Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr Dynawo_dev_Dynawo.Examples.HVDC.HVDC.conf.json
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo): time 0.001428/0.001428, allocations: 84.12 kB / 19.96 MB, free: 1.758 MB / 14.72 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo): time 0.001848/0.001848, allocations: 162.5 kB / 23.23 MB, free: 4.883 MB / 14.72 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo): time 1.643/1.643, allocations: 158.6 MB / 185 MB, free: 6.395 MB / 174.1 MB
"
[Timeout remaining time 178]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/package.mo): time 0.6988/0.6988, allocations: 90.26 MB / 327.5 MB, free: 52 kB / 302.1 MB
"
[Timeout remaining time 179]
Using package Dynawo with version 1.8.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/package.mo)
Using package Modelica with version 3.2.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/package.mo)
Using package Complex with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo)
Using package ModelicaServices with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo)
Running command: translateModel(Dynawo.Examples.HVDC.HVDC,tolerance=1e-06,outputFormat="mat",numberOfIntervals=100000,variableFilter="time|HVDC.Conv1.PInjPu|HVDC.Conv1.QInjPu|HVDC.Conv1.UPu|HVDC.Conv2.PInjPu|HVDC.Conv2.QInjPu|HVDC.Conv2.UPu|HVDC.Conv1.UPhase|HVDC.Conv2.UPhase",fileNamePrefix="Dynawo_dev_Dynawo.Examples.HVDC.HVDC")
translateModel(Dynawo.Examples.HVDC.HVDC,tolerance=1e-06,outputFormat="mat",numberOfIntervals=100000,variableFilter="time|HVDC.Conv1.PInjPu|HVDC.Conv1.QInjPu|HVDC.Conv1.UPu|HVDC.Conv2.PInjPu|HVDC.Conv2.QInjPu|HVDC.Conv2.UPu|HVDC.Conv1.UPhase|HVDC.Conv2.UPhase",fileNamePrefix="Dynawo_dev_Dynawo.Examples.HVDC.HVDC") [Timeout 660]
"Warning: Ignoring unknown experiment annotation option: emit_protected = \"()\"
Notification: Performance of FrontEnd - loaded program: time 1.874e-06/1.874e-06, allocations: 0 / 0.499 GB, free: 49.9 MB / 478.1 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 2.598e-05/2.785e-05, allocations: 5.812 kB / 0.499 GB, free: 49.9 MB / 478.1 MB
Notification: Performance of NFInst.instantiate(Dynawo.Examples.HVDC.HVDC): time 0.01249/0.01251, allocations: 12.74 MB / 0.5114 GB, free: 41.39 MB / 478.1 MB
Notification: Performance of NFInst.instExpressions: time 0.01668/0.02919, allocations: 7.999 MB / 0.5192 GB, free: 35.63 MB / 478.1 MB
Notification: Performance of NFInst.updateImplicitVariability: time 0.007826/0.03702, allocations: 97.25 kB / 0.5193 GB, free: 35.58 MB / 478.1 MB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/HvdcVsc.mo:75:3-75:104:writable] Warning: Connector Theta1 is not balanced: The number of potential variables (1) is not equal to the number of flow variables (0).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/HvdcVsc.mo:76:3-76:104:writable] Warning: Connector Theta2 is not balanced: The number of potential variables (1) is not equal to the number of flow variables (0).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/BaseClasses_INIT/BaseHVDC_INIT.mo:30:3-30:147:writable] Warning: Connector P1Ref0Pu is not balanced: The number of potential variables (1) is not equal to the number of flow variables (0).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/BaseClasses_INIT/BaseHVDC_INIT.mo:32:3-32:102:writable] Warning: Connector Theta10 is not balanced: The number of potential variables (1) is not equal to the number of flow variables (0).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/BaseClasses_INIT/BaseHVDC_INIT.mo:37:3-37:102:writable] Warning: Connector Theta20 is not balanced: The number of potential variables (1) is not equal to the number of flow variables (0).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/HvdcVsc_INIT.mo:31:3-31:124:writable] Warning: Connector PRef0Pu is not balanced: The number of potential variables (1) is not equal to the number of flow variables (0).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/HvdcVsc_INIT.mo:37:3-37:143:writable] Warning: Connector URef10Pu is not balanced: The number of potential variables (1) is not equal to the number of flow variables (0).
