translateModel(ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance,tolerance=1e-06,outputFormat="mat",numberOfIntervals=100,variableFilter="CPUtime|EventCounter|Time|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.3.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.4.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.5.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.6.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow.7.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh.2.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow.1.|_GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow.2.|dropOfCommons.L|dropOfCommons.assertionLevel|dropOfCommons.g|dropOfCommons.instanceNameColor.1.|dropOfCommons.instanceNameColor.2.|dropOfCommons.instanceNameColor.3.|dropOfCommons.k_volume_damping|dropOfCommons.m_flow_reg|dropOfCommons.omega_reg|dropOfCommons.p_min|dropOfCommons.rho_min|firstOrder1.T|der.firstOrder1.y.|firstOrder1.initType|firstOrder1.k|firstOrder1.u|firstOrder1.y|firstOrder1.y_start|firstOrder2.T|der.firstOrder2.y.|firstOrder2.initType|firstOrder2.k|firstOrder2.u|firstOrder2.y|firstOrder2.y_start|firstOrder4.T|der.firstOrder4.y.|firstOrder4.initType|firstOrder4.k|firstOrder4.u|firstOrder4.y|firstOrder4.y_start|m_flow_pulse1.T_start|m_flow_pulse1.T_width|m_flow_pulse1.amplitude|m_flow_pulse1.count|m_flow_pulse1.nperiod|m_flow_pulse1.offset|m_flow_pulse1.period|m_flow_pulse1.startTime|m_flow_pulse1.width|m_flow_pulse1.y|m_flow_pulse2.T_start|m_flow_pulse2.T_width|m_flow_pulse2.amplitude|m_flow_pulse2.count|m_flow_pulse2.nperiod|m_flow_pulse2.offset|m_flow_pulse2.period|m_flow_pulse2.startTime|m_flow_pulse2.width|m_flow_pulse2.y|m_flow_pulse3.T_start|m_flow_pulse3.T_width|m_flow_pulse3.amplitude|m_flow_pulse3.count|m_flow_pulse3.nperiod|m_flow_pulse3.offset|m_flow_pulse3.period|m_flow_pulse3.startTime|m_flow_pulse3.width|m_flow_pulse3.y|m_flow_pulse4.T_start|m_flow_pulse4.T_width|m_flow_pulse4.amplitude|m_flow_pulse4.count|m_flow_pulse4.nperiod|m_flow_pulse4.offset|m_flow_pulse4.period|m_flow_pulse4.startTime|m_flow_pulse4.width|m_flow_pulse4.y|m_flow_pulse5.T_start|m_flow_pulse5.T_width|m_flow_pulse5.amplitude|m_flow_pulse5.count|m_flow_pulse5.nperiod|m_flow_pulse5.offset|m_flow_pulse5.period|m_flow_pulse5.startTime|m_flow_pulse5.width|m_flow_pulse5.y|m_flow_pulse6.T_start|m_flow_pulse6.T_width|m_flow_pulse6.amplitude|m_flow_pulse6.count|m_flow_pulse6.nperiod|m_flow_pulse6.offset|m_flow_pulse6.period|m_flow_pulse6.startTime|m_flow_pulse6.width|m_flow_pulse6.y|massFlowRateA1.L|massFlowRateA1.clip_p_out|massFlowRateA1.dp|massFlowRateA1.dr_corr|massFlowRateA1.h_in|massFlowRateA1.h_out|massFlowRateA1.initM_flow|der.massFlowRateA1.inlet.m_flow.|massFlowRateA1.inlet.m_flow|massFlowRateA1.inlet.r|massFlowRateA1.inlet.state.T|massFlowRateA1.inlet.state.p|massFlowRateA1.m_acceleration_0|massFlowRateA1.m_flow|massFlowRateA1.m_flowSpec|massFlowRateA1.m_flowStateSelect|massFlowRateA1.m_flow_0|massFlowRateA1.m_flow_actual|massFlowRateA1.m_flow_fixed|massFlowRateA1.m_flow_prescribed|massFlowRateA1.outlet.m_flow|massFlowRateA1.outlet.r|massFlowRateA1.outlet.state.T|massFlowRateA1.outlet.state.p|massFlowRateA1.p_in|massFlowRateA1.p_min|massFlowRateA1.p_out|massFlowRateA2.L|massFlowRateA2.clip_p_out|massFlowRateA2.dp|massFlowRateA2.dr_corr|massFlowRateA2.h_in|massFlowRateA2.h_out|massFlowRateA2.initM_flow|der.massFlowRateA2.inlet.m_flow.|massFlowRateA2.inlet.m_flow|massFlowRateA2.inlet.r|massFlowRateA2.inlet.state.T|massFlowRateA2.inlet.state.p|massFlowRateA2.m_acceleration_0|massFlowRateA2.m_flow|massFlowRateA2.m_flowSpec|massFlowRateA2.m_flowStateSelect|massFlowRateA2.m_flow_0|massFlowRateA2.m_flow_actual|massFlowRateA2.m_flow_fixed|massFlowRateA2.m_flow_prescribed|massFlowRateA2.outlet.m_flow|massFlowRateA2.outlet.r|massFlowRateA2.outlet.state.T|massFlowRateA2.outlet.state.p|massFlowRateA2.p_in|massFlowRateA2.p_min|massFlowRateA2.p_out|massFlowRateA3.L|massFlowRateA3.clip_p_out|massFlowRateA3.dp|massFlowRateA3.dr_corr|massFlowRateA3.h_in|massFlowRateA3.h_out|massFlowRateA3.initM_flow|der.massFlowRateA3.inlet.m_flow.