Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006.conf.json
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false)
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo", uses=false)
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo", uses=false)
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 10.1.1-maint.10.0.x/package.mo", uses=false)
Using package Buildings with version 10.1.1 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 10.1.1-maint.10.0.x/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: "" <> buildModelFMU(Buildings.Examples.VAVReheat.ASHRAE2006,fileNamePrefix="Buildings_10_Buildings_Examples_VAVReheat_ASHRAE2006",fmuType="me",version="2.0",platforms={"static"})
"" <> buildModelFMU(Buildings.Examples.VAVReheat.ASHRAE2006,fileNamePrefix="Buildings_10_Buildings_Examples_VAVReheat_ASHRAE2006",fmuType="me",version="2.0",platforms={"static"})
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.001387/0.001387, allocations: 108 kB / 15.6 MB, free: 132 kB / 14.72 MB
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.001644/0.001645, allocations: 194.7 kB / 16.53 MB, free: 6.391 MB / 14.72 MB
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo): time 1.337/1.337, allocations: 222.9 MB / 240.2 MB, free: 4.402 MB / 190.1 MB
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 10.1.1-maint.10.0.x/package.mo): time 2.515/2.515, allocations: 437 MB / 0.7104 GB, free: 5.102 MB / 0.5606 GB
Notification: Performance of FrontEnd - loaded program: time 0.001275/0.001275, allocations: 55.91 kB / 0.8693 GB, free: 4.586 MB / 0.7169 GB
Notification: Performance of FrontEnd - Absyn->SCode: time 0.6576/0.6589, allocations: 151.6 MB / 1.017 GB, free: 2.5 MB / 0.7637 GB
Notification: Performance of NFInst.instantiate(Buildings.Examples.VAVReheat.ASHRAE2006): time 5.586/6.244, allocations: 2.112 GB / 3.129 GB, free: 44.95 MB / 1.873 GB
Notification: Performance of NFInst.instExpressions: time 0.3714/6.616, allocations: 235.1 MB / 3.359 GB, free: 38.96 MB / 1.873 GB
Notification: Performance of NFInst.updateImplicitVariability: time 0.09164/6.708, allocations: 1.93 MB / 3.361 GB, free: 38.96 MB / 1.873 GB
Notification: Performance of NFTyping.typeComponents: time 0.09234/6.8, allocations: 43.08 MB / 3.403 GB, free: 29.87 MB / 1.873 GB
Notification: Performance of NFTyping.typeBindings: time 0.1563/6.956, allocations: 51.08 MB / 3.453 GB, free: 15.82 MB / 1.873 GB
Notification: Performance of NFTyping.typeClassSections: time 0.09085/7.047, allocations: 36.52 MB / 3.488 GB, free: 8.016 MB / 1.889 GB
Notification: Performance of NFFlatten.flatten: time 0.285/7.332, allocations: 238.9 MB / 3.722 GB, free: 13.76 MB / 2.076 GB
Notification: Performance of NFFlatten.resolveConnections: time 2.627/9.96, allocations: 106.8 MB / 3.826 GB, free: 60.43 MB / 2.154 GB
Notification: Performance of NFEvalConstants.evaluate: time 0.1646/10.12, allocations: 86.57 MB / 3.91 GB, free: 53.66 MB / 2.154 GB
Notification: Performance of NFSimplifyModel.simplify: time 0.1258/10.25, allocations: 78.01 MB / 3.987 GB, free: 41.94 MB / 2.154 GB
Notification: Performance of NFPackage.collectConstants: time 0.05986/10.31, allocations: 16.66 MB / 4.003 GB, free: 41.94 MB / 2.154 GB
Notification: Performance of NFFlatten.collectFunctions: time 0.1098/10.42, allocations: 38.95 MB / 4.041 GB, free: 41.93 MB / 2.154 GB
Notification: Performance of NFScalarize.scalarize: time 0.07977/10.5, allocations: 49.31 MB / 4.089 GB, free: 37.21 MB / 2.154 GB
Notification: Performance of NFVerifyModel.verify: time 0.1539/10.65, allocations: 78.69 MB / 4.166 GB, free: 18.6 MB / 2.154 GB
Notification: Performance of NFConvertDAE.convert: time 0.3274/10.98, allocations: 273.2 MB / 4.433 GB, free: 14.48 MB / 2.311 GB
Notification: Performance of FrontEnd - DAE generated: time 7.253e-06/10.98, allocations: 0 / 4.433 GB, free: 14.48 MB / 2.311 GB
Notification: Performance of FrontEnd: time 1.402e-06/10.98, allocations: 0 / 4.433 GB, free: 14.48 MB / 2.311 GB
Notification: Performance of Transformations before backend: time 0.006178/10.99, allocations: 3.938 kB / 4.433 GB, free: 14.48 MB / 2.311 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 11484
 * Number of variables: 11484
Notification: Performance of Generate backend data structure: time 0.5113/11.5, allocations: 168.7 MB / 4.597 GB, free: 6.688 MB / 2.467 GB
Notification: Performance of prepare preOptimizeDAE: time 4.871e-05/11.5, allocations: 12.03 kB / 4.597 GB, free: 6.676 MB / 2.467 GB
Notification: Performance of preOpt introduceOutputAliases (simulation): time 0.02462/11.52, allocations: 5.947 MB / 4.603 GB, free: 0.7344 MB / 2.467 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.1694/11.69, allocations: 30.21 MB / 4.633 GB, free: 2.379 MB / 2.498 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 1.72/13.41, allocations: 1.312 GB / 5.944 GB, free: 184.6 MB / 2.498 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.00982/13.42, allocations: 7.669 MB / 5.952 GB, free: 176.4 MB / 2.498 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.0265/13.45, allocations: 5.423 MB / 5.957 GB, free: 171 MB / 2.498 GB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.1875/13.64, allocations: 79.08 MB / 6.034 GB, free: 90.62 MB / 2.498 GB
Notification: Performance of preOpt findStateOrder (simulation): time 0.001787/13.64, allocations: 83.16 kB / 6.035 GB, free: 90.54 MB / 2.498 GB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.01699/13.66, allocations: 1.841 MB / 6.036 GB, free: 88.71 MB / 2.498 GB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 0.001414/13.66, allocations: 1.703 MB / 6.038 GB, free: 87.01 MB / 2.498 GB
Notification: Performance of preOpt removeEqualRHS (simulation): time 0.1775/13.83, allocations: 76.42 MB / 6.113 GB, free: 10.81 MB / 2.498 GB
Warning: The model contains alias variables with redundant start and/or conflicting nominal values. It is recommended to resolve the conflicts, because otherwise the system could be hard to solve. To print the conflicting alias sets and the chosen candidates please use -d=aliasConflicts.
Notification: Performance of preOpt removeSimpleEquations (simulation): time 1.632/15.47, allocations: 0.7077 GB / 6.82 GB, free: 0.7734 GB / 2.498 GB
Notification: Performance of preOpt comSubExp (simulation): time 0.1059/15.57, allocations: 60.69 MB / 6.88 GB, free: 0.7143 GB / 2.498 GB
Notification: Performance of preOpt resolveLoops (simulation): time 0.06167/15.63, allocations: 33.81 MB / 6.913 GB, free: 0.6813 GB / 2.498 GB
Warning: The model contains alias variables with redundant start and/or conflicting nominal values. It is recommended to resolve the conflicts, because otherwise the system could be hard to solve. To print the conflicting alias sets and the chosen candidates please use -d=aliasConflicts.
Notification: Performance of preOpt evalFunc (simulation): time 0.4213/16.06, allocations: 176.7 MB / 7.085 GB, free: 0.5098 GB / 2.498 GB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.06837/16.12, allocations: 34.37 MB / 7.119 GB, free: 487.5 MB / 2.498 GB
Notification: Performance of preOpt simplifyInStream (simulation): time 0.06798/16.19, allocations: 10.14 MB / 7.129 GB, free: 478.4 MB / 2.498 GB
Notification: Performance of pre-optimization done (n=3037): time 0.0001871/16.19, allocations: 0 / 7.129 GB, free: 478.4 MB / 2.498 GB
Notification: Performance of matching and sorting (n=3049): time 1.281/17.47, allocations: 426.2 MB / 7.545 GB, free: 51.11 MB / 2.498 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 0.001081/17.47, allocations: 2.241 MB / 7.547 GB, free: 48.55 MB / 2.498 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 3.945/21.42, allocations: 1.612 GB / 9.159 GB, free: 1.123 GB / 2.498 GB
Notification: Performance of collectPreVariables (initialization): time 0.01468/21.43, allocations: 1.178 MB / 9.16 GB, free: 1.122 GB / 2.498 GB
Notification: Performance of collectInitialEqns (initialization): time 0.1053/21.54, allocations: 57.14 MB / 9.216 GB, free: 1.083 GB / 2.498 GB
Notification: Performance of collectInitialBindings (initialization): time 0.01968/21.56, allocations: 10.39 MB / 9.226 GB, free: 1.08 GB / 2.498 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.07298/21.63, allocations: 13.25 MB / 9.239 GB, free: 1.075 GB / 2.498 GB
Notification: Performance of setup shared object (initialization): time 5.227e-05/21.63, allocations: 302.3 kB / 9.24 GB, free: 1.075 GB / 2.498 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.09861/21.73, allocations: 52.93 MB / 9.291 GB, free: 1.056 GB / 2.498 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.1181/21.85, allocations: 70.13 MB / 9.36 GB, free: 0.9999 GB / 2.498 GB
Notification: It was not possible to check the given initialization system for consistency symbolically, because the relevant equations are part of an algebraic loop. This is not supported yet.