Notification: Performance of NFTyping.typeComponents: time 0.003745/0.04076, allocations: 1.083 MB / 0.5204 GB, free: 35.11 MB / 478.1 MB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 3.2.3+maint.om/Utilities/Strings.mo:139:3-175:14:writable] Warning: Pure function 'Modelica.Utilities.Strings.isEmpty' contains a call to impure function 'Modelica.Utilities.Strings.Advanced.skipWhiteSpace'.
Notification: Performance of NFTyping.typeBindings: time 0.00598/0.04674, allocations: 1.608 MB / 0.522 GB, free: 34.04 MB / 478.1 MB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/BaseControls/LimitsCalculation/LimitsCalculationUDc.mo:34:3-38:9:writable] Warning: In relation HVDC.UDcPuSide.limitsCalculationUDc.iqModPu == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/BaseControls/LimitsCalculation/LimitsCalculationUDc.mo:34:3-38:9:writable] Warning: In relation HVDC.UDcPuSide.limitsCalculationUDc.iqMod1Pu == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/BaseControls/LimitsCalculation/BaseLimitsCalculation.mo:37:3-41:9:writable] Warning: In relation HVDC.UDcPuSide.limitsCalculationUDc.iqModPu == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/BaseControls/ActivePowerControl/RPFaultFunction.mo:40:3-40:78:writable] Warning: In relation HVDC.PPuSide.activePowerControl.RPFault.timer == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/BaseControls/LimitsCalculation/LimitsCalculationP.mo:32:3-36:9:writable] Warning: In relation HVDC.PPuSide.limitsCalculationP.iqModPu == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/BaseControls/LimitsCalculation/LimitsCalculationP.mo:32:3-36:9:writable] Warning: In relation HVDC.PPuSide.limitsCalculationP.iqMod2Pu == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/HVDC/HvdcVsc/BaseControls/LimitsCalculation/BaseLimitsCalculation.mo:37:3-41:9:writable] Warning: In relation HVDC.PPuSide.limitsCalculationP.iqModPu == 0.0, == on Real operands is deprecated in non-function contexts.
Notification: Performance of NFTyping.typeClassSections: time 0.009216/0.05596, allocations: 3.817 MB / 0.5257 GB, free: 31.59 MB / 478.1 MB
Notification: Performance of NFFlatten.flatten: time 0.009783/0.06574, allocations: 6.395 MB / 0.5319 GB, free: 28.04 MB / 478.1 MB
Notification: Performance of NFFlatten.resolveConnections: time 0.003026/0.06877, allocations: 1.261 MB / 0.5332 GB, free: 27.21 MB / 478.1 MB
Notification: Performance of NFEvalConstants.evaluate: time 0.004051/0.07282, allocations: 2.133 MB / 0.5353 GB, free: 26.02 MB / 478.1 MB
Notification: Performance of NFSimplifyModel.simplify: time 0.003681/0.0765, allocations: 1.872 MB / 0.5371 GB, free: 25.21 MB / 478.1 MB
Notification: Performance of NFPackage.collectConstants: time 0.001558/0.07806, allocations: 0.6103 MB / 0.5377 GB, free: 25.21 MB / 478.1 MB
Notification: Performance of NFFlatten.collectFunctions: time 0.002029/0.08009, allocations: 0.8619 MB / 0.5385 GB, free: 25.14 MB / 478.1 MB
Notification: Performance of NFScalarize.scalarize: time 0.001088/0.08118, allocations: 1.277 MB / 0.5398 GB, free: 24.2 MB / 478.1 MB
Notification: Performance of NFVerifyModel.verify: time 0.002175/0.08335, allocations: 1.549 MB / 0.5413 GB, free: 23.2 MB / 478.1 MB
Notification: Performance of NFConvertDAE.convert: time 0.009329/0.09268, allocations: 8.308 MB / 0.5494 GB, free: 17.27 MB / 478.1 MB
Notification: Performance of FrontEnd - DAE generated: time 7.734e-06/0.09269, allocations: 0 / 0.5494 GB, free: 17.27 MB / 478.1 MB
Notification: Performance of FrontEnd: time 1.432e-06/0.09269, allocations: 0 / 0.5494 GB, free: 17.27 MB / 478.1 MB
Notification: Performance of Transformations before backend: time 0.00027/0.09296, allocations: 1.219 kB / 0.5494 GB, free: 17.27 MB / 478.1 MB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 659