|massFlowRateA3.inlet.m_flow|massFlowRateA3.inlet.r|massFlowRateA3.inlet.state.T|massFlowRateA3.inlet.state.p|massFlowRateA3.m_acceleration_0|massFlowRateA3.m_flow|massFlowRateA3.m_flowSpec|massFlowRateA3.m_flowStateSelect|massFlowRateA3.m_flow_0|massFlowRateA3.m_flow_actual|massFlowRateA3.m_flow_fixed|massFlowRateA3.m_flow_prescribed|massFlowRateA3.outlet.m_flow|massFlowRateA3.outlet.r|massFlowRateA3.outlet.state.T|massFlowRateA3.outlet.state.p|massFlowRateA3.p_in|massFlowRateA3.p_min|massFlowRateA3.p_out|massFlowRateB1.clip_p_out|massFlowRateB1.dp|massFlowRateB1.dr_corr|massFlowRateB1.h_in|massFlowRateB1.h_out|massFlowRateB1.initM_flow|massFlowRateB1.inlet.m_flow|massFlowRateB1.inlet.r|massFlowRateB1.inlet.state.T|massFlowRateB1.inlet.state.p|massFlowRateB1.m_acceleration_0|massFlowRateB1.m_flow|massFlowRateB1.m_flowSpec|massFlowRateB1.m_flowStateSelect|massFlowRateB1.m_flow_0|massFlowRateB1.m_flow_actual|massFlowRateB1.m_flow_fixed|massFlowRateB1.m_flow_prescribed|massFlowRateB1.outlet.m_flow|massFlowRateB1.outlet.r|massFlowRateB1.outlet.state.T|massFlowRateB1.outlet.state.p|massFlowRateB1.p_in|massFlowRateB1.p_min|massFlowRateB1.p_out|massFlowRateB2.clip_p_out|massFlowRateB2.dp|massFlowRateB2.dr_corr|massFlowRateB2.h_in|massFlowRateB2.h_out|massFlowRateB2.initM_flow|massFlowRateB2.inlet.m_flow|massFlowRateB2.inlet.r|massFlowRateB2.inlet.state.T|massFlowRateB2.inlet.state.p|massFlowRateB2.m_acceleration_0|massFlowRateB2.m_flow|massFlowRateB2.m_flowSpec|massFlowRateB2.m_flowStateSelect|massFlowRateB2.m_flow_0|massFlowRateB2.m_flow_actual|massFlowRateB2.m_flow_fixed|massFlowRateB2.m_flow_prescribed|massFlowRateB2.outlet.m_flow|massFlowRateB2.outlet.r|massFlowRateB2.outlet.state.T|massFlowRateB2.outlet.state.p|massFlowRateB2.p_in|massFlowRateB2.p_min|massFlowRateB2.p_out|massFlowRateB4.clip_p_out|massFlowRateB4.dp|massFlowRateB4.dr_corr|massFlowRateB4.h_in|massFlowRateB4.h_out|massFlowRateB4.initM_flow|massFlowRateB4.inlet.m_flow|massFlowRateB4.inlet.r|massFlowRateB4.inlet.state.T|massFlowRateB4.inlet.state.p|massFlowRateB4.m_acceleration_0|massFlowRateB4.m_flow|massFlowRateB4.m_flowSpec|massFlowRateB4.m_flowStateSelect|massFlowRateB4.m_flow_0|massFlowRateB4.m_flow_actual|massFlowRateB4.m_flow_fixed|massFlowRateB4.m_flow_prescribed|massFlowRateB4.outlet.m_flow|massFlowRateB4.outlet.r|massFlowRateB4.outlet.state.T|massFlowRateB4.outlet.state.p|massFlowRateB4.p_in|massFlowRateB4.p_min|massFlowRateB4.p_out|massFlowRateC4.L|massFlowRateC4.clip_p_out|massFlowRateC4.dp|massFlowRateC4.dr_corr|massFlowRateC4.h_in|massFlowRateC4.h_out|massFlowRateC4.initM_flow|der.massFlowRateC4.inlet.m_flow.|massFlowRateC4.inlet.m_flow|massFlowRateC4.inlet.r|massFlowRateC4.inlet.state.T|massFlowRateC4.inlet.state.p|massFlowRateC4.m_acceleration_0|massFlowRateC4.m_flow|massFlowRateC4.m_flowSpec|massFlowRateC4.m_flowStateSelect|massFlowRateC4.m_flow_0|massFlowRateC4.m_flow_actual|massFlowRateC4.m_flow_fixed|massFlowRateC4.m_flow_prescribed|massFlowRateC4.outlet.m_flow|massFlowRateC4.outlet.r|massFlowRateC4.outlet.state.T|massFlowRateC4.outlet.state.p|massFlowRateC4.p_in|massFlowRateC4.p_min|massFlowRateC4.p_out|massFlowRateRampC4.duration|massFlowRateRampC4.height|massFlowRateRampC4.offset|massFlowRateRampC4.startTime|massFlowRateRampC4.y|sinkA1.L|der.sinkA1.inlet.m_flow.|sinkA1.inlet.m_flow|sinkA1.inlet.r|sinkA1.inlet.state.T|sinkA1.inlet.state.p|sinkA2.L|der.sinkA2.inlet.m_flow.|sinkA2.inlet.m_flow|sinkA2.inlet.r|sinkA2.inlet.state.T|sinkA2.inlet.state.p|sinkA3.L|der.sinkA3.inlet.m_flow.|sinkA3.inlet.m_flow|sinkA3.inlet.r|sinkA3.inlet.state.T|sinkA3.inlet.state.p|sinkB1.inlet.m_flow|sinkB1.inlet.r|sinkB1.inlet.state.T|sinkB1.inlet.state.p|sinkB2.inlet.m_flow|sinkB2.inlet.r|sinkB2.inlet.state.T|sinkB2.inlet.state.p|sinkB3.inlet.m_flow|sinkB3.inlet.r|sinkB3.inlet.state.T|sinkB3.inlet.state.p|sinkC4.L|der.sinkC4.inlet.m_flow.