Ignoring simflag -noemit -jacobian= since it seems broken on HelloWorld Running command: translateModel(HanserModelica.InductionMachines.IMC_Transformer,tolerance=1e-06,outputFormat="empty",numberOfIntervals=50000,variableFilter="",fileNamePrefix="HanserModelica_HanserModelica.InductionMachines.IMC_Transformer") [:1:1-1:32:writable] Error: Class GC_set_max_heap_size not found in scope (looking for a function or record). Notification: Performance of loadModel(HanserModelica): time 1.727/1.727, allocations: 214.7 MB / 221.7 MB, free: 5.121 MB / 186.9 MB Notification: Performance of FrontEnd - loaded program: time 1.007e-05/1.057e-05, allocations: 0 / 275.5 MB, free: 128 kB / 218.9 MB Notification: Performance of FrontEnd - Absyn->SCode: time 0.08571/0.08576, allocations: 49.72 MB / 325.2 MB, free: 14.3 MB / 282.9 MB Notification: Performance of FrontEnd - scodeFlatten: time 0.3826/0.4684, allocations: 164 MB / 489.2 MB, free: 6.934 MB / 410.9 MB Notification: Performance of FrontEnd - mkProgramGraph: time 0.0002222/0.4687, allocations: 72.97 kB / 489.3 MB, free: 6.902 MB / 410.9 MB Notification: Performance of FrontEnd: time 3.559/4.027, allocations: 0.8465 GB / 1.324 GB, free: 30.41 MB / 0.495 GB Notification: Performance of Transformations before backend: time 0.001525/4.029, allocations: 481.2 kB / 1.325 GB, free: 30.34 MB / 0.495 GB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 5875 * Number of variables: 5875 Notification: Performance of Generate backend data structure: time 0.08726/4.116, allocations: 19.55 MB / 1.344 GB, free: 24.36 MB / 0.495 GB Notification: Performance of prepare preOptimizeDAE: time 4.305e-05/4.116, allocations: 9.625 kB / 1.344 GB, free: 24.36 MB / 0.495 GB Notification: Performance of preOpt normalInlineFunction (simulation): time 0.09313/4.209, allocations: 9.609 MB / 1.353 GB, free: 23.12 MB / 0.495 GB Notification: Performance of preOpt evaluateParameters (simulation): time 0.05001/4.259, allocations: 15.9 MB / 1.369 GB, free: 13.1 MB / 0.495 GB Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.00194/4.261, allocations: 0.6797 MB / 1.369 GB, free: 12.42 MB / 0.495 GB Notification: Performance of preOpt expandDerOperator (simulation): time 0.009784/4.271, allocations: 1.187 MB / 1.371 GB, free: 11.23 MB / 0.495 GB Notification: Performance of preOpt removeEqualFunctionCalls (simulation): time 0.3833/4.655, allocations: 29.66 MB / 1.4 GB, free: 58.67 MB / 0.495 GB Notification: Performance of preOpt clockPartitioning (simulation): time 0.1023/4.757, allocations: 32.69 MB / 1.431 GB, free: 56.38 MB / 0.495 GB Notification: Performance of preOpt findStateOrder (simulation): time 0.001058/4.758, allocations: 37.31 kB / 1.431 GB, free: 56.38 MB / 0.495 GB Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.008097/4.766, allocations: 15.19 kB / 1.432 GB, free: 56.38 MB / 0.495 GB Notification: Performance of preOpt inlineArrayEqn (simulation): time 0.00171/4.768, allocations: 1.427 MB / 1.433 GB, free: 56.34 MB / 0.495 GB Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.2517/5.02, allocations: 111.7 MB / 1.542 GB, free: 13.05 MB / 0.495 GB Notification: Performance of preOpt comSubExp (simulation): time 0.02663/5.046, allocations: 13.82 MB / 1.555 GB, free: 7.355 MB / 0.495 GB Notification: Performance of preOpt resolveLoops (simulation): time 0.2861/5.332, allocations: 17.35 MB / 1.572 GB, free: 59.87 MB / 0.495 GB Notification: Performance of preOpt evalFunc (simulation): time 0.1744/5.507, allocations: 52.22 MB / 1.623 GB, free: 58.1 MB / 0.495 GB Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.0002327/5.507, allocations: 193.1 kB / 1.624 GB, free: 58.05 MB / 0.495 GB Notification: Performance of pre-optimization done (n=1685): time 2.946e-05/5.507, allocations: 3.156 kB / 1.624 GB, free: 58.05 MB / 0.495 GB Notification: Performance of matching and sorting (n=1697): time 0.1743/5.682, allocations: 61.25 MB / 1.683 GB, free: 42.13 MB / 0.495 GB Notification: Performance of inlineWhenForInitialization (initialization): time 0.0001364/5.682, allocations: 229.4 kB / 1.684 GB, free: 42.02 MB / 0.495 GB Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.01345/5.695, allocations: 4.962 MB / 1.689 GB, free: 40.14 MB / 