 * Number of variables: 659
Notification: Performance of Generate backend data structure: time 0.01696/0.1099, allocations: 5.639 MB / 0.5549 GB, free: 13.25 MB / 478.1 MB
Notification: Performance of prepare preOptimizeDAE: time 4.646e-05/0.11, allocations: 9.719 kB / 0.5549 GB, free: 13.25 MB / 478.1 MB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.00545/0.1154, allocations: 0.9756 MB / 0.5559 GB, free: 12.78 MB / 478.1 MB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.006714/0.1221, allocations: 3.277 MB / 0.5591 GB, free: 10.2 MB / 478.1 MB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.0006024/0.1227, allocations: 0.7458 MB / 0.5598 GB, free: 9.461 MB / 478.1 MB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.001042/0.1238, allocations: 288.1 kB / 0.5601 GB, free: 9.359 MB / 478.1 MB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.008485/0.1323, allocations: 4.125 MB / 0.5641 GB, free: 6.281 MB / 478.1 MB
Notification: Performance of preOpt findStateOrder (simulation): time 5.744e-05/0.1323, allocations: 11.66 kB / 0.5641 GB, free: 6.273 MB / 478.1 MB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.0003335/0.1327, allocations: 117.5 kB / 0.5642 GB, free: 6.191 MB / 478.1 MB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 5.898e-05/0.1327, allocations: 63.91 kB / 0.5643 GB, free: 6.191 MB / 478.1 MB
Notification: Performance of preOpt removeEqualRHS (simulation): time 0.006494/0.1392, allocations: 2.873 MB / 0.5671 GB, free: 4.078 MB / 478.1 MB
Warning: The model contains alias variables with redundant start and/or conflicting nominal values. It is recommended to resolve the conflicts, because otherwise the system could be hard to solve. To print the conflicting alias sets and the chosen candidates please use -d=aliasConflicts.
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.02228/0.1615, allocations: 13.17 MB / 0.5799 GB, free: 6.625 MB / 494.1 MB
Notification: Performance of preOpt comSubExp (simulation): time 0.009718/0.1712, allocations: 3.366 MB / 0.5832 GB, free: 3.227 MB / 494.1 MB
Notification: Performance of preOpt resolveLoops (simulation): time 0.003884/0.1751, allocations: 1.38 MB / 0.5846 GB, free: 1.832 MB / 494.1 MB
Notification: Performance of preOpt evalFunc (simulation): time 0.0001788/0.1753, allocations: 33.98 kB / 0.5846 GB, free: 1.801 MB / 494.1 MB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.005151/0.1804, allocations: 2.25 MB / 0.5868 GB, free: 15.45 MB / 0.4981 GB
Notification: Performance of pre-optimization done (n=255): time 6.252e-06/0.1804, allocations: 3.938 kB / 0.5868 GB, free: 15.45 MB / 0.4981 GB
Notification: Performance of matching and sorting (n=255): time 0.02676/0.2072, allocations: 6.46 MB / 0.5931 GB, free: 8.961 MB / 0.4981 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 0.0003896/0.2076, allocations: 499 kB / 0.5936 GB, free: 8.367 MB / 0.4981 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.00777/0.2153, allocations: 3.847 MB / 0.5974 GB, free: 4.5 MB / 0.4981 GB
Notification: Performance of collectPreVariables (initialization): time 0.0006768/0.216, allocations: 93.69 kB / 0.5974 GB, free: 4.402 MB / 0.4981 GB
Notification: Performance of collectInitialEqns (initialization): time 0.002139/0.2182, allocations: 1.795 MB / 0.5992 GB, free: 2.594 MB / 0.4981 GB
Notification: Performance of collectInitialBindings (initialization): time 0.001636/0.2198, allocations: 0.8524 MB / 0.6 GB, free: 1.734 MB / 0.4981 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.001829/0.2216, allocations: 0.6528 MB / 0.6007 GB, free: 1.074 MB / 0.4981 GB