|sinkC4.inlet.m_flow|sinkC4.inlet.r|sinkC4.inlet.state.T|sinkC4.inlet.state.p|source1.T0|source1.T0_par|source1.h0|source1.h0_par|source1.outlet.m_flow|source1.outlet.r|source1.outlet.state.T|source1.outlet.state.p|source1.p0|source1.p0_par|source2.T0|source2.T0_par|source2.h0|source2.h0_par|source2.outlet.m_flow|source2.outlet.r|source2.outlet.state.T|source2.outlet.state.p|source2.p0|source2.p0_par|source3.T0|source3.T0_par|source3.h0|source3.h0_par|source3.outlet.m_flow|source3.outlet.r|source3.outlet.state.T|source3.outlet.state.p|source3.p0|source3.p0_par|splitter1.inlet.m_flow|splitter1.inlet.r|splitter1.inlet.state.T|splitter1.inlet.state.p|splitter1.outletA.m_flow|splitter1.outletA.r|splitter1.outletA.state.T|splitter1.outletA.state.p|splitter1.outletB.m_flow|splitter1.outletB.r|splitter1.outletB.state.T|splitter1.outletB.state.p|splitter1.splitterN.N|splitter1.splitterN.inlet.m_flow|splitter1.splitterN.inlet.r|splitter1.splitterN.inlet.state.T|splitter1.splitterN.inlet.state.p|splitter1.splitterN.outlets.1..m_flow|splitter1.splitterN.outlets.1..r|splitter1.splitterN.outlets.1..state.T|splitter1.splitterN.outlets.1..state.p|splitter1.splitterN.outlets.2..m_flow|splitter1.splitterN.outlets.2..r|splitter1.splitterN.outlets.2..state.T|splitter1.splitterN.outlets.2..state.p|splitter1.splitterN.r_mix|splitter4.inlet.m_flow|splitter4.inlet.r|splitter4.inlet.state.T|splitter4.inlet.state.p|splitter4.outletA.m_flow|splitter4.outletA.r|splitter4.outletA.state.T|splitter4.outletA.state.p|splitter4.outletB.m_flow|splitter4.outletB.r|splitter4.outletB.state.T|splitter4.outletB.state.p|splitter4.splitterN.N|splitter4.splitterN.inlet.m_flow|splitter4.splitterN.inlet.r|splitter4.splitterN.inlet.state.T|splitter4.splitterN.inlet.state.p|splitter4.splitterN.outlets.1..m_flow|splitter4.splitterN.outlets.1..r|splitter4.splitterN.outlets.1..state.T|splitter4.splitterN.outlets.1..state.p|splitter4.splitterN.outlets.2..m_flow|splitter4.splitterN.outlets.2..r|splitter4.splitterN.outlets.2..state.T|splitter4.splitterN.outlets.2..state.p|splitter4.splitterN.r_mix|splitterX1.inlet.m_flow|splitterX1.inlet.r|splitterX1.inlet.state.T|splitterX1.inlet.state.p|splitterX1.outletA.m_flow|splitterX1.outletA.r|splitterX1.outletA.state.T|splitterX1.outletA.state.p|splitterX1.outletB.m_flow|splitterX1.outletB.r|splitterX1.outletB.state.T|splitterX1.outletB.state.p|splitterX1.outletC.m_flow|splitterX1.outletC.r|splitterX1.outletC.state.T|splitterX1.outletC.state.p|splitterX1.splitterN.N|splitterX1.splitterN.inlet.m_flow|splitterX1.splitterN.inlet.r|splitterX1.splitterN.inlet.state.T|splitterX1.splitterN.inlet.state.p|splitterX1.splitterN.outlets.1..m_flow|splitterX1.splitterN.outlets.1..r|splitterX1.splitterN.outlets.1..state.T|splitterX1.splitterN.outlets.1..state.p|splitterX1.splitterN.outlets.2..m_flow|splitterX1.splitterN.outlets.2..r|splitterX1.splitterN.outlets.2..state.T|splitterX1.splitterN.outlets.2..state.p|splitterX1.splitterN.outlets.3..m_flow|splitterX1.splitterN.outlets.3..r|splitterX1.splitterN.outlets.3..state.T|splitterX1.splitterN.outlets.3..state.p|splitterX1.splitterN.r_mix",fileNamePrefix="ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance") [Timeout 660]
"Notification: Performance of FrontEnd - loaded program: time 1.943e-06/1.943e-06, allocations: 0 / 0.554 GB, free: 45.52 MB / 0.5137 GB
Notification: Performance of FrontEnd - Absyn->SCode: time 3.134e-05/3.328e-05, allocations: 10.7 kB / 0.554 GB, free: 45.51 MB / 0.5137 GB
Notification: Performance of NFInst.instantiate(ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance): time 0.3065/0.3065, allocations: 230 MB / 0.7786 GB, free: 1.605 MB / 0.67 GB
Notification: Performance of NFInst.instExpressions: time 0.006603/0.3131, allocations: 2.901 MB / 0.7814 GB, free: 14.7 MB / 0.6856 GB