0.495 GB Notification: Performance of collectPreVariables (initialization): time 0.003401/5.699, allocations: 25.7 kB / 1.689 GB, free: 40.11 MB / 0.495 GB Notification: Performance of collectInitialEqns (initialization): time 0.004121/5.703, allocations: 6.166 MB / 1.695 GB, free: 35.72 MB / 0.495 GB Notification: Performance of collectInitialBindings (initialization): time 0.008002/5.711, allocations: 5.356 MB / 1.7 GB, free: 31.45 MB / 0.495 GB Notification: Performance of simplifyInitialFunctions (initialization): time 0.003631/5.714, allocations: 2.5 kB / 1.7 GB, free: 31.45 MB / 0.495 GB Notification: Performance of setup shared object (initialization): time 0.002092/5.717, allocations: 0.9364 MB / 1.701 GB, free: 30.88 MB / 0.495 GB Notification: Performance of preBalanceInitialSystem (initialization): time 0.02352/5.74, allocations: 11.09 MB / 1.712 GB, free: 26.29 MB / 0.495 GB Notification: Performance of partitionIndependentBlocks (initialization): time 0.02731/5.768, allocations: 13.26 MB / 1.724 GB, free: 19.5 MB / 0.495 GB Notification: Performance of analyzeInitialSystem (initialization): time 0.03516/5.803, allocations: 13.54 MB / 1.738 GB, free: 12.65 MB / 0.495 GB Notification: Performance of solveInitialSystemEqSystem (initialization): time 0.000123/5.803, allocations: 13.12 kB / 1.738 GB, free: 12.64 MB / 0.495 GB Notification: Performance of matching and sorting (n=1974) (initialization): time 0.3554/6.158, allocations: 33.89 MB / 1.771 GB, free: 50.04 MB / 0.495 GB Notification: Performance of prepare postOptimizeDAE: time 2.064e-05/6.158, allocations: 2.75 kB / 1.771 GB, free: 50.04 MB / 0.495 GB Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.0001826/6.159, allocations: 52.66 kB / 1.771 GB, free: 50.04 MB / 0.495 GB Notification: Performance of postOpt tearingSystem (initialization): time 0.04329/6.202, allocations: 14.78 MB / 1.785 GB, free: 49.51 MB / 0.495 GB Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.01484/6.217, allocations: 2.254 MB / 1.787 GB, free: 49.51 MB / 0.495 GB Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.06631/6.283, allocations: 37 MB / 1.824 GB, free: 40.58 MB / 0.495 GB Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.01397/6.297, allocations: 346.1 kB / 1.824 GB, free: 40.58 MB / 0.495 GB Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.004376/6.302, allocations: 0.5517 MB / 1.824 GB, free: 40.58 MB / 0.495 GB Warning: Iteration variables with default zero start attribute in torn nonlinear equation system: transformerQS.star1.plugToPins_p.pin_p[1].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.star1.plugToPins_p.pin_p[2].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.star1.plugToPins_p.pin_p[3].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.star1.plugToPins_p.pin_p[3].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.core.v1[2].im:VARIABLE(unit = "V" ) "Real part of complex voltage" type: Real [3] transformerQS.core.v1[2].re:VARIABLE(unit = "V" ) "Imaginary part of complex voltage" type: Real [3] imcQS.rotorCage.resistor.resistor[2].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.rotorCage.resistor.resistor[2].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] imcQS.rotorCage.resistor.resistor[1].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.rotorCage.resistor.resistor[1].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] imcQS.rotorCage.resistor.resistor[3].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] imcQS.rotorCage.resistor.resistor[3].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.stator.resistor.resistor[3].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.stator.resistor.resistor[3].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] imcQS.stator.resistor.resistor[2].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.stator.resistor.resistor[2].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] imcQS.stator.resistor.resistor[1].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] imcQS.stator.resistor.resistor[1].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.r2.resistor[3].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.r2.resistor[3].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.r2.resistor[2].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.r2.resistor[2].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.l2sigma.inductor[2].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.l2sigma.inductor[2].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.l1sigma.inductor[2].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.l1sigma.inductor[2].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.l1sigma.inductor[1].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.l1sigma.inductor[1].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.l2sigma.inductor[3].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.l2sigma.inductor[3].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.l2sigma.inductor[1].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.l2sigma.inductor[1].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.r2.resistor[1].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.r2.resistor[1].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.r1.resistor[3].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.r1.resistor[3].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.r1.resistor[2].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.r1.resistor[2].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.l1sigma.inductor[3].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.l1sigma.inductor[3].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.r1.resistor[1].i.im:VARIABLE(unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.r1.resistor[1].i.re:VARIABLE(unit = "A" ) "Real part of complex current" type: Real [3] idealCloserQS.idealClosingSwitch[2].s.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[2].s2.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCloserQS.idealClosingSwitch[1].s.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[1].s1.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[3].s1.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCloserQS.idealClosingSwitch[3].s.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[2].s1.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] terminalBoxQS.delta.plugToPins_n.pin_n[2].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[3].s2.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[2].s1.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] terminalBoxQS.delta.plugToPins_n.pin_n[3].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] terminalBoxQS.delta.plugToPins_n.pin_n[3].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] terminalBoxQS.delta.plugToPins_n.pin_n[1].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] terminalBoxQS.delta.plugToPins_n.pin_n[1].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] terminalBoxQS.delta.plugToPins_n.pin_n[2].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[1].s1.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[3].s1.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] idealCloserQS.idealClosingSwitch[3].s.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] idealCloserQS.idealClosingSwitch[2].s.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCloserQS.idealClosingSwitch[1].s.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[1].s2.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[1].s2.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[3].s2.im:VARIABLE(unit = "1" protected = true ) "Imaginary part of complex number" type: Real [3] idealCommutingSwitchQS.idealCommutingSwitch[2].s2.re:VARIABLE(unit = "1" protected = true ) "Real part of complex number" type: Real [3] Warning: Iteration variables with default zero start attribute in torn nonlinear equation system: imcQS.rotorCage.multiStar.plugToPins_p.pin_p[3].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] imcQS.rotorCage.multiStar.plugToPins_p.pin_p[2].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.rotorCage.multiStar.plugToPins_p.pin_p[2].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] imcQS.rotorCage.multiStar.plugToPins_p.pin_p[3].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.rotorCage.multiStar.plugToPins_p.pin_p[1].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] imcQS.rotorCage.multiStar.plugToPins_p.pin_p[1].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] Warning: Iteration variables with default zero start attribute in torn nonlinear equation system: transformerQS.star2.plugToPins_p.pin_p[2].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.star2.plugToPins_p.pin_p[1].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.star2.plugToPins_p.pin_p[1].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.star2.plugToPins_p.pin_p[3].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] transformerQS.star2.plugToPins_p.pin_p[3].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] transformerQS.star2.plugToPins_p.pin_p[2].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] Warning: Iteration variables with default zero start attribute in torn nonlinear equation system: currentRMSSensorQS.currentSensor[3].y.im:VARIABLE() "Imaginary part of complex number" type: Real [3] currentRMSSensorQS.currentSensor[1].y.re:VARIABLE() "Real part of complex number" type: Real [3] currentRMSSensorQS.currentSensor[2].y.im:VARIABLE() "Imaginary part of complex number" type: Real [3] currentRMSSensorQS.currentSensor[2].y.re:VARIABLE() "Real part of complex number" type: Real [3] currentRMSSensorQS.currentSensor[1].y.im:VARIABLE() "Imaginary part of complex number" type: Real [3] currentRMSSensorQS.currentSensor[3].y.re:VARIABLE() "Real part of complex number" type: Real [3] Warning: Iteration variables with default zero start attribute in torn nonlinear equation system: starQS.plugToPins_p.pin_p[2].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] starQS.plugToPins_p.pin_p[3].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] starQS.plugToPins_p.pin_p[3].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] starQS.plugToPins_p.pin_p[2].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] starQS.plugToPins_p.pin_p[1].i.im:VARIABLE(flow=true unit = "A" ) "Imaginary part of complex current" type: Real [3] starQS.plugToPins_p.pin_p[1].i.re:VARIABLE(flow=true unit = "A" ) "Real part of complex current" type: Real [3] Notification: Model statistics after passing the back-end for initialization: * Number of independent subsystems: 230 * Number of states: 0 () * Number of discrete variables: 12 (booleanStep1[1].y,booleanStep1[2].y,booleanStep1[3].y,booleanStep2[1].y,booleanStep2[2].y,booleanStep2[3].y,booleanStep1QS[1].y,booleanStep1QS[2].y,booleanStep1QS[3].y,booleanStep2QS[1].y,booleanStep2QS[2].y,booleanStep2QS[3].y) * Number of discrete states: 0 () * Top-level inputs: 0 Notification: Strong component statistics for initialization (1167): * Single equations (assignments): 1127 * Array equations: 0 * Algorithm blocks: 0 * Record equations: 29 * When equations: 0 * If-equations: 0 * Equation systems (linear and non-linear blocks): 1 * Torn equation systems: 10 * Mixed (continuous/discrete) equation systems: 0 Notification: Equation system details: * Constant Jacobian: 0 * Linear Jacobian (size,density): 1 {(2,100.0%)} * Non-linear Jacobian: 0 * Without analytic Jacobian: 0 Notification: Torn system details for strict tearing set: * Linear torn systems: 5 {(3,88.9%) 25,(1,100.0%) 8,(1,100.0%) 1,(1,100.0%) 13,(1,100.0%) 1} * Non-linear torn systems: 5 {6 9,6 9,6 9,6 9,66 432} Notification: Performance of prepare postOptimizeDAE: time 0.007578/6.309, allocations: 0.5884 MB / 1.825 GB, free: 40.45 MB / 0.495 GB Notification: Performance of postOpt lateInlineFunction (simulation): time 0.005374/6.315, allocations: 0.9636 MB / 1.826 GB, free: 40.45 MB / 0.495 GB Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.09331/6.408, allocations: 34.15 MB / 1.859 GB, free: 36.57 MB / 0.495 GB Notification: Performance of postOpt inlineArrayEqn (simulation): time 0.0006022/6.409, allocations: 401.5 kB / 1.86 GB, free: 36.38 MB / 0.495 GB Notification: Performance of postOpt constantLinearSystem (simulation): time 7.448e-05/6.409, allocations: 9.562 kB / 1.86 GB, free: 36.38 MB / 0.495 GB Notification: Performance of postOpt simplifysemiLinear (simulation): time 0.0003061/6.409, allocations: 77.16 kB / 1.86 GB, free: 36.38 MB / 0.495 GB Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.1772/6.586, allocations: 61.8 MB / 1.92 GB, free: 3.031 MB / 0.495 GB Notification: Performance of postOpt simplifyComplexFunction (simulation): time 0.0003321/6.587, allocations: 4 kB / 1.92 GB, free: 3.027 MB / 0.495 GB Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.04452/6.631, allocations: 1.791 MB / 1.922 GB, free: 1.621 MB / 0.495 GB Notification: Performance of postOpt tearingSystem (simulation): time 0.3331/6.964, allocations: 16.09 MB / 1.938 GB, free: 51.18 MB / 0.495 GB Notification: Performance of postOpt inputDerivativesUsed (simulation): time 0.003786/6.968, allocations: 165 kB / 1.938 GB, free: 51.18 MB / 0.495 GB Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.06951/7.038, allocations: 40.97 MB / 1.978 GB, free: 39.77 MB / 0.495 GB Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 1.157e-05/7.038, allocations: 12.2 kB / 1.978 GB, free: 39.77 MB / 0.495 GB Notification: Performance of postOpt detectJacobianSparsePattern (simulation): time 0.1179/7.156, allocations: 51.31 MB / 2.028 GB, free: 35.88 MB / 0.495 GB Notification: Performance of postOpt removeConstants (simulation): time 0.01222/7.168, allocations: 3.608 MB / 2.031 GB, free: 34.46 MB / 0.495 GB Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.005509/7.173, allocations: 27.27 kB / 2.031 GB, free: 34.46 MB / 0.495 GB Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.01202/7.186, allocations: 383.4 kB / 2.032 GB, free: 34.46 MB / 0.495 GB Notification: Performance of postOpt findZeroCrossings (simulation): time 0.005312/7.191, allocations: 1.131 MB / 2.033 GB, free: 34.22 MB / 0.495 GB Notification: Performance of postOpt collapseArrayExpressions (simulation): time 0.003742/7.195, allocations: 446.2 kB / 2.033 GB, free: 34.11 MB / 0.495 GB Notification: Performance of sort global known variables: time 0.009786/7.204, allocations: 3.708 MB / 2.037 GB, free: 32.66 MB / 0.495 GB Notification: Performance of remove unused functions: time 0.02251/7.227, allocations: 3.494 MB / 2.04 GB, free: 32.64 MB / 0.495 GB Notification: Model statistics after passing the back-end for simulation: * Number of independent subsystems: 15 * Number of states: 12 (imcQS.rotorCage.port_p.reference.gamma,loadInertiaQS.w,quadraticLoadTorqueQS.phi,imc.stator.core.Phi.re,imc.stator.core.Phi.im,imc.stator.zeroInductor.i0,imc.rotorCage.electroMagneticConverter.singlePhaseElectroMagneticConverter[3].Phi.re,imc.rotorCage.electroMagneticConverter.singlePhaseElectroMagneticConverter[3].Phi.im,transformer.l1sigma.inductor[2].i,transformer.l1sigma.inductor[3].i,loadInertia.w,quadraticLoadTorque.phi) * Number of discrete variables: 12 (booleanStep1QS[1].y,booleanStep1QS[2].y,booleanStep1QS[3].y,booleanStep2QS[1].y,booleanStep2QS[2].y,booleanStep2QS[3].y,booleanStep1[1].y,booleanStep1[2].y,booleanStep1[3].y,booleanStep2[1].y,booleanStep2[2].y,booleanStep2[3].y) * Number of discrete states: 0 () * Top-level inputs: 0 Notification: Strong component statistics for simulation (929): * Single equations (assignments): 888 * Array equations: 0 * Algorithm blocks: 0 * Record equations: 29 * When equations: 0 * If-equations: 0 * Equation systems (linear and non-linear blocks): 0 * Torn equation systems: 12 * Mixed (continuous/discrete) equation systems: 0 Notification: Torn system details for strict tearing set: * Linear torn systems: 7 {(1,100.0%) 1,(1,100.0%) 8,(2,100.0%) 26,(1,100.0%) 13,(1,100.0%) 1,(1,100.0%) 8,(2,100.0%) 12} * Non-linear torn systems: 5 {6 9,6 9,6 9,6 9,66 432} Notification: Performance of Backend phase and start with SimCode phase: time 0.004543/7.232, allocations: 0.5881 MB / 2.041 GB, free: 32.51 MB / 0.495 GB Notification: Performance of simCode: created initialization part: time 0.06369/7.295, allocations: 27.84 MB / 2.068 GB, free: 21.71 MB / 0.495 GB Notification: Performance of simCode: created event and clocks part: time 1.24e-05/7.295, allocations: 3.375 kB / 2.068 GB, free: 21.71 MB / 0.495 GB Notification: Performance of simCode: created simulation system equations: time 0.03952/7.335, allocations: 15.73 MB / 2.084 GB, free: 10.21 MB / 0.495 GB Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.01515/7.35, allocations: 1.605 MB / 2.085 GB, free: 9.027 MB / 0.495 GB Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 0.4165/7.767, allocations: 44.05 MB / 2.128 GB, free: 59.84 MB / 0.5107 GB Notification: Performance of simCode: all other stuff during SimCode phase: time 0.05616/7.823, allocations: 14.66 MB / 2.142 GB, free: 58.63 MB / 0.5107 GB Notification: Performance of SimCode: time 2.306e-06/7.823, allocations: 5.062 kB / 2.142 GB, free: 58.63 MB / 0.5107 GB Notification: Performance of Templates: time 0.8476/8.671, allocations: 280.2 MB / 2.416 GB, free: 43.13 MB / 0.5107 GB make -j1 -f HanserModelica_HanserModelica.InductionMachines.IMC_Transformer.makefile clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer.c clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_functions.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_functions.c HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_functions.c:709:11: warning: equality comparison with extraneous parentheses [-Wparentheses-equality] if((_y0 == 0.0)) ~~~~^~~~~~ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_functions.c:709:11: note: remove extraneous parentheses around the comparison to silence this warning if((_y0 == 0.0)) ~ ^ ~ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_functions.c:709:11: note: use '=' to turn this equality comparison into an assignment if((_y0 == 0.0)) ^~ = 1 warning generated. clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_records.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_records.c clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_01exo.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_01exo.c clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_02nls.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_02nls.c clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_03lsy.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_03lsy.c clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_04set.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_04set.c clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_05evt.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_05evt.c clang -fPIC -O0 -march=native -I"/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelica/../OMCompiler/build/include/omc/c" -I. -DOPENMODELICA_XML_FROM_FILE_AT_RUNTIME -DOMC_MODEL_PREFIX=HanserModelica_HanserModelica_InductionMachines_IMC_Transformer -DOMC_NUM_MIXED_SYSTEMS=0 -DOMC_NUM_LINEAR_SYSTEMS=13 -DOMC_NUM_NONLINEAR_SYSTEMS=14 -DOMC_NDELAY_EXPRESSIONS=0 -DOMC_NVAR_STRING=0 -c -o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.o HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:27:10: error: use of undeclared identifier '$Pu$lB1$rB$Pre' tmp0 = $Pu$lB1$rB$Pre; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:28:10: error: use of undeclared identifier '$Pu$lB1$rB$Pim' tmp1 = $Pu$lB1$rB$Pim; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:29:10: error: use of undeclared identifier '$Pu$lB2$rB$Pre' tmp2 = $Pu$lB2$rB$Pre; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:30:10: error: use of undeclared identifier '$Pu$lB2$rB$Pim' tmp3 = $Pu$lB2$rB$Pim; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:31:10: error: use of undeclared identifier '$Pu$lB3$rB$Pre' tmp4 = $Pu$lB3$rB$Pre; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:32:10: error: use of undeclared identifier '$Pu$lB3$rB$Pim' tmp5 = $Pu$lB3$rB$Pim; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:52:10: error: use of undeclared identifier '$Pu$lB1$rB$Pre' tmp6 = $Pu$lB1$rB$Pre; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:53:10: error: use of undeclared identifier '$Pu$lB1$rB$Pim' tmp7 = $Pu$lB1$rB$Pim; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:54:10: error: use of undeclared identifier '$Pu$lB2$rB$Pre' tmp8 = $Pu$lB2$rB$Pre; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:55:10: error: use of undeclared identifier '$Pu$lB2$rB$Pim' tmp9 = $Pu$lB2$rB$Pim; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:56:11: error: use of undeclared identifier '$Pu$lB3$rB$Pre' tmp10 = $Pu$lB3$rB$Pre; ^ HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.c:57:11: error: use of undeclared identifier '$Pu$lB3$rB$Pim' tmp11 = $Pu$lB3$rB$Pim; ^ 12 errors generated. : recipe for target 'HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.o' failed make: *** [HanserModelica_HanserModelica.InductionMachines.IMC_Transformer_06inz.o] Error 1