Notification: Performance of setup shared object (initialization): time 0.0001303/0.2217, allocations: 301.1 kB / 0.601 GB, free: 0.7773 MB / 0.4981 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.004017/0.2258, allocations: 1.57 MB / 0.6025 GB, free: 15.2 MB / 0.5137 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.004822/0.2306, allocations: 2.569 MB / 0.605 GB, free: 12.31 MB / 0.5137 GB
Notification: Performance of analyzeInitialSystem (initialization): time 0.02355/0.2541, allocations: 7.283 MB / 0.6121 GB, free: 4.75 MB / 0.5137 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 2.987e-05/0.2542, allocations: 4 kB / 0.6121 GB, free: 4.746 MB / 0.5137 GB
Notification: Performance of matching and sorting (n=472) (initialization): time 0.01894/0.2731, allocations: 5.389 MB / 0.6174 GB, free: 15.29 MB / 0.5294 GB
Notification: Performance of prepare postOptimizeDAE: time 0.0001414/0.2732, allocations: 61.67 kB / 0.6174 GB, free: 15.23 MB / 0.5294 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 4.57e-05/0.2733, allocations: 19.94 kB / 0.6175 GB, free: 15.21 MB / 0.5294 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.00241/0.2757, allocations: 0.8488 MB / 0.6183 GB, free: 14.34 MB / 0.5294 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.003889/0.2796, allocations: 0.6435 MB / 0.6189 GB, free: 13.7 MB / 0.5294 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.02253/0.3021, allocations: 10.94 MB / 0.6296 GB, free: 2.258 MB / 0.5294 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.004745/0.3069, allocations: 478 kB / 0.63 GB, free: 1.789 MB / 0.5294 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.0007048/0.3076, allocations: 140 kB / 0.6302 GB, free: 1.652 MB / 0.5294 GB
Warning: Assuming fixed start value for the following 34 variables:
         line2.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = line2.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         line1.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = line1.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         HVDC.Conv2.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = HVDC.Conv2.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         HVDC.Conv1.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = HVDC.Conv1.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         HVDC.Blocking2.tMaintainBlock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to maintain the blocking for a duration of at least TBlock\" type: Real
         HVDC.Blocking2.tPrepareDeblock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to prepare the deactivation of the blocking\" type: Real
         HVDC.Blocking2.tStartBlock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to start the blocking\" type: Real
         HVDC.Blocking2.tPrepareBlock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to prepare the blocking\" type: Real
         HVDC.Blocking1.tMaintainBlock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to maintain the blocking for a duration of at least TBlock\" type: Real
         HVDC.Blocking1.tPrepareDeblock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to prepare the deactivation of the blocking\" type: Real
         HVDC.Blocking1.tStartBlock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to start the blocking\" type: Real
         HVDC.Blocking1.tPrepareBlock:DISCRETE(start = 1e60 unit = \"s\" fixed = true protected = true )  \"Timer to prepare the blocking\" type: Real