Notification: Performance of NFInst.updateImplicitVariability: time 0.00164/0.3148, allocations: 95.12 kB / 0.7815 GB, free: 14.6 MB / 0.6856 GB
Notification: Performance of NFTyping.typeComponents: time 0.002657/0.3174, allocations: 0.8182 MB / 0.7823 GB, free: 13.78 MB / 0.6856 GB
Notification: Performance of NFTyping.typeBindings: time 0.004631/0.3221, allocations: 1.451 MB / 0.7837 GB, free: 12.32 MB / 0.6856 GB
Notification: Performance of NFTyping.typeClassSections: time 0.004618/0.3267, allocations: 1.467 MB / 0.7852 GB, free: 10.84 MB / 0.6856 GB
Notification: Performance of NFFlatten.flatten: time 0.004215/0.3309, allocations: 2.458 MB / 0.7876 GB, free: 8.375 MB / 0.6856 GB
Notification: Performance of NFFlatten.resolveConnections: time 0.0009529/0.3319, allocations: 389.4 kB / 0.7879 GB, free: 7.961 MB / 0.6856 GB
Notification: Performance of NFEvalConstants.evaluate: time 0.004722/0.3366, allocations: 1.733 MB / 0.7896 GB, free: 6.223 MB / 0.6856 GB
Notification: Performance of NFSimplifyModel.simplify: time 0.001166/0.3377, allocations: 0.6308 MB / 0.7903 GB, free: 5.59 MB / 0.6856 GB
Notification: Performance of NFPackage.collectConstants: time 0.0002356/0.338, allocations: 128 kB / 0.7904 GB, free: 5.465 MB / 0.6856 GB
Notification: Performance of NFFlatten.collectFunctions: time 0.003455/0.3414, allocations: 1.182 MB / 0.7915 GB, free: 4.281 MB / 0.6856 GB
Notification: Performance of NFScalarize.scalarize: time 0.0003216/0.3418, allocations: 306.5 kB / 0.7918 GB, free: 3.98 MB / 0.6856 GB
Notification: Performance of NFVerifyModel.verify: time 0.0008296/0.3426, allocations: 0.5417 MB / 0.7924 GB, free: 3.438 MB / 0.6856 GB
Notification: Performance of NFConvertDAE.convert: time 0.005461/0.348, allocations: 2.668 MB / 0.795 GB, free: 0.7617 MB / 0.6856 GB
Notification: Performance of FrontEnd - DAE generated: time 7.975e-06/0.3481, allocations: 8 kB / 0.795 GB, free: 0.7539 MB / 0.6856 GB
Notification: Performance of FrontEnd: time 1.894e-06/0.3481, allocations: 0 / 0.795 GB, free: 0.7539 MB / 0.6856 GB
Notification: Performance of Transformations before backend: time 3.207e-05/0.3481, allocations: 0 / 0.795 GB, free: 0.7539 MB / 0.6856 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 289
 * Number of variables: 289
Notification: Performance of Generate backend data structure: time 0.005388/0.3535, allocations: 2.259 MB / 0.7972 GB, free: 14.41 MB / 0.7012 GB
Notification: Performance of prepare preOptimizeDAE: time 4.653e-05/0.3535, allocations: 8.031 kB / 0.7972 GB, free: 14.4 MB / 0.7012 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.0008164/0.3543, allocations: 230.8 kB / 0.7974 GB, free: 14.18 MB / 0.7012 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.002327/0.3567, allocations: 1.044 MB / 0.7984 GB, free: 13.08 MB / 0.7012 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.0001146/0.3568, allocations: 90.22 kB / 0.7985 GB, free: 12.99 MB / 0.7012 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.0002635/0.357, allocations: 127.9 kB / 0.7986 GB, free: 12.87 MB / 0.7012 GB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.002955/0.36, allocations: 1.256 MB / 0.7999 GB, free: 11.55 MB / 0.7012 GB
Notification: Performance of preOpt findStateOrder (simulation): time 2.946e-05/0.36, allocations: 4 kB / 0.7999 GB, free: 11.55 MB / 0.7012 GB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.0001318/0.3602, allocations: 44 kB / 0.7999 GB, free: 11.5 MB / 0.7012 GB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 2.987e-05/0.3602, allocations: 32 kB / 0.7999 GB, free: 11.47 MB / 0.7012 GB
Notification: Performance of preOpt removeEqualRHS (simulation): time 0.002517/0.3627, allocations: 0.9028 MB / 0.8008 GB, free: 10.57 MB / 0.7012 GB
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.006109/0.3688, allocations: 3.155 MB / 0.8039 GB, free: 7.352 MB / 0.7012 GB
Notification: Performance of preOpt comSubExp (simulation): time 0.002113/0.3709, allocations: 0.5971 MB / 0.8045 GB, free: 6.699 MB / 0.7012 GB
Notification: Performance of preOpt resolveLoops (simulation): time 0.0008936/0.3718, allocations: 280.9 kB / 0.8047 GB, free: 6.406 MB / 0.7012 GB
Notification: Performance of preOpt evalFunc (simulation): time 0.0001457/0.372, allocations: 20.3 kB / 0.8048 GB, free: 6.387 MB / 0.7012 GB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.001469/0.3734, allocations: 0.5225 MB / 0.8053 GB, free: 5.816 MB / 0.7012 GB
Notification: Performance of pre-optimization done (n=53): time 2.976e-06/0.3734, allocations: 4 kB / 0.8053 GB, free: 5.812 MB / 0.7012 GB
Notification: Performance of matching and sorting (n=54): time 0.008022/0.3815, allocations: 3.701 MB / 0.8089 GB, free: 2.059 MB / 0.7012 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 0.0002184/0.3817, allocations: 310.6 kB / 0.8092 GB, free: 1.688 MB / 0.7012 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.001256/0.3829, allocations: 0.9029 MB / 0.8101 GB, free: 0.7695 MB / 0.7012 GB
Notification: Performance of collectPreVariables (initialization): time 0.0001074/0.383, allocations: 45.69 kB / 0.8101 GB, free: 0.7188 MB / 0.7012 GB
Notification: Performance of collectInitialEqns (initialization): time 0.3274/0.7105, allocations: 0.7313 MB / 0.8108 GB, free: 232.8 MB / 0.7012 GB
Notification: Performance of collectInitialBindings (initialization): time 0.0003465/0.7108, allocations: 181.5 kB / 0.811 GB, free: 232.8 MB / 0.7012 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.0003736/0.7112, allocations: 186.6 kB / 0.8112 GB, free: 232.8 MB / 0.7012 GB
Notification: Performance of setup shared object (initialization): time 7.161e-05/0.7113, allocations: 334.2 kB / 0.8115 GB, free: 232.5 MB / 0.7012 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.00112/0.7124, allocations: 483.8 kB / 0.812 GB, free: 232.3 MB / 0.7012 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.001022/0.7134, allocations: 0.6528 MB / 0.8126 GB, free: 231.9 MB / 0.7012 GB
Notification: Performance of analyzeInitialSystem (initialization): time 0.001831/0.7152, allocations: 0.9092 MB / 0.8135 GB, free: 231.5 MB / 0.7012 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 6.242e-06/0.7152, allocations: 2.969 kB / 0.8135 GB, free: 231.5 MB / 0.7012 GB
Notification: Performance of matching and sorting (n=99) (initialization): time 0.002751/0.718, allocations: 1.365 MB / 0.8148 GB, free: 230.9 MB / 0.7012 GB
Notification: Performance of prepare postOptimizeDAE: time 7.291e-05/0.7181, allocations: 179.5 kB / 0.815 GB, free: 230.7 MB / 0.7012 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 1.25e-05/0.7181, allocations: 4.969 kB / 0.815 GB, free: 230.7 MB / 0.7012 GB
Notification: Performance of postOpt tearingSystem (initialization): time 3.179e-05/0.7181, allocations: 10.41 kB / 0.815 GB, free: 230.7 MB / 0.7012 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.0008118/0.7189, allocations: 222 kB / 0.8152 GB, free: 230.7 MB / 0.7012 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 1.573e-05/0.7189, allocations: 11.94 kB / 0.8152 GB, free: 230.7 MB / 0.7012 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.0009558/0.7199, allocations: 107.1 kB / 0.8153 GB, free: 230.7 MB / 0.7012 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.0001336/0.72, allocations: 87.58 kB / 0.8154 GB, free: 230.7 MB / 0.7012 GB
Notification: Model statistics after passing the back-end for initialization:
 * Number of independent subsystems: 24
 * Number of states: 0 ()
 * Number of discrete variables: 30 (m_flow_pulse4.count,$PRE.m_flow_pulse4.count,m_flow_pulse4.T_start,$PRE.m_flow_pulse4.T_start,m_flow_pulse3.count,$PRE.m_flow_pulse3.count,m_flow_pulse3.T_start,$PRE.m_flow_pulse3.T_start,$whenCondition5,$whenCondition6,m_flow_pulse2.count,$PRE.m_flow_pulse2.count,m_flow_pulse2.T_start,$PRE.m_flow_pulse2.T_start,m_flow_pulse1.count,$PRE.m_flow_pulse1.count,m_flow_pulse1.T_start,$PRE.m_flow_pulse1.T_start,$whenCondition3,$whenCondition4,m_flow_pulse6.count,$PRE.m_flow_pulse6.count,m_flow_pulse6.T_start,$PRE.m_flow_pulse6.T_start,m_flow_pulse5.count,$PRE.m_flow_pulse5.count,m_flow_pulse5.T_start,$PRE.m_flow_pulse5.T_start,$whenCondition1,$whenCondition2)
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for initialization (93):
 * Single equations (assignments): 87
 * Array equations: 0
 * Algorithm blocks: 6
 * Record equations: 0
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 0
 * Torn equation systems: 0
 * Mixed (continuous/discrete) equation systems: 0
Notification: Performance of prepare postOptimizeDAE: time 0.0005402/0.7206, allocations: 295.4 kB / 0.8157 GB, free: 230.5 MB / 0.7012 GB
Notification: Performance of postOpt lateInlineFunction (simulation): time 0.0001897/0.7207, allocations: 123.7 kB / 0.8158 GB, free: 230.5 MB / 0.7012 GB
Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.00179/0.7225, allocations: 1.278 MB / 0.8171 GB, free: 230.2 MB / 0.7012 GB
Notification: Performance of postOpt inlineArrayEqn (simulation): time 8.476e-06/0.7225, allocations: 6.734 kB / 0.8171 GB, free: 230.2 MB / 0.7012 GB
Notification: Performance of postOpt constantLinearSystem (simulation): time 9.208e-06/0.7226, allocations: 6.781 kB / 0.8171 GB, free: 230.2 MB / 0.7012 GB
Notification: Performance of postOpt simplifysemiLinear (simulation): time 9.418e-06/0.7226, allocations: 6.016 kB / 0.8171 GB, free: 230.2 MB / 0.7012 GB
Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.001659/0.7242, allocations: 1.514 MB / 0.8186 GB, free: 229.2 MB / 0.7012 GB
Notification: Performance of postOpt simplifyComplexFunction (simulation): time 4.418e-06/0.7242, allocations: 0 / 0.8186 GB, free: 229.2 MB / 0.7012 GB
Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.0006351/0.7249, allocations: 137.6 kB / 0.8187 GB, free: 229.2 MB / 0.7012 GB
Notification: Performance of postOpt tearingSystem (simulation): time 7.424e-06/0.7249, allocations: 2.312 kB / 0.8187 GB, free: 229.2 MB / 0.7012 GB
Notification: Performance of postOpt inputDerivativesUsed (simulation): time 5.442e-05/0.7249, allocations: 32.25 kB / 0.8187 GB, free: 229.2 MB / 0.7012 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 6.533e-06/0.7249, allocations: 6.078 kB / 0.8187 GB, free: 229.2 MB / 0.7012 GB
Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 2.885e-06/0.7249, allocations: 7.578 kB / 0.8187 GB, free: 229.2 MB / 0.7012 GB
Notification: Performance of postOpt symbolicJacobian (simulation): time 0.002699/0.7276, allocations: 1.059 MB / 0.8198 GB, free: 228.8 MB / 0.7012 GB
Notification: Performance of postOpt removeConstants (simulation): time 0.0001778/0.7278, allocations: 101.8 kB / 0.8199 GB, free: 228.8 MB / 0.7012 GB
Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.0001895/0.728, allocations: 19.25 kB / 0.8199 GB, free: 228.8 MB / 0.7012 GB
Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.0006597/0.7287, allocations: 73.84 kB / 0.82 GB, free: 228.8 MB / 0.7012 GB
Notification: Performance of postOpt findZeroCrossings (simulation): time 0.0002369/0.7289, allocations: 101.9 kB / 0.8201 GB, free: 228.7 MB / 0.7012 GB
Notification: Performance of postOpt collapseArrayExpressions (simulation): time 7.183e-05/0.729, allocations: 44.36 kB / 0.8201 GB, free: 228.7 MB / 0.7012 GB
Notification: Performance of sorting global known variables: time 0.000654/0.7296, allocations: 0.615 MB / 0.8207 GB, free: 228.5 MB / 0.7012 GB
Notification: Performance of sort global known variables: time 7e-08/0.7296, allocations: 0 / 0.8207 GB, free: 228.5 MB / 0.7012 GB
Notification: Performance of remove unused functions: time 0.0012/0.7308, allocations: 350.7 kB / 0.821 GB, free: 228.4 MB / 0.7012 GB
Notification: Model statistics after passing the back-end for simulation:
 * Number of independent subsystems: 10
 * Number of states: 3 (firstOrder2.y,firstOrder1.y,firstOrder4.y)
 * Number of discrete variables: 18 ($whenCondition2,$whenCondition1,m_flow_pulse5.T_start,m_flow_pulse5.count,m_flow_pulse6.T_start,m_flow_pulse6.count,$whenCondition4,$whenCondition3,m_flow_pulse1.T_start,m_flow_pulse1.count,m_flow_pulse2.T_start,m_flow_pulse2.count,$whenCondition6,$whenCondition5,m_flow_pulse3.T_start,m_flow_pulse3.count,m_flow_pulse4.T_start,m_flow_pulse4.count)
 * Number of discrete states: 6 (m_flow_pulse4.count,m_flow_pulse3.count,m_flow_pulse2.count,m_flow_pulse1.count,m_flow_pulse6.count,m_flow_pulse5.count)
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for simulation (47):
 * Single equations (assignments): 35
 * Array equations: 0
 * Algorithm blocks: 0
 * Record equations: 0
 * When equations: 12
 * If-equations: 0
 * Equation systems (not torn): 0
 * Torn equation systems: 0
 * Mixed (continuous/discrete) equation systems: 0
Notification: Performance of Backend phase and start with SimCode phase: time 0.0006676/0.7315, allocations: 456.5 kB / 0.8215 GB, free: 228.3 MB / 0.7012 GB
Notification: Performance of simCode: created initialization part: time 0.002394/0.7339, allocations: 1.183 MB / 0.8226 GB, free: 227.6 MB / 0.7012 GB
Notification: Performance of simCode: created event and clocks part: time 4.067e-06/0.7339, allocations: 0 / 0.8226 GB, free: 227.6 MB / 0.7012 GB
Notification: Performance of simCode: created simulation system equations: time 0.00115/0.735, allocations: 378.4 kB / 0.823 GB, free: 227.5 MB / 0.7012 GB
Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.0019/0.7369, allocations: 395.3 kB / 0.8234 GB, free: 227.4 MB / 0.7012 GB
Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 0.003556/0.7405, allocations: 1.988 MB / 0.8253 GB, free: 226.3 MB / 0.7012 GB
Notification: Performance of simCode: some other stuff during SimCode phase: time 0.0005193/0.741, allocations: 0.5571 MB / 0.8258 GB, free: 226.2 MB / 0.7012 GB
Notification: Performance of simCode: alias equations: time 0.002072/0.7431, allocations: 1.117 MB / 0.8269 GB, free: 226 MB / 0.7012 GB
Notification: Performance of simCode: all other stuff during SimCode phase: time 0.0005599/0.7436, allocations: 197.5 kB / 0.8271 GB, free: 226 MB / 0.7012 GB
Notification: Performance of SimCode: time 1.603e-06/0.7436, allocations: 0 / 0.8271 GB, free: 226 MB / 0.7012 GB
Notification: Performance of Templates: time 0.03898/0.7826, allocations: 19.63 MB / 0.8463 GB, free: 221.5 MB / 0.7012 GB
"
[Timeout remaining time 659]
make -j1 -f ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.makefile [Timeout 660]
(rm -f ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.pipe ; mkfifo ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.pipe ; head -c 1048576 < ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.pipe >> ../files/ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.sim & ./ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance  -abortSlowSimulation -alarm=1200  -emit_protected -lv LOG_STATS > ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.pipe 2>&1) [Timeout 1200]
diffSimulationResults("ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat","/mnt/ReferenceFiles/ThermofluidStream-main-regression/ReferenceData/ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_ref.mat","/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/files/ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance.diff",relTol=0.003,relTolDiffMinMax=0.003,rangeDelta=0.001) [Timeout 660]
"Error: Could not read variable CPUtime in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable CPUtime from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable EventCounter in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable EventCounter from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0 in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.H0 from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Hf from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.MM from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.R_s from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.Tlimit from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.ahigh[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.alow[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.bhigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.Air.DryAirNasa.data.blow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0 in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.H0 from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Hf from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.MM from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.R_s from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.Tlimit from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.ahigh[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[3] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[3] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[4] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[4] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[5] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[5] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[6] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[6] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[7] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.alow[7] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.bhigh[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[1] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[1] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[2] in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable _GlobalScope.ThermofluidStream.Media.myMedia.IdealGases.Common.SingleGasesData.Air.blow[2] from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable massFlowRateA1.m_flow_fixed in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable massFlowRateA1.m_flow_fixed from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable massFlowRateA2.m_flow_fixed in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable massFlowRateA2.m_flow_fixed from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable massFlowRateA3.m_flow_fixed in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable massFlowRateA3.m_flow_fixed from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable massFlowRateB1.m_flow_fixed in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable massFlowRateB1.m_flow_fixed from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable massFlowRateB2.m_flow_fixed in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable massFlowRateB2.m_flow_fixed from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable massFlowRateB4.m_flow_fixed in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable massFlowRateB4.m_flow_fixed from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable massFlowRateC4.m_flow_fixed in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable massFlowRateC4.m_flow_fixed from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable sinkA1.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable sinkA1.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable sinkA2.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable sinkA2.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable sinkA3.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable sinkA3.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
Error: Could not read variable sinkC4.inlet.der(m_flow) in file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat.
Warning: Get data of variable sinkC4.inlet.der(m_flow) from file ThermofluidStream_dev_ThermofluidStream.Idealized.Tests.Topology.SplitterNeglectInertance_res.mat failed!
"
[Timeout remaining time 660]
Reference file matches
[Calling sys.exit(0), Time elapsed: 7.59963496774435]