Notification: Performance of analyzeInitialSystem (initialization): time 1.56/23.41, allocations: 475.5 MB / 9.824 GB, free: 0.5517 GB / 2.498 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 0.0004116/23.41, allocations: 108 kB / 9.824 GB, free: 0.5516 GB / 2.498 GB
Notification: Performance of matching and sorting (n=6893) (initialization): time 0.3216/23.73, allocations: 137.6 MB / 9.959 GB, free: 431.1 MB / 2.498 GB
Notification: Performance of prepare postOptimizeDAE: time 0.001007/23.73, allocations: 0.7484 MB / 9.959 GB, free: 430.3 MB / 2.498 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.2423/23.97, allocations: 109.6 MB / 10.07 GB, free: 320.5 MB / 2.498 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.03266/24.01, allocations: 10.63 MB / 10.08 GB, free: 309.8 MB / 2.498 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.0758/24.08, allocations: 14.78 MB / 10.09 GB, free: 295 MB / 2.498 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.06384/24.15, allocations: 75.24 MB / 10.16 GB, free: 216.2 MB / 2.498 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.1195/24.27, allocations: 9.158 MB / 10.17 GB, free: 207.1 MB / 2.498 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.01997/24.29, allocations: 2.428 MB / 10.18 GB, free: 204.6 MB / 2.498 GB
Warning: The initial conditions are over specified. The following 5 initial equations are redundant, so they are removed from the initialization system:
         hvac.cooCoi.heaCooHum_u.vol.dynBal.medium.p = hvac.cooCoi.heaCooHum_u.vol.dynBal.p_start
         flo.sou.air.vol.dynBal.medium.p = flo.sou.air.vol.dynBal.p_start
         flo.eas.air.vol.dynBal.medium.p = flo.eas.air.vol.dynBal.p_start
         flo.nor.air.vol.dynBal.medium.p = flo.nor.air.vol.dynBal.p_start
         flo.wes.air.vol.dynBal.medium.p = flo.wes.air.vol.dynBal.p_start.
Notification: Performance of preBalanceInitialSystem (initialization_lambda0): time 0.186/24.47, allocations: 102.9 MB / 10.28 GB, free: 101.6 MB / 2.498 GB
Notification: Performance of partitionIndependentBlocks (initialization_lambda0): time 0.9566/25.43, allocations: 69.04 MB / 10.34 GB, free: 1.151 GB / 2.498 GB
Notification: It was not possible to check the given initialization system for consistency symbolically, because the relevant equations are part of an algebraic loop. This is not supported yet.
Notification: Performance of analyzeInitialSystem (initialization_lambda0): time 1.564/26.99, allocations: 470 MB / 10.8 GB, free: 0.9272 GB / 2.498 GB
Notification: Performance of solveInitialSystemEqSystem (initialization_lambda0): time 0.0008264/26.99, allocations: 104 kB / 10.8 GB, free: 0.9271 GB / 2.498 GB
Notification: Performance of matching and sorting (n=6893) (initialization_lambda0): time 0.3198/27.31, allocations: 136.5 MB / 10.94 GB, free: 0.7988 GB / 2.498 GB
Notification: Performance of prepare postOptimizeDAE: time 0.0009647/27.31, allocations: 0.7458 MB / 10.94 GB, free: 0.798 GB / 2.498 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.2291/27.54, allocations: 108.5 MB / 11.04 GB, free: 0.6919 GB / 2.498 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.03072/27.57, allocations: 10.33 MB / 11.05 GB, free: 0.6817 GB / 2.498 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.07098/27.65, allocations: 14.49 MB / 11.07 GB, free: 0.6675 GB / 2.498 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.09201/27.74, allocations: 110.7 MB / 11.18 GB, free: 0.5555 GB / 2.498 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.1101/27.85, allocations: 9.39 MB / 11.18 GB, free: 0.5464 GB / 2.498 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.01623/27.86, allocations: 2.385 MB / 11.19 GB, free: 0.5441 GB / 2.498 GB
Warning: The initial conditions are over specified. The following 5 initial equations are redundant, so they are removed from the initialization_lambda0 system:
         hvac.cooCoi.heaCooHum_u.vol.dynBal.medium.p = hvac.cooCoi.heaCooHum_u.vol.dynBal.p_start
         flo.sou.air.vol.dynBal.medium.p = flo.sou.air.vol.dynBal.p_start
         flo.eas.air.vol.dynBal.medium.p = flo.eas.air.vol.dynBal.p_start
         flo.nor.air.vol.dynBal.medium.p = flo.nor.air.vol.dynBal.p_start
         flo.wes.air.vol.dynBal.medium.p = flo.wes.air.vol.dynBal.p_start.
Notification: Model statistics after passing the back-end for initialization:
 * Number of independent subsystems: 1676
 * Number of states: 0 ()
 * Number of discrete variables: 628 ($PRE.hvac.modeSelector.start.enableFire,$PRE.hvac.modeSelector.t2.enableFire,$PRE.hvac.modeSelector.t1.enableFire,$PRE.hvac.modeSelector.t6.enableFire,$PRE.hvac.modeSelector.t5.enableFire,$PRE.hvac.modeSelector.t3.enableFire,$PRE.hvac.modeSelector.t4.enableFire,$PRE.hvac.modeSelector.t7.enableFire,$PRE.hvac.modeSelector.t9.enableFire,$PRE.hvac.modeSelector.t8.enableFire,$PRE.hvac.sysHysHea.truFalHol1.onDel1.u,$PRE.hvac.sysHysHea.truFalHol1.onDel2.u,$PRE.hvac.sysHysHea.truFalHol1.toTrue.enableFire,$PRE.hvac.sysHysHea.truFalHol1.toFalse.enableFire,$PRE.hvac.sysHysHea.truFalHol1.toTrue1.enableFire,$PRE.hvac.sysHysHea.truFalHol1.toFalse1.enableFire,$PRE.hvac.sysHysHea.truDel.u,$PRE.hvac.sysHysCoo.truFalHol1.onDel1.u,$PRE.hvac.sysHysCoo.truFalHol1.onDel2.u,$PRE.hvac.sysHysCoo.truFalHol1.toTrue.enableFire,$PRE.hvac.sysHysCoo.truFalHol1.toFalse.enableFire,$PRE.hvac.sysHysCoo.truFalHol1.toTrue1.enableFire,$PRE.hvac.sysHysCoo.truFalHol1.toFalse1.enableFire,$PRE.hvac.sysHysCoo.truDel.u,$PRE.hvac.freSta.locOut.u,hvac.sysHysCoo.truFalHol1.toFalse1.t_start,$PRE.hvac.sysHysCoo.truFalHol1.toFalse1.t_start,hvac.sysHysCoo.truFalHol1.toTrue1.t_start,$PRE.hvac.sysHysCoo.truFalHol1.toTrue1.t_start,hvac.sysHysCoo.truFalHol1.toFalse.t_start,$PRE.hvac.sysHysCoo.truFalHol1.toFalse.t_start,hvac.sysHysCoo.truFalHol1.toTrue.t_start,$PRE.hvac.sysHysCoo.truFalHol1.toTrue.t_start,hvac.sysHysHea.truFalHol1.toFalse1.t_start,$PRE.hvac.sysHysHea.truFalHol1.toFalse1.t_start,hvac.sysHysHea.truFalHol1.toTrue1.t_start,$PRE.hvac.sysHysHea.truFalHol1.toTrue1.t_start,hvac.sysHysHea.truFalHol1.toFalse.t_start,$PRE.hvac.sysHysHea.truFalHol1.toFalse.t_start,hvac.sysHysHea.truFalHol1.toTrue.t_start,$PRE.hvac.sysHysHea.truFalHol1.toTrue.t_start,hvac.modeSelector.t8.t_start,$PRE.hvac.modeSelector.t8.t_start,hvac.modeSelector.t9.t_start,$PRE.hvac.modeSelector.t9.t_start,hvac.modeSelector.t7.t_start,$PRE.hvac.modeSelector.t7.t_start,hvac.modeSelector.t4.t_start,$PRE.hvac.modeSelector.t4.t_start,hvac.modeSelector.t3.t_start,$PRE.hvac.modeSelector.t3.t_start,hvac.modeSelector.t5.t_start,$PRE.hvac.modeSelector.t5.t_start,hvac.modeSelector.start.t_start,$PRE.hvac.modeSelector.start.t_start,flo.wes.irRadExc.Q_flow[10],$PRE.flo.wes.irRadExc.Q_flow[10],flo.nor.irRadExc.Q_flow[10],$PRE.flo.nor.irRadExc.Q_flow[10],flo.eas.irRadExc.Q_flow[10],$PRE.flo.eas.irRadExc.Q_flow[10],flo.sou.irRadExc.Q_flow[10],$PRE.flo.sou.irRadExc.Q_flow[10],$PRE.flo.intGaiFra.nextTimeEvent,$whenCondition39,$whenCondition38,$whenCondition37,$whenCondition34,$whenCondition31,$whenCondition28,$PRE.hvac.freSta.locOut.t_next,$whenCondition23,$PRE.hvac.sysHysCoo.truDel.t_next,$whenCondition20,$PRE.hvac.sysHysCoo.truFalHol1.onDel2.t_next,$whenCondition17,$PRE.hvac.sysHysCoo.truFalHol1.onDel1.t_next,$whenCondition14,$PRE.hvac.sysHysHea.truDel.t_next,$whenCondition11,$PRE.hvac.sysHysHea.truFalHol1.onDel2.t_next,$whenCondition8,$PRE.hvac.sysHysHea.truFalHol1.onDel1.t_next,$whenCondition5,hvac.freSta.locOut.t_next,hvac.sysHysCoo.truDel.t_next,hvac.sysHysCoo.truFalHol1.onDel2.t_next,hvac.sysHysCoo.truFalHol1.onDel1.t_next,hvac.sysHysHea.truDel.t_next,hvac.sysHysHea.truFalHol1.onDel2.t_next,hvac.sysHysHea.truFalHol1.onDel1.t_next,hvac.sysHysCoo.truFalHol1.stateGraphRoot.resume,hvac.sysHysCoo.truFalHol1.stateGraphRoot.suspend,hvac.sysHysHea.truFalHol1.stateGraphRoot.resume,hvac.sysHysHea.truFalHol1.stateGraphRoot.suspend,hvac.modeSelector.stateGraphRoot.resume,hvac.modeSelector.stateGraphRoot.suspend,hvac.modeSelector.start.condition,hvac.conVAV[5].conDam.con1.y,hvac.conVAV[5].conCoo.con1.y,hvac.conVAV[5].conHea.con1.y,hvac.conVAV[4].conDam.con1.y,hvac.conVAV[4].conCoo.con1.y,hvac.conVAV[4].conHea.con1.y,hvac.conVAV[3].conDam.con1.y,hvac.conVAV[3].conCoo.con1.y,hvac.conVAV[3].conHea.con1.y,hvac.conVAV[2].conDam.con1.y,hvac.conVAV[2].conCoo.con1.y,hvac.conVAV[2].conHea.con1.y,hvac.conVAV[1].conDam.con1.y,hvac.conVAV[1].conCoo.con1.y,hvac.conVAV[1].conHea.con1.y,hvac.conEco.yOATFre.con1.y,hvac.conEco.conV_flow.con1.y,$PRE.flo.sou.irRadExc.G[1],$PRE.flo.sou.irRadExc.G[2],$PRE.flo.sou.irRadExc.G[3],$PRE.flo.sou.irRadExc.G[4],$PRE.flo.sou.irRadExc.G[5],$PRE.flo.sou.irRadExc.G[6],$PRE.flo.sou.irRadExc.G[7],$PRE.flo.sou.irRadExc.G[8],$PRE.flo.sou.irRadExc.G[9],$PRE.flo.sou.irRadExc.G[10],$PRE.flo.eas.irRadExc.G[1],$PRE.flo.eas.irRadExc.G[2],$PRE.flo.eas.irRadExc.G[3],$PRE.flo.eas.irRadExc.G[4],$PRE.flo.eas.irRadExc.G[5],$PRE.flo.eas.irRadExc.G[6],$PRE.flo.eas.irRadExc.G[7],$PRE.flo.eas.irRadExc.G[8],$PRE.flo.eas.irRadExc.G[9],$PRE.flo.eas.irRadExc.G[10],$PRE.flo.nor.irRadExc.G[1],$PRE.flo.nor.irRadExc.G[2],$PRE.flo.nor.irRadExc.G[3],$PRE.flo.nor.irRadExc.G[4],$PRE.flo.nor.irRadExc.G[5],$PRE.flo.nor.irRadExc.G[6],$PRE.flo.nor.irRadExc.G[7],$PRE.flo.nor.irRadExc.G[8],$PRE.flo.nor.irRadExc.G[9],$PRE.flo.nor.irRadExc.G[10],$PRE.flo.wes.irRadExc.G[1],$PRE.flo.wes.irRadExc.G[2],$PRE.flo.wes.irRadExc.G[3],$PRE.flo.wes.irRadExc.G[4],$PRE.flo.wes.irRadExc.G[5],$PRE.flo.wes.irRadExc.G[6],$PRE.flo.wes.irRadExc.G[7],$PRE.flo.wes.irRadExc.G[8],$PRE.flo.wes.irRadExc.G[9],$PRE.flo.wes.irRadExc.G[10],$PRE.flo.cor.irRadExc.G[1],$PRE.flo.cor.irRadExc.G[2],$PRE.flo.cor.irRadExc.G[3],$PRE.flo.cor.irRadExc.G[4],$PRE.flo.cor.irRadExc.G[5],$PRE.flo.cor.irRadExc.G[6],$PRE.flo.cor.irRadExc.G[7],$PRE.flo.cor.irRadExc.G[8],hvac.heaCoi.flowRegime_nominal,hvac.heaCoi.flowRegime,hvac.VAVBox[1].terHea.flowRegime_nominal,hvac.VAVBox[1].terHea.flowRegime,hvac.VAVBox[2].terHea.flowRegime_nominal,hvac.VAVBox[2].terHea.flowRegime,hvac.VAVBox[3].terHea.flowRegime_nominal,hvac.VAVBox[3].terHea.flowRegime,hvac.VAVBox[4].terHea.flowRegime_nominal,hvac.VAVBox[4].terHea.flowRegime,hvac.VAVBox[5].terHea.flowRegime_nominal,hvac.VAVBox[5].terHea.flowRegime,hvac.cooCoi.flowRegime_nominal,hvac.cooCoi.dryWetCalcs.fullyDry.cfg,hvac.cooCoi.dryWetCalcs.fullyWet.cfg,hvac.cooCoi.dryWetCalcs.cfg,hvac.cooCoi.flowRegime,flo.wes.solRadExc.is_flo[11],flo.wes.solRadExc.is_flo[10],flo.wes.solRadExc.is_flo[9],flo.wes.solRadExc.is_flo[8],flo.wes.solRadExc.is_flo[7],flo.wes.solRadExc.is_flo[6],flo.wes.solRadExc.is_flo[5],flo.wes.solRadExc.is_flo[4],flo.wes.solRadExc.is_flo[3],flo.wes.solRadExc.is_flo[2],flo.wes.solRadExc.is_flo[1],flo.nor.solRadExc.is_flo[12],flo.nor.solRadExc.is_flo[11],flo.nor.solRadExc.is_flo[10],flo.nor.solRadExc.is_flo[9],flo.nor.solRadExc.is_flo[8],flo.nor.solRadExc.is_flo[7],flo.nor.solRadExc.is_flo[6],flo.nor.solRadExc.is_flo[5],flo.nor.solRadExc.is_flo[4],flo.nor.solRadExc.is_flo[3],flo.nor.solRadExc.is_flo[2],flo.nor.solRadExc.is_flo[1],flo.eas.solRadExc.is_flo[11],flo.eas.solRadExc.is_flo[10],flo.eas.solRadExc.is_flo[9],flo.eas.solRadExc.is_flo[8],flo.eas.solRadExc.is_flo[7],flo.eas.solRadExc.is_flo[6],flo.eas.solRadExc.is_flo[5],flo.eas.solRadExc.is_flo[4],flo.eas.solRadExc.is_flo[3],flo.eas.solRadExc.is_flo[2],flo.eas.solRadExc.is_flo[1],flo.sou.solRadExc.is_flo[12],flo.sou.solRadExc.is_flo[11],flo.sou.solRadExc.is_flo[10],flo.sou.solRadExc.is_flo[9],flo.sou.solRadExc.is_flo[8],flo.sou.solRadExc.is_flo[7],flo.sou.solRadExc.is_flo[6],flo.sou.solRadExc.is_flo[5],flo.sou.solRadExc.is_flo[4],flo.sou.solRadExc.is_flo[3],flo.sou.solRadExc.is_flo[2],flo.sou.solRadExc.is_flo[1],hvac.cooCoi.UAFroRated.isFulWet,hvac.cooCoi.UAFroRated.isFulDry,$PRE.hvac.freSta.greThr.greHys.y,$PRE.hvac.sysHysCoo.truFalHol1.initialStep.oldActive,$PRE.hvac.sysHysCoo.truFalHol1.initialStep.newActive,$PRE.hvac.sysHysCoo.truFalHol1.initialStep.localActive,$PRE.hvac.sysHysCoo.truFalHol1.outputTrue.oldActive,$PRE.hvac.sysHysCoo.truFalHol1.outputTrue.newActive,$PRE.hvac.sysHysCoo.truFalHol1.outputTrue.localActive,$PRE.hvac.sysHysCoo.truFalHol1.outputFalse.oldActive,$PRE.hvac.sysHysCoo.truFalHol1.outputFalse.newActive,$PRE.hvac.sysHysCoo.truFalHol1.outputFalse.localActive,$PRE.hvac.sysHysCoo.greThr.greHys.y,$PRE.hvac.sysHysHea.truFalHol1.initialStep.oldActive,$PRE.hvac.sysHysHea.truFalHol1.initialStep.newActive,$PRE.hvac.sysHysHea.truFalHol1.initialStep.localActive,$PRE.hvac.sysHysHea.truFalHol1.outputTrue.oldActive,$PRE.hvac.sysHysHea.truFalHol1.outputTrue.newActive,$PRE.hvac.sysHysHea.truFalHol1.outputTrue.localActive,$PRE.hvac.sysHysHea.truFalHol1.outputFalse.oldActive,$PRE.hvac.sysHysHea.truFalHol1.outputFalse.newActive,$PRE.hvac.sysHysHea.truFalHol1.outputFalse.localActive,$PRE.hvac.sysHysHea.greThr.greHys.y,$PRE.hvac.conVAV[5].hysWitHol.y,$PRE.hvac.conVAV[4].hysWitHol.y,$PRE.hvac.conVAV[3].hysWitHol.y,$PRE.hvac.conVAV[2].hysWitHol.y,$PRE.hvac.conVAV[1].hysWitHol.y,$PRE.hvac.conEco.hysLoc.y,$PRE.hvac.modeSelector.morPreCoo.oldActive,$PRE.hvac.modeSelector.morPreCoo.newActive,$PRE.hvac.modeSelector.morPreCoo.localActive,$PRE.hvac.modeSelector.occ.oldActive,$PRE.hvac.modeSelector.occ.newActive,$PRE.hvac.modeSelector.occ.localActive,$PRE.hvac.modeSelector.t6.t_start,$PRE.hvac.modeSelector.morWarUp.oldActive,$PRE.hvac.modeSelector.morWarUp.newActive,$PRE.hvac.modeSelector.morWarUp.localActive,$PRE.hvac.modeSelector.t1.t_start,$PRE.hvac.modeSelector.t2.t_start,$PRE.hvac.modeSelector.unOccNigSetBac.oldActive,$PRE.hvac.modeSelector.unOccNigSetBac.newActive,$PRE.hvac.modeSelector.unOccNigSetBac.localActive,$PRE.hvac.modeSelector.unOccOff.oldActive,$PRE.hvac.modeSelector.unOccOff.newActive,$PRE.hvac.modeSelector.unOccOff.localActive,$PRE.hvac.modeSelector.initialStepWithSignal.oldActive,$PRE.hvac.modeSelector.initialStepWithSignal.newActive,$PRE.hvac.modeSelector.initialStepWithSignal.localActive,$PRE.hvac.occSch.tNext,$PRE.hvac.occSch.tNonOcc,$PRE.hvac.occSch.tOcc,$PRE.hvac.occSch.occupied,weaDat.decAng.tNext,$PRE.weaDat.decAng.tNext,weaDat.eqnTim.tNext,$PRE.weaDat.eqnTim.tNext,weaDat.conTim.tNext,$PRE.weaDat.conTim.tNext,weaDat.conTimMin.tNext,$PRE.weaDat.conTimMin.tNext,weaDat.locTim.tNext,$PRE.weaDat.locTim.tNext,flo.intGaiFra.nextTimeEventScaled,$PRE.flo.intGaiFra.nextTimeEventScaled,flo.intGaiFra.nextTimeEvent,flo.cor.irRadExc.Q_flow[8],$PRE.flo.cor.irRadExc.Q_flow[8],flo.cor.irRadExc.Q_flow[7],$PRE.flo.cor.irRadExc.Q_flow[7],flo.cor.irRadExc.Q_flow[6],$PRE.flo.cor.irRadExc.Q_flow[6],flo.cor.irRadExc.Q_flow[5],$PRE.flo.cor.irRadExc.Q_flow[5],flo.cor.irRadExc.Q_flow[4],$PRE.flo.cor.irRadExc.Q_flow[4],flo.cor.irRadExc.Q_flow[3],$PRE.flo.cor.irRadExc.Q_flow[3],flo.cor.irRadExc.Q_flow[2],$PRE.flo.cor.irRadExc.Q_flow[2],flo.cor.irRadExc.Q_flow[1],$PRE.flo.cor.irRadExc.Q_flow[1],flo.cor.irRadExc.G[8],flo.cor.irRadExc.G[7],flo.cor.irRadExc.G[6],flo.cor.irRadExc.G[5],flo.cor.irRadExc.G[4],flo.cor.irRadExc.G[3],flo.cor.irRadExc.G[2],flo.cor.irRadExc.G[1],flo.wes.irRadExc.Q_flow[9],$PRE.flo.wes.irRadExc.Q_flow[9],flo.wes.irRadExc.Q_flow[8],$PRE.flo.wes.irRadExc.Q_flow[8],flo.wes.irRadExc.Q_flow[7],$PRE.flo.wes.irRadExc.Q_flow[7],flo.wes.irRadExc.Q_flow[6],$PRE.flo.wes.irRadExc.Q_flow[6],flo.wes.irRadExc.Q_flow[5],$PRE.flo.wes.irRadExc.Q_flow[5],flo.wes.irRadExc.Q_flow[4],$PRE.flo.wes.irRadExc.Q_flow[4],flo.wes.irRadExc.Q_flow[3],$PRE.flo.wes.irRadExc.Q_flow[3],flo.wes.irRadExc.Q_flow[2],$PRE.flo.wes.irRadExc.Q_flow[2],flo.wes.irRadExc.Q_flow[1],$PRE.flo.wes.irRadExc.Q_flow[1],flo.wes.irRadExc.G[10],flo.wes.irRadExc.G[9],flo.wes.irRadExc.G[8],flo.wes.irRadExc.G[7],flo.wes.irRadExc.G[6],flo.wes.irRadExc.G[5],flo.wes.irRadExc.G[4],flo.wes.irRadExc.G[3],flo.wes.irRadExc.G[2],flo.wes.irRadExc.G[1],flo.wes.bouConExtWin.HDifTil[1].incAng.decAng.tNext,$PRE.flo.wes.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.wes.bouConExtWin.HDirTil[1].incAng.decAng.tNext,$PRE.flo.wes.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.nor.irRadExc.Q_flow[9],$PRE.flo.nor.irRadExc.Q_flow[9],flo.nor.irRadExc.Q_flow[8],$PRE.flo.nor.irRadExc.Q_flow[8],flo.nor.irRadExc.Q_flow[7],$PRE.flo.nor.irRadExc.Q_flow[7],flo.nor.irRadExc.Q_flow[6],$PRE.flo.nor.irRadExc.Q_flow[6],flo.nor.irRadExc.Q_flow[5],$PRE.flo.nor.irRadExc.Q_flow[5],flo.nor.irRadExc.Q_flow[4],$PRE.flo.nor.irRadExc.Q_flow[4],flo.nor.irRadExc.Q_flow[3],$PRE.flo.nor.irRadExc.Q_flow[3],flo.nor.irRadExc.Q_flow[2],$PRE.flo.nor.irRadExc.Q_flow[2],flo.nor.irRadExc.Q_flow[1],$PRE.flo.nor.irRadExc.Q_flow[1],flo.nor.irRadExc.G[10],flo.nor.irRadExc.G[9],flo.nor.irRadExc.G[8],flo.nor.irRadExc.G[7],flo.nor.irRadExc.G[6],flo.nor.irRadExc.G[5],flo.nor.irRadExc.G[4],flo.nor.irRadExc.G[3],flo.nor.irRadExc.G[2],flo.nor.irRadExc.G[1],flo.nor.bouConExtWin.HDifTil[1].incAng.decAng.tNext,$PRE.flo.nor.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.nor.bouConExtWin.HDirTil[1].incAng.decAng.tNext,$PRE.flo.nor.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.eas.irRadExc.Q_flow[9],$PRE.flo.eas.irRadExc.Q_flow[9],flo.eas.irRadExc.Q_flow[8],$PRE.flo.eas.irRadExc.Q_flow[8],flo.eas.irRadExc.Q_flow[7],$PRE.flo.eas.irRadExc.Q_flow[7],flo.eas.irRadExc.Q_flow[6],$PRE.flo.eas.irRadExc.Q_flow[6],flo.eas.irRadExc.Q_flow[5],$PRE.flo.eas.irRadExc.Q_flow[5],flo.eas.irRadExc.Q_flow[4],$PRE.flo.eas.irRadExc.Q_flow[4],flo.eas.irRadExc.Q_flow[3],$PRE.flo.eas.irRadExc.Q_flow[3],flo.eas.irRadExc.Q_flow[2],$PRE.flo.eas.irRadExc.Q_flow[2],flo.eas.irRadExc.Q_flow[1],$PRE.flo.eas.irRadExc.Q_flow[1],flo.eas.irRadExc.G[10],flo.eas.irRadExc.G[9],flo.eas.irRadExc.G[8],flo.eas.irRadExc.G[7],flo.eas.irRadExc.G[6],flo.eas.irRadExc.G[5],flo.eas.irRadExc.G[4],flo.eas.irRadExc.G[3],flo.eas.irRadExc.G[2],flo.eas.irRadExc.G[1],flo.eas.bouConExtWin.HDifTil[1].incAng.decAng.tNext,$PRE.flo.eas.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.eas.bouConExtWin.HDirTil[1].incAng.decAng.tNext,$PRE.flo.eas.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.sou.irRadExc.Q_flow[9],$PRE.flo.sou.irRadExc.Q_flow[9],flo.sou.irRadExc.Q_flow[8],$PRE.flo.sou.irRadExc.Q_flow[8],flo.sou.irRadExc.Q_flow[7],$PRE.flo.sou.irRadExc.Q_flow[7],flo.sou.irRadExc.Q_flow[6],$PRE.flo.sou.irRadExc.Q_flow[6],flo.sou.irRadExc.Q_flow[5],$PRE.flo.sou.irRadExc.Q_flow[5],flo.sou.irRadExc.Q_flow[4],$PRE.flo.sou.irRadExc.Q_flow[4],flo.sou.irRadExc.Q_flow[3],$PRE.flo.sou.irRadExc.Q_flow[3],flo.sou.irRadExc.Q_flow[2],$PRE.flo.sou.irRadExc.Q_flow[2],flo.sou.irRadExc.Q_flow[1],$PRE.flo.sou.irRadExc.Q_flow[1],flo.sou.irRadExc.G[10],flo.sou.irRadExc.G[9],flo.sou.irRadExc.G[8],flo.sou.irRadExc.G[7],flo.sou.irRadExc.G[6],flo.sou.irRadExc.G[5],flo.sou.irRadExc.G[4],flo.sou.irRadExc.G[3],flo.sou.irRadExc.G[2],flo.sou.irRadExc.G[1],flo.sou.bouConExtWin.HDifTil[1].incAng.decAng.tNext,$PRE.flo.sou.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.sou.bouConExtWin.HDirTil[1].incAng.decAng.tNext,$PRE.flo.sou.bouConExtWin.HDirTil[1].incAng.decAng.tNext,hvac.freSta.greThr.greHys.y,hvac.freSta.locOut.y,hvac.freSta.locOut.u,hvac.sysHysCoo.truDel.y,hvac.sysHysCoo.truDel.u,hvac.sysHysCoo.truFalHol1.toFalse1.enableFire,hvac.sysHysCoo.truFalHol1.toTrue1.enableFire,hvac.sysHysCoo.truFalHol1.initialStep.oldActive,hvac.sysHysCoo.truFalHol1.initialStep.newActive,hvac.sysHysCoo.truFalHol1.initialStep.outPort[2].available,hvac.sysHysCoo.truFalHol1.initialStep.localActive,hvac.sysHysCoo.truFalHol1.initialStep.active,hvac.sysHysCoo.truFalHol1.toFalse.enableFire,hvac.sysHysCoo.truFalHol1.toFalse.localCondition,hvac.sysHysCoo.truFalHol1.outputTrue.active,hvac.sysHysCoo.truFalHol1.outputTrue.oldAct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Condition6,$whenCondition10,$whenCondition9,$whenCondition13,$whenCondition12,$whenCondition16,$whenCondition15,$whenCondition19,$whenCondition18,$whenCondition22,$whenCondition21,$whenCondition25,$whenCondition24,$whenCondition26,$whenCondition27,$whenCondition29,$whenCondition30,$whenCondition32,$whenCondition33,$whenCondition35,$whenCondition36,$whenCondition40,$whenCondition41,$whenCondition42,$whenCondition43,$whenCondition44,$whenCondition45,$whenCondition46,hvac.conTSup.con.cheYMinMax.y,hvac.pSetDuc.limPID.I.trigger_internal)
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for initialization (6441):
 * Single equations (assignments): 6385
 * Array equations: 5
 * Algorithm blocks: 4
 * Record equations: 4
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 9
 * Torn equation systems: 34
 * Mixed (continuous/discrete) equation systems: 0
Notification: Equation system details (not torn):
 * Constant Jacobian (size): 0 systems
 * Linear Jacobian (size,density): 0 systems
 * Non-linear Jacobian (size): 9 systems
   {1, 1, 1, 1, 1, 1, 1, 1, 1}
 * Without analytic Jacobian (size): 0 systems
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 20 systems
   {(1,3,100.0%), (9,31,60.5%), (1,4,100.0%), (3,7,100.0%), (3,7,88.9%), (1,17,100.0%), (4,6,81.2%), (1,3,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,2,100.0%), (1,2,100.0%), (1,2,100.0%), (1,2,100.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 14 systems
   {(1,2), (5,2), (6,11), (3,4), (1,4), (1,4), (3,22), (1,10), (3,22), (1,10), (3,22), (1,10), (3,22), (1,10)}
Notification: Performance of prepare postOptimizeDAE: time 0.02635/27.89, allocations: 4.403 MB / 11.19 GB, free: 0.5397 GB / 2.498 GB
Notification: Performance of postOpt lateInlineFunction (simulation): time 0.04458/27.94, allocations: 10.02 MB / 11.2 GB, free: 0.5353 GB / 2.498 GB
Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.1849/28.12, allocations: 79.2 MB / 11.28 GB, free: 468.8 MB / 2.498 GB
Notification: Performance of postOpt inlineArrayEqn (simulation): time 0.0002382/28.12, allocations: 300 kB / 11.28 GB, free: 468.5 MB / 2.498 GB
Notification: Performance of postOpt constantLinearSystem (simulation): time 0.0001076/28.12, allocations: 36 kB / 11.28 GB, free: 468.5 MB / 2.498 GB
Notification: Performance of postOpt simplifysemiLinear (simulation): time 0.1392/28.26, allocations: 62.43 MB / 11.34 GB, free: 405.8 MB / 2.498 GB
Warning: The model contains alias variables with redundant start and/or conflicting nominal values. It is recommended to resolve the conflicts, because otherwise the system could be hard to solve. To print the conflicting alias sets and the chosen candidates please use -d=aliasConflicts.
Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.4337/28.69, allocations: 204.2 MB / 11.54 GB, free: 201.3 MB / 2.498 GB
Notification: Performance of postOpt simplifyComplexFunction (simulation): time 0.0001957/28.69, allocations: 11.94 kB / 11.54 GB, free: 201.3 MB / 2.498 GB
Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.03853/28.73, allocations: 7.317 MB / 11.55 GB, free: 194 MB / 2.498 GB
Notification: Performance of postOpt tearingSystem (simulation): time 0.01723/28.75, allocations: 6.149 MB / 11.55 GB, free: 187.7 MB / 2.498 GB
Notification: Performance of postOpt inputDerivativesUsed (simulation): time 0.009158/28.76, allocations: 1.065 MB / 11.55 GB, free: 186.7 MB / 2.498 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.06042/28.82, allocations: 85.04 MB / 11.64 GB, free: 97.78 MB / 2.498 GB
Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 7.203e-06/28.82, allocations: 11.94 kB / 11.64 GB, free: 97.77 MB / 2.498 GB
Notification: Performance of postOpt symbolicJacobian (simulation): time 1.079/29.9, allocations: 113.5 MB / 11.75 GB, free: 1.122 GB / 2.498 GB
Notification: Performance of postOpt removeConstants (simulation): time 0.09022/29.99, allocations: 30.8 MB / 11.78 GB, free: 1.122 GB / 2.498 GB
Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.0567/30.04, allocations: 1.712 MB / 11.78 GB, free: 1.122 GB / 2.498 GB
Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.08019/30.13, allocations: 5.611 MB / 11.78 GB, free: 1.122 GB / 2.498 GB
Notification: Performance of postOpt findZeroCrossings (simulation): time 0.01005/30.14, allocations: 2.15 MB / 11.79 GB, free: 1.122 GB / 2.498 GB
Notification: Performance of postOpt collapseArrayExpressions (simulation): time 0.007893/30.14, allocations: 1.19 MB / 11.79 GB, free: 1.122 GB / 2.498 GB
Notification: Performance of sorting global known variables: time 2.649/32.79, allocations: 1.261 GB / 13.05 GB, free: 1.069 GB / 2.499 GB
Notification: Performance of sort global known variables: time 1.062e-06/32.79, allocations: 0 / 13.05 GB, free: 1.069 GB / 2.499 GB
Notification: Performance of remove unused functions: time 0.2109/33, allocations: 39.57 MB / 13.09 GB, free: 1.069 GB / 2.499 GB
Notification: Model statistics after passing the back-end for simulation:
 * Number of independent subsystems: 42
 * Number of states: 174 (hvac.cooCoi.heaCoo.vol.dynBal.U,hvac.cooCoi.heaCooHum_u.vol.dynBal.medium.Xi[1],hvac.cooCoi.heaCooHum_u.vol.dynBal.U,hvac.cooCoi.dryWetCalcs.fullyWet.TWatOutEst,hvac.fanSup.vol.dynBal.medium.Xi[1],hvac.fanSup.vol.dynBal.U,hvac.fanSup.vol.dynBal.m,hvac.fanSup.filter.s[1],hvac.fanSup.filter.s[2],hvac.TSup.T,hvac.TRet.T,hvac.TMix.T,hvac.res.EFan,hvac.res.EPum,hvac.res.EHea,hvac.res.ECooSen,hvac.res.ECooLat,hvac.damRet.filter.s[1],hvac.damRet.filter.s[2],hvac.damOut.filter.s[1],hvac.damOut.filter.s[2],hvac.valCooCoi.filter.s[1],hvac.valCooCoi.filter.s[2],hvac.pumCooCoi.vol.dynBal.U,hvac.pumCooCoi.filter.s[1],hvac.pumCooCoi.filter.s[2],hvac.pumHeaCoi.vol.dynBal.U,hvac.pumHeaCoi.filter.s[1],hvac.pumHeaCoi.filter.s[2],hvac.valHeaCoi.filter.s[1],hvac.valHeaCoi.filter.s[2],hvac.VAVBox[1].vav.filter.s[1],hvac.VAVBox[1].vav.filter.s[2],hvac.VAVBox[1].senTem.T,hvac.VAVBox[2].vav.filter.s[1],hvac.VAVBox[2].vav.filter.s[2],hvac.VAVBox[2].senTem.T,hvac.VAVBox[3].vav.filter.s[1],hvac.VAVBox[3].vav.filter.s[2],hvac.VAVBox[3].senTem.T,hvac.VAVBox[4].vav.filter.s[1],hvac.VAVBox[4].vav.filter.s[2],hvac.VAVBox[4].senTem.T,hvac.VAVBox[5].vav.filter.s[1],hvac.VAVBox[5].vav.filter.s[2],hvac.VAVBox[5].senTem.T,hvac.splRetOut.vol.dynBal.medium.Xi[1],hvac.splRetOut.vol.dynBal.U,hvac.splRetOut.vol.dynBal.m,hvac.conFanSup.con.I.y,hvac.conEco.conV_flow.I.y,hvac.conEco.yOATFre.I.y,hvac.pSetDuc.limPID.I.y,hvac.conVAV[1].conHea.I.y,hvac.conVAV[1].conCoo.I.y,hvac.conVAV[1].conDam.I.y,hvac.conVAV[2].conHea.I.y,hvac.conVAV[2].conCoo.I.y,hvac.conVAV[2].conDam.I.y,hvac.conVAV[3].conHea.I.y,hvac.conVAV[3].conCoo.I.y,hvac.conVAV[3].conDam.I.y,hvac.conVAV[4].conHea.I.y,hvac.conVAV[4].conCoo.I.y,hvac.conVAV[4].conDam.I.y,hvac.conVAV[5].conHea.I.y,hvac.conVAV[5].conCoo.I.y,hvac.conVAV[5].conDam.I.y,hvac.conTSup.con.I.y,hvac.damExh.filter.s[1],hvac.damExh.filter.s[2],flo.sou.conExtWin[1].opa.lay[1].T[1],flo.sou.conExtWin[1].opa.lay[1].T[2],flo.sou.conExtWin[1].opa.lay[2].T[1],flo.sou.conExtWin[1].opa.lay[2].T[2],flo.sou.conExtWin[1].opa.lay[2].T[3],flo.sou.conExtWin[1].opa.lay[3].T[1],flo.sou.conExtWin[1].opa.lay[3].T[2],flo.sou.conExtWin[1].win.capGla.TUns,flo.sou.conExtWin[1].win.capFra.T,flo.sou.conPar[1].opa.lay[1].T[1],flo.sou.conPar[1].opa.lay[1].T[2],flo.sou.conPar[2].opa.lay[1].T[1],flo.sou.conPar[2].opa.lay[1].T[2],flo.sou.conPar[2].opa.lay[1].T[3],flo.sou.conPar[2].opa.lay[1].T[4],flo.sou.conPar[2].opa.lay[1].T[5],flo.sou.conPar[2].opa.lay[1].T[6],flo.sou.conBou[1].opa.lay[1].T[1],flo.sou.conBou[1].opa.lay[1].T[2],flo.sou.conBou[2].opa.lay[1].T[1],flo.sou.conBou[2].opa.lay[1].T[2],flo.sou.conBou[3].opa.lay[1].T[1],flo.sou.conBou[3].opa.lay[1].T[2],flo.sou.air.vol.dynBal.medium.Xi[1],flo.sou.air.vol.dynBal.U,flo.eas.conExtWin[1].opa.lay[1].T[1],flo.eas.conExtWin[1].opa.lay[1].T[2],flo.eas.conExtWin[1].opa.lay[2].T[1],flo.eas.conExtWin[1].opa.lay[2].T[2],flo.eas.conExtWin[1].opa.lay[2].T[3],flo.eas.conExtWin[1].opa.lay[3].T[1],flo.eas.conExtWin[1].opa.lay[3].T[2],flo.eas.conExtWin[1].win.capGla.TUns,flo.eas.conExtWin[1].win.capFra.T,flo.eas.conPar[1].opa.lay[1].T[1],flo.eas.conPar[1].opa.lay[1].T[2],flo.eas.conPar[2].opa.lay[1].T[1],flo.eas.conPar[2].opa.lay[1].T[2],flo.eas.conPar[2].opa.lay[1].T[3],flo.eas.conPar[2].opa.lay[1].T[4],flo.eas.conPar[2].opa.lay[1].T[5],flo.eas.conPar[2].opa.lay[1].T[6],flo.eas.conBou[1].opa.lay[1].T[1],flo.eas.conBou[1].opa.lay[1].T[2],flo.eas.air.vol.dynBal.medium.Xi[1],flo.eas.air.vol.dynBal.U,flo.nor.conExtWin[1].opa.lay[1].T[1],flo.nor.conExtWin[1].opa.lay[1].T[2],flo.nor.conExtWin[1].opa.lay[2].T[1],flo.nor.conExtWin[1].opa.lay[2].T[2],flo.nor.conExtWin[1].opa.lay[2].T[3],flo.nor.conExtWin[1].opa.lay[3].T[1],flo.nor.conExtWin[1].opa.lay[3].T[2],flo.nor.conExtWin[1].win.capGla.TUns,flo.nor.conExtWin[1].win.capFra.T,flo.nor.conPar[1].opa.lay[1].T[1],flo.nor.conPar[1].opa.lay[1].T[2],flo.nor.conPar[2].opa.lay[1].T[1],flo.nor.conPar[2].opa.lay[1].T[2],flo.nor.conPar[2].opa.lay[1].T[3],flo.nor.conPar[2].opa.lay[1].T[4],flo.nor.conPar[2].opa.lay[1].T[5],flo.nor.conPar[2].opa.lay[1].T[6],flo.nor.conBou[1].opa.lay[1].T[1],flo.nor.conBou[1].opa.lay[1].T[2],flo.nor.conBou[2].opa.lay[1].T[1],flo.nor.conBou[2].opa.lay[1].T[2],flo.nor.conBou[3].opa.lay[1].T[1],flo.nor.conBou[3].opa.lay[1].T[2],flo.nor.air.vol.dynBal.medium.Xi[1],flo.nor.air.vol.dynBal.U,flo.wes.conExtWin[1].opa.lay[1].T[1],flo.wes.conExtWin[1].opa.lay[1].T[2],flo.wes.conExtWin[1].opa.lay[2].T[1],flo.wes.conExtWin[1].opa.lay[2].T[2],flo.wes.conExtWin[1].opa.lay[2].T[3],flo.wes.conExtWin[1].opa.lay[3].T[1],flo.wes.conExtWin[1].opa.lay[3].T[2],flo.wes.conExtWin[1].win.capGla.TUns,flo.wes.conExtWin[1].win.capFra.T,flo.wes.conPar[1].opa.lay[1].T[1],flo.wes.conPar[1].opa.lay[1].T[2],flo.wes.conPar[2].opa.lay[1].T[1],flo.wes.conPar[2].opa.lay[1].T[2],flo.wes.conPar[2].opa.lay[1].T[3],flo.wes.conPar[2].opa.lay[1].T[4],flo.wes.conPar[2].opa.lay[1].T[5],flo.wes.conPar[2].opa.lay[1].T[6],flo.wes.conBou[1].opa.lay[1].T[1],flo.wes.conBou[1].opa.lay[1].T[2],flo.wes.air.vol.dynBal.medium.Xi[1],flo.wes.air.vol.dynBal.U,flo.cor.conPar[1].opa.lay[1].T[1],flo.cor.conPar[1].opa.lay[1].T[2],flo.cor.conPar[2].opa.lay[1].T[1],flo.cor.conPar[2].opa.lay[1].T[2],flo.cor.conPar[2].opa.lay[1].T[3],flo.cor.conPar[2].opa.lay[1].T[4],flo.cor.conPar[2].opa.lay[1].T[5],flo.cor.conPar[2].opa.lay[1].T[6],flo.cor.air.vol.dynBal.medium.Xi[1],flo.cor.air.vol.dynBal.U,flo.cor.air.vol.dynBal.m)
 * Number of discrete variables: 348 (hvac.modeSelector.t6.enableFire,hvac.or2.y,hvac.sysHysHea.truDel.u,hvac.sysHysCoo.truDel.u,hvac.modeSelector.t2.enableFire,hvac.modeSelector.t1.enableFire,hvac.freSta.locOut.u,hvac.sysHysCoo.truFalHol1.initialStep.localActive,hvac.sysHysCoo.truFalHol1.outputTrue.active,hvac.sysHysCoo.truFalHol1.outputTrue.localActive,hvac.sysHysCoo.truFalHol1.onDel2.u,hvac.sysHysCoo.truFalHol1.outputFalse.active,hvac.sysHysCoo.truFalHol1.outputFalse.localActive,hvac.sysHysCoo.truFalHol1.onDel1.u,hvac.sysHysHea.truFalHol1.initialStep.localActive,hvac.sysHysHea.truFalHol1.outputTrue.active,hvac.sysHysHea.truFalHol1.outputTrue.localActive,hvac.sysHysHea.truFalHol1.onDel2.u,hvac.sysHysHea.truFalHol1.outputFalse.active,hvac.sysHysHea.truFalHol1.outputFalse.localActive,hvac.sysHysHea.truFalHol1.onDel1.u,hvac.sysHysHea.sysOn,hvac.modeSelector.morPreCoo.active,hvac.modeSelector.occ.active,hvac.modeSelector.morWarUp.active,hvac.modeSelector.unOccNigSetBac.active,hvac.modeSelector.unOccOff.active,hvac.modeSelector.initialStepWithSignal.active,$cse236,$cse237,$cse238,$cse239,$cse240,$cse241,$cse242,$cse243,$cse244,$cse245,$cse257,$cse258,$cse259,$cse260,$cse261,$cse262,$cse263,$cse264,$cse265,$cse266,$cse267,$whenCondition46,$whenCondition45,$whenCondition44,$whenCondition43,$whenCondition42,$whenCondition41,$whenCondition40,$whenCondition39,$whenCondition38,$whenCondition37,$whenCondition36,$whenCondition35,$whenCondition34,$whenCondition33,$whenCondition32,$whenCondition31,$whenCondition30,$whenCondition29,$whenCondition28,$whenCondition27,$whenCondition26,$whenCondition23,$whenCondition24,$whenCondition25,$whenCondition20,$whenCondition21,$whenCondition22,$whenCondition17,$whenCondition18,$whenCondition19,$whenCondition14,$whenCondition15,$whenCondition16,$whenCondition11,$whenCondition12,$whenCondition13,$whenCondition8,$whenCondition9,$whenCondition10,$whenCondition5,$whenCondition6,$whenCondition7,$whenCondition4,$whenCondition3,$whenCondition2,$whenCondition1,hvac.controlBus.controlMode,hvac.occSch.occupied,hvac.occSch.tOcc,hvac.occSch.tNonOcc,hvac.occSch.tNext,hvac.modeSelector.initialStepWithSignal.localActive,hvac.modeSelector.initialStepWithSignal.newActive,hvac.modeSelector.initialStepWithSignal.oldActive,hvac.modeSelector.start.enableFire,hvac.modeSelector.unOccOff.localActive,hvac.modeSelector.unOccOff.inPort[2].occupied,hvac.modeSelector.unOccOff.inPort[3].occupied,hvac.modeSelector.unOccOff.outPort[2].available,hvac.modeSelector.unOccOff.outPort[3].available,hvac.modeSelector.unOccOff.outPort[4].available,hvac.modeSelector.unOccOff.newActive,hvac.modeSelector.unOccOff.oldActive,hvac.modeSelector.unOccNigSetBac.localActive,hvac.modeSelector.unOccNigSetBac.outPort[2].available,hvac.modeSelector.unOccNigSetBac.newActive,hvac.modeSelector.unOccNigSetBac.oldActive,hvac.modeSelector.t2.localCondition,hvac.modeSelector.t2.fire,hvac.modeSelector.t2.t_start,hvac.modeSelector.t1.localCondition,hvac.modeSelector.t1.fire,hvac.modeSelector.t1.t_start,hvac.modeSelector.stateGraphRoot.activeSteps,hvac.modeSelector.morWarUp.localActive,hvac.modeSelector.morWarUp.inPort[2].occupied,hvac.modeSelector.morWarUp.newActive,hvac.modeSelector.morWarUp.oldActive,hvac.modeSelector.t6.fire,hvac.modeSelector.t6.t_start,hvac.modeSelector.t5.localCondition,hvac.modeSelector.t5.enableFire,hvac.modeSelector.occ.localActive,hvac.modeSelector.occ.inPort[2].occupied,hvac.modeSelector.occ.inPort[3].occupied,hvac.modeSelector.occ.newActive,hvac.modeSelector.occ.oldActive,hvac.modeSelector.t3.localCondition,hvac.modeSelector.t3.enableFire,hvac.modeSelector.t4.localCondition,hvac.modeSelector.t4.enableFire,hvac.modeSelector.morPreCoo.localActive,hvac.modeSelector.morPreCoo.newActive,hvac.modeSelector.morPreCoo.oldActive,hvac.modeSelector.t7.localCondition,hvac.modeSelector.t7.enableFire,hvac.modeSelector.preCooSta.and3.u[1],hvac.modeSelector.preCooSta.and3.u[2],hvac.modeSelector.preCooSta.and3.u[3],hvac.modeSelector.t9.localCondition,hvac.modeSelector.t9.enableFire,hvac.modeSelector.not1.y,hvac.modeSelector.t8.enableFire,hvac.modeSelector.sum.u[1],hvac.modeSelector.sum.u[2],hvac.modeSelector.sum.u[3],hvac.modeSelector.sum.u[4],hvac.modeSelector.sum.u[5],hvac.modeSelector.sum.u[6],hvac.modeSelector.yEco,hvac.modeSelector.or2.y,hvac.conEco.hysLoc.y,hvac.conVAV[1].hysWitHol.y,hvac.conVAV[1].greThr.y,hvac.conVAV[2].hysWitHol.y,hvac.conVAV[2].greThr.y,hvac.conVAV[3].hysWitHol.y,hvac.conVAV[3].greThr.y,hvac.conVAV[4].hysWitHol.y,hvac.conVAV[4].greThr.y,hvac.conVAV[5].hysWitHol.y,hvac.conVAV[5].greThr.y,hvac.sysHysHea.greThr.greHys.y,hvac.sysHysHea.truFalHol1.onDel1.y,hvac.sysHysHea.truFalHol1.onDel1.t_next,hvac.sysHysHea.truFalHol1.onDel2.y,hvac.sysHysHea.truFalHol1.onDel2.t_next,hvac.sysHysHea.truFalHol1.stateGraphRoot.activeSteps,hvac.sysHysHea.truFalHol1.outputFalse.inPort[2].occupied,hvac.sysHysHea.truFalHol1.outputFalse.newActive,hvac.sysHysHea.truFalHol1.outputFalse.oldActive,hvac.sysHysHea.truFalHol1.toTrue.localCondition,hvac.sysHysHea.truFalHol1.toTrue.enableFire,hvac.sysHysHea.truFalHol1.outputTrue.inPort[2].occupied,hvac.sysHysHea.truFalHol1.outputTrue.newActive,hvac.sysHysHea.truFalHol1.outputTrue.oldActive,hvac.sysHysHea.truFalHol1.toFalse.localCondition,hvac.sysHysHea.truFalHol1.toFalse.enableFire,hvac.sysHysHea.truFalHol1.initialStep.active,hvac.sysHysHea.truFalHol1.initialStep.outPort[2].available,hvac.sysHysHea.truFalHol1.initialStep.newActive,hvac.sysHysHea.truFalHol1.initialStep.oldActive,hvac.sysHysHea.truFalHol1.toTrue1.enableFire,hvac.sysHysHea.truFalHol1.toFalse1.enableFire,hvac.sysHysHea.truDel.y,hvac.sysHysHea.truDel.t_next,hvac.sysHysCoo.greThr.greHys.y,hvac.sysHysCoo.truFalHol1.onDel1.y,hvac.sysHysCoo.truFalHol1.onDel1.t_next,hvac.sysHysCoo.truFalHol1.onDel2.y,hvac.sysHysCoo.truFalHol1.onDel2.t_next,hvac.sysHysCoo.truFalHol1.stateGraphRoot.activeSteps,hvac.sysHysCoo.truFalHol1.outputFalse.inPort[2].occupied,hvac.sysHysCoo.truFalHol1.outputFalse.newActive,hvac.sysHysCoo.truFalHol1.outputFalse.oldActive,hvac.sysHysCoo.truFalHol1.toTrue.localCondition,hvac.sysHysCoo.truFalHol1.toTrue.enableFire,hvac.sysHysCoo.truFalHol1.outputTrue.inPort[2].occupied,hvac.sysHysCoo.truFalHol1.outputTrue.newActive,hvac.sysHysCoo.truFalHol1.outputTrue.oldActive,hvac.sysHysCoo.truFalHol1.toFalse.localCondition,hvac.sysHysCoo.truFalHol1.toFalse.enableFire,hvac.sysHysCoo.truFalHol1.initialStep.active,hvac.sysHysCoo.truFalHol1.initialStep.outPort[2].available,hvac.sysHysCoo.truFalHol1.initialStep.newActive,hvac.sysHysCoo.truFalHol1.initialStep.oldActive,hvac.sysHysCoo.truFalHol1.toTrue1.enableFire,hvac.sysHysCoo.truFalHol1.toFalse1.enableFire,hvac.sysHysCoo.truDel.y,hvac.sysHysCoo.truDel.t_next,hvac.freSta.locOut.y,hvac.freSta.locOut.t_next,hvac.freSta.greThr.greHys.y,flo.sou.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.sou.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.sou.irRadExc.G[1],flo.sou.irRadExc.G[2],flo.sou.irRadExc.G[3],flo.sou.irRadExc.G[4],flo.sou.irRadExc.G[5],flo.sou.irRadExc.G[6],flo.sou.irRadExc.G[7],flo.sou.irRadExc.G[8],flo.sou.irRadExc.G[9],flo.sou.irRadExc.G[10],flo.sou.irRadExc.Q_flow[1],flo.sou.irRadExc.Q_flow[2],flo.sou.irRadExc.Q_flow[3],flo.sou.irRadExc.Q_flow[4],flo.sou.irRadExc.Q_flow[5],flo.sou.irRadExc.Q_flow[6],flo.sou.irRadExc.Q_flow[7],flo.sou.irRadExc.Q_flow[8],flo.sou.irRadExc.Q_flow[9],flo.sou.irRadExc.Q_flow[10],flo.eas.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.eas.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.eas.irRadExc.G[1],flo.eas.irRadExc.G[2],flo.eas.irRadExc.G[3],flo.eas.irRadExc.G[4],flo.eas.irRadExc.G[5],flo.eas.irRadExc.G[6],flo.eas.irRadExc.G[7],flo.eas.irRadExc.G[8],flo.eas.irRadExc.G[9],flo.eas.irRadExc.G[10],flo.eas.irRadExc.Q_flow[1],flo.eas.irRadExc.Q_flow[2],flo.eas.irRadExc.Q_flow[3],flo.eas.irRadExc.Q_flow[4],flo.eas.irRadExc.Q_flow[5],flo.eas.irRadExc.Q_flow[6],flo.eas.irRadExc.Q_flow[7],flo.eas.irRadExc.Q_flow[8],flo.eas.irRadExc.Q_flow[9],flo.eas.irRadExc.Q_flow[10],flo.nor.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.nor.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.nor.irRadExc.G[1],flo.nor.irRadExc.G[2],flo.nor.irRadExc.G[3],flo.nor.irRadExc.G[4],flo.nor.irRadExc.G[5],flo.nor.irRadExc.G[6],flo.nor.irRadExc.G[7],flo.nor.irRadExc.G[8],flo.nor.irRadExc.G[9],flo.nor.irRadExc.G[10],flo.nor.irRadExc.Q_flow[1],flo.nor.irRadExc.Q_flow[2],flo.nor.irRadExc.Q_flow[3],flo.nor.irRadExc.Q_flow[4],flo.nor.irRadExc.Q_flow[5],flo.nor.irRadExc.Q_flow[6],flo.nor.irRadExc.Q_flow[7],flo.nor.irRadExc.Q_flow[8],flo.nor.irRadExc.Q_flow[9],flo.nor.irRadExc.Q_flow[10],flo.wes.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.wes.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.wes.irRadExc.G[1],flo.wes.irRadExc.G[2],flo.wes.irRadExc.G[3],flo.wes.irRadExc.G[4],flo.wes.irRadExc.G[5],flo.wes.irRadExc.G[6],flo.wes.irRadExc.G[7],flo.wes.irRadExc.G[8],flo.wes.irRadExc.G[9],flo.wes.irRadExc.G[10],flo.wes.irRadExc.Q_flow[1],flo.wes.irRadExc.Q_flow[2],flo.wes.irRadExc.Q_flow[3],flo.wes.irRadExc.Q_flow[4],flo.wes.irRadExc.Q_flow[5],flo.wes.irRadExc.Q_flow[6],flo.wes.irRadExc.Q_flow[7],flo.wes.irRadExc.Q_flow[8],flo.wes.irRadExc.Q_flow[9],flo.wes.irRadExc.Q_flow[10],flo.cor.irRadExc.G[1],flo.cor.irRadExc.G[2],flo.cor.irRadExc.G[3],flo.cor.irRadExc.G[4],flo.cor.irRadExc.G[5],flo.cor.irRadExc.G[6],flo.cor.irRadExc.G[7],flo.cor.irRadExc.G[8],flo.cor.irRadExc.Q_flow[1],flo.cor.irRadExc.Q_flow[2],flo.cor.irRadExc.Q_flow[3],flo.cor.irRadExc.Q_flow[4],flo.cor.irRadExc.Q_flow[5],flo.cor.irRadExc.Q_flow[6],flo.cor.irRadExc.Q_flow[7],flo.cor.irRadExc.Q_flow[8],flo.intGaiFra.nextTimeEvent,flo.intGaiFra.nextTimeEventScaled,weaDat.locTim.tNext,weaDat.conTimMin.tNext,weaDat.conTim.tNext,weaDat.eqnTim.tNext,weaDat.decAng.tNext,hvac.modeSelector.start.t_start,hvac.modeSelector.t5.t_start,hvac.modeSelector.t3.t_start,hvac.modeSelector.t4.t_start,hvac.modeSelector.t7.t_start,hvac.modeSelector.t9.t_start,hvac.modeSelector.t8.t_start,hvac.sysHysHea.truFalHol1.toTrue.t_start,hvac.sysHysHea.truFalHol1.toFalse.t_start,hvac.sysHysHea.truFalHol1.toTrue1.t_start,hvac.sysHysHea.truFalHol1.toFalse1.t_start,hvac.sysHysCoo.truFalHol1.toTrue.t_start,hvac.sysHysCoo.truFalHol1.toFalse.t_start,hvac.sysHysCoo.truFalHol1.toTrue1.t_start,hvac.sysHysCoo.truFalHol1.toFalse1.t_start)
 * Number of discrete states: 107 (hvac.sysHysCoo.truFalHol1.toFalse1.t_start,hvac.sysHysCoo.truFalHol1.toTrue1.t_start,hvac.sysHysCoo.truFalHol1.toFalse.t_start,hvac.sysHysCoo.truFalHol1.toTrue.t_start,hvac.sysHysHea.truFalHol1.toFalse1.t_start,hvac.sysHysHea.truFalHol1.toTrue1.t_start,hvac.sysHysHea.truFalHol1.toFalse.t_start,hvac.sysHysHea.truFalHol1.toTrue.t_start,hvac.modeSelector.t8.t_start,hvac.modeSelector.t9.t_start,hvac.modeSelector.t7.t_start,hvac.modeSelector.t4.t_start,hvac.modeSelector.t3.t_start,hvac.modeSelector.t5.t_start,hvac.modeSelector.start.t_start,flo.intGaiFra.nextTimeEvent,hvac.freSta.locOut.t_next,hvac.sysHysCoo.truDel.t_next,hvac.sysHysCoo.truFalHol1.onDel2.t_next,hvac.sysHysCoo.truFalHol1.onDel1.t_next,hvac.sysHysHea.truDel.t_next,hvac.sysHysHea.truFalHol1.onDel2.t_next,hvac.sysHysHea.truFalHol1.onDel1.t_next,hvac.occSch.tNext,hvac.modeSelector.initialStepWithSignal.newActive,hvac.modeSelector.unOccOff.newActive,hvac.modeSelector.unOccNigSetBac.newActive,hvac.modeSelector.morWarUp.newActive,hvac.modeSelector.occ.newActive,hvac.modeSelector.morPreCoo.newActive,hvac.sysHysHea.truFalHol1.outputFalse.newActive,hvac.sysHysHea.truFalHol1.outputTrue.newActive,hvac.sysHysHea.truFalHol1.initialStep.newActive,hvac.sysHysCoo.truFalHol1.outputFalse.newActive,hvac.sysHysCoo.truFalHol1.outputTrue.newActive,hvac.sysHysCoo.truFalHol1.initialStep.newActive,hvac.freSta.greThr.greHys.y,flo.sou.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.sou.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.eas.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.eas.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.nor.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.nor.bouConExtWin.HDifTil[1].incAng.decAng.tNext,flo.wes.bouConExtWin.HDirTil[1].incAng.decAng.tNext,flo.wes.bouConExtWin.HDifTil[1].incAng.decAng.tNext,weaDat.locTim.tNext,weaDat.conTim.tNext,weaDat.eqnTim.tNext,weaDat.decAng.tNext,weaDat.conTimMin.tNext,hvac.conVAV[1].hysWitHol.y,hvac.conVAV[2].hysWitHol.y,hvac.conVAV[3].hysWitHol.y,hvac.conVAV[4].hysWitHol.y,hvac.conVAV[5].hysWitHol.y,hvac.conEco.hysLoc.y,flo.intGaiFra.nextTimeEventScaled,flo.cor.irRadExc.J[7],flo.cor.irRadExc.J[8],flo.cor.irRadExc.J[6],flo.cor.irRadExc.J[5],flo.cor.irRadExc.J[4],flo.cor.irRadExc.J[3],flo.cor.irRadExc.J[2],flo.cor.irRadExc.J[1],flo.wes.irRadExc.J[9],flo.wes.irRadExc.J[10],flo.wes.irRadExc.J[8],flo.wes.irRadExc.J[7],flo.wes.irRadExc.J[6],flo.wes.irRadExc.J[5],flo.wes.irRadExc.J[4],flo.wes.irRadExc.J[3],flo.wes.irRadExc.J[2],flo.wes.irRadExc.J[1],flo.nor.irRadExc.J[9],flo.nor.irRadExc.J[10],flo.nor.irRadExc.J[8],flo.nor.irRadExc.J[7],flo.nor.irRadExc.J[6],flo.nor.irRadExc.J[5],flo.nor.irRadExc.J[4],flo.nor.irRadExc.J[3],flo.nor.irRadExc.J[2],flo.nor.irRadExc.J[1],flo.eas.irRadExc.J[9],flo.eas.irRadExc.J[10],flo.eas.irRadExc.J[8],flo.eas.irRadExc.J[7],flo.eas.irRadExc.J[6],flo.eas.irRadExc.J[5],flo.eas.irRadExc.J[4],flo.eas.irRadExc.J[3],flo.eas.irRadExc.J[2],flo.eas.irRadExc.J[1],flo.sou.irRadExc.J[9],flo.sou.irRadExc.J[10],flo.sou.irRadExc.J[8],flo.sou.irRadExc.J[7],flo.sou.irRadExc.J[6],flo.sou.irRadExc.J[5],flo.sou.irRadExc.J[4],flo.sou.irRadExc.J[3],flo.sou.irRadExc.J[2],flo.sou.irRadExc.J[1],hvac.sysHysCoo.greThr.greHys.y,hvac.sysHysHea.greThr.greHys.y)
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for simulation (2941):
 * Single equations (assignments): 2729
 * Array equations: 0
 * Algorithm blocks: 4
 * Record equations: 10
 * When equations: 156
 * If-equations: 0
 * Equation systems (not torn): 8
 * Torn equation systems: 34
 * Mixed (continuous/discrete) equation systems: 0
Notification: Equation system details (not torn):
 * Constant Jacobian (size): 0 systems
 * Linear Jacobian (size,density): 0 systems
 * Non-linear Jacobian (size): 8 systems
   {1, 1, 1, 1, 1, 1, 1, 1}
 * Without analytic Jacobian (size): 0 systems
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 28 systems
   {(3,7,88.9%), (4,6,81.2%), (1,13,100.0%), (1,3,100.0%), (1,3,100.0%), (12,28,43.8%), (3,7,88.9%), (2,15,100.0%), (2,15,100.0%), (2,15,100.0%), (2,15,100.0%), (1,3,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,1,100.0%), (1,5,100.0%), (1,5,100.0%), (1,5,100.0%), (1,5,100.0%), (1,2,100.0%), (1,2,100.0%), (1,2,100.0%), (1,2,100.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 6 systems
   {(1,2), (1,1), (3,4), (6,12), (1,5), (1,5)}
Notification: Performance of Backend phase and start with SimCode phase: time 0.2615/33.26, allocations: 119.7 MB / 13.2 GB, free: 1.053 GB / 2.499 GB
Notification: Performance of simCode: created initialization part: time 1.786/35.05, allocations: 0.635 GB / 13.84 GB, free: 0.5629 GB / 2.499 GB
Notification: Performance of simCode: created event and clocks part: time 2.526e-05/35.05, allocations: 16.19 kB / 13.84 GB, free: 0.5629 GB / 2.499 GB
Notification: Performance of simCode: created simulation system equations: time 0.07109/35.12, allocations: 39.92 MB / 13.88 GB, free: 0.5289 GB / 2.499 GB
Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.2277/35.35, allocations: 35.48 MB / 13.91 GB, free: 0.5018 GB / 2.499 GB
Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 22.52/57.87, allocations: 13.88 GB / 27.79 GB, free: 1.38 GB / 2.905 GB
Notification: Performance of simCode: some other stuff during SimCode phase: time 0.2327/58.11, allocations: 74.79 MB / 27.87 GB, free: 1.375 GB / 2.905 GB
Notification: Performance of simCode: alias equations: time 0.2149/58.32, allocations: 45.27 MB / 27.91 GB, free: 1.373 GB / 2.905 GB
Notification: Performance of simCode: all other stuff during SimCode phase: time 0.1629/58.48, allocations: 58.43 MB / 27.97 GB, free: 1.336 GB / 2.905 GB
Notification: Performance of SimCode: time 1.352e-06/58.48, allocations: 0 / 27.97 GB, free: 1.336 GB / 2.905 GB
Notification: Performance of buildModelFMU: Generate the FMI files: time 9.31/67.79, allocations: 3.65 GB / 31.62 GB, free: 0.9495 GB / 2.905 GB
Notification: Performance of buildModelFMU: Generate platform static: time 109.6/177.4, allocations: 19.03 kB / 31.62 GB, free: 0.9495 GB / 2.905 GB
(rm -f Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006.pipe ; mkfifo Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006.pipe ; head -c 1048576 < Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006.pipe >> ../files/Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006.sim & python3 -m fmpy simulate  --output-file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv --start-time 0 --stop-time 172800 --timeout 50 --relative-tolerance 1e-06 --interface-type ModelExchange --solver CVode --output-interval 69.12 Buildings_10_Buildings_Examples_VAVReheat_ASHRAE2006.fmu > Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006.pipe 2>&1)
diffSimulationResults("Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv","/mnt/ReferenceFiles/Buildings/csv/maint_10.0.x/Buildings_Examples_VAVReheat_ASHRAE2006.csv","/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/files/Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006.diff",relTol=0.003,relTolDiffMinMax=0.003,rangeDelta=0.001)
"Warning: Resultfile and Reference have different end time points!
Reffile[3419]=172800.000000
File[38]=1200.000000
Error: Could not read variable flo.sou.air.vol.T in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable flo.sou.air.vol.T from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable flo.eas.air.vol.T in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable flo.eas.air.vol.T from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable flo.nor.air.vol.T in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable flo.nor.air.vol.T from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable flo.wes.air.vol.T in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable flo.wes.air.vol.T from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable flo.cor.air.vol.T in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable flo.cor.air.vol.T from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[1].TSup in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[1].TSup from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[2].TSup in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[2].TSup from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[3].TSup in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[3].TSup from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[4].TSup in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[4].TSup from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[5].TSup in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[5].TSup from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[1].vav.m_flow in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[1].vav.m_flow from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[2].vav.m_flow in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[2].vav.m_flow from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[3].vav.m_flow in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[3].vav.m_flow from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[4].vav.m_flow in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[4].vav.m_flow from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.VAVBox[5].vav.m_flow_turbulent in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.VAVBox[5].vav.m_flow_turbulent from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.conEco.VOut_flow_min in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.conEco.VOut_flow_min from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.conEco.VOut_flow in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.conEco.VOut_flow from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.conEco.yOA in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.conEco.yOA from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.conEco.yOATFre.y in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.conEco.yOATFre.y from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.conEco.conV_flow.y in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.conEco.conV_flow.y from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.conEco.uOATSup in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.conEco.uOATSup from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.dpRetDuc.m_flow in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.dpRetDuc.m_flow from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.dpRetDuc.m_flow_nominal in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.dpRetDuc.m_flow_nominal from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.fanSup.m_flow in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.fanSup.m_flow from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
Error: Could not read variable hvac.fanSup.m_flow_nominal in file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv.
Warning: Get data of variable hvac.fanSup.m_flow_nominal from file Buildings_10_Buildings.Examples.VAVReheat.ASHRAE2006_res.csv failed!
"

Variables in the reference:time,flo.sou.air.vol.T,flo.eas.air.vol.T,flo.nor.air.vol.T,flo.wes.air.vol.T,flo.cor.air.vol.T,hvac.VAVBox[1].TSup,hvac.VAVBox[2].TSup,hvac.VAVBox[3].TSup,hvac.VAVBox[4].TSup,hvac.VAVBox[5].TSup,hvac.VAVBox[1].vav.m_flow,hvac.VAVBox[2].vav.m_flow,hvac.VAVBox[3].vav.m_flow,hvac.VAVBox[4].vav.m_flow,hvac.VAVBox[5].vav.m_flow_turbulent,hvac.conEco.VOut_flow_min,hvac.conEco.VOut_flow,hvac.conEco.yOA,hvac.conEco.yOATFre.y,hvac.conEco.conV_flow.y,hvac.conEco.uOATSup,hvac.dpRetDuc.m_flow,hvac.dpRetDuc.m_flow_nominal,hvac.fanSup.m_flow,hvac.fanSup.m_flow_nominal

Variables in the result:time,flo.cor.air.vol.dynBal.U,flo.cor.air.vol.dynBal.m,flo.cor.air.vol.dynBal.medium.Xi[1],flo.cor.conPar[1].opa.lay[1].T[1],flo.cor.conPar[1].opa.lay[1].T[2]