         HVDC.UDcPuSide.dCVoltageControl.firstOrder1.y:VARIABLE(flow=false start = HVDC.UDcPuSide.dCVoltageControl.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.UDcPuSide.aCVoltageControl.firstOrder.y:VARIABLE(flow=false start = HVDC.UDcPuSide.aCVoltageControl.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.UDcPuSide.aCVoltageControl.firstOrder1.y:VARIABLE(flow=false start = HVDC.UDcPuSide.aCVoltageControl.qRefLim.U0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.UDcPuSide.aCVoltageControl.firstOrder2.y:VARIABLE(flow=false start = HVDC.UDcPuSide.aCVoltageControl.qRefQU.Q0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.UDcPuSide.aCVoltageControl.firstOrder3.y:VARIABLE(flow=false start = HVDC.UDcPuSide.aCVoltageControl.qRefLim.P0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.PPuSide.activePowerControl.firstOrder2.y:VARIABLE(flow=false start = HVDC.PPuSide.activePowerControl.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.PPuSide.activePowerControl.RPFault.timer:DISCRETE(start = 0.0 unit = \"s\" fixed = true )  type: Real
         HVDC.PPuSide.aCVoltageControl.firstOrder.y:VARIABLE(flow=false start = HVDC.PPuSide.aCVoltageControl.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.PPuSide.aCVoltageControl.firstOrder1.y:VARIABLE(flow=false start = HVDC.PPuSide.aCVoltageControl.qRefLim.U0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.PPuSide.aCVoltageControl.firstOrder2.y:VARIABLE(flow=false start = HVDC.PPuSide.aCVoltageControl.qRefQU.Q0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.PPuSide.aCVoltageControl.firstOrder3.y:VARIABLE(flow=false start = HVDC.PPuSide.aCVoltageControl.qRefLim.P0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         HVDC.Blocking1.blocked:DISCRETE(flow=false start = false fixed = true )  \"If true, converter is blocked\" type: Boolean
         HVDC.Blocking1.UFilteredPu:VARIABLE(start = HVDC.Blocking1.U0Pu unit = \"1\" fixed = true protected = true )  \"Filtered voltage module in pu (base UNom)\" type: Real
         HVDC.Blocking2.blocked:DISCRETE(flow=false start = false fixed = true )  \"If true, converter is blocked\" type: Boolean
         HVDC.Blocking2.UFilteredPu:VARIABLE(start = HVDC.Blocking2.U0Pu unit = \"1\" fixed = true protected = true )  \"Filtered voltage module in pu (base UNom)\" type: Real
         HVDC.dCLine.UDc1Pu:VARIABLE(flow=false start = HVDC.PPuSide.activePowerControl.UDc0Pu fixed = true )  \"DC voltage at terminal 1 in pu (base UDcNom)\" type: Real
         HVDC.dCLine.UDc2Pu:VARIABLE(flow=false start = HVDC.UDcPuSide.dCVoltageControl.UDc0Pu fixed = true )  \"DC voltage at terminal 2 in pu (base UDcNom)\" type: Real
         HVDC.Conv1.running:DISCRETE(flow=false start = HVDC.Conv1.Running0 fixed = true )  \"Indicates if the component is running or not\" type: Boolean
         HVDC.Conv2.running:DISCRETE(flow=false start = HVDC.Conv2.Running0 fixed = true )  \"Indicates if the component is running or not\" type: Boolean
         line1.running:DISCRETE(flow=false start = line1.Running0 fixed = true )  \"Indicates if the component is running or not\" type: Boolean
         line2.running:DISCRETE(flow=false start = line2.Running0 fixed = true )  \"Indicates if the component is running or not\" type: Boolean
         nodeFault.nodeFault:DISCRETE(flow=false start = false fixed = true )  \"True when the fault is ongoing, false otherwise\" type: Boolean
Notification: Model statistics after passing the back-end for initialization:
 * Number of independent subsystems: 69
 * Number of states: 0 ()
 * Number of discrete variables: 114 ($PRE.line2.state,line2.state,$PRE.line1.state,line1.state,$PRE.HVDC.Conv2.state,HVDC.Conv2.state,$PRE.HVDC.Conv1.state,HVDC.Conv1.state,$whenCondition35,$whenCondition36,$PRE.UDcRefPu.nextTimeEvent,$whenCondition34,$PRE.URef2Pu.nextTimeEvent,$whenCondition33,$PRE.PRefPu.nextTimeEvent,$whenCondition32,$PRE.URef1Pu.nextTimeEvent,$whenCondition31,$PRE.HVDC.Blocking2.tMaintainBlock,$PRE.HVDC.Blocking2.tPrepareDeblock,$PRE.HVDC.Blocking2.tStartBlock,HVDC.Blocking2.tStartBlock,HVDC.Blocking2.tPrepareDeblock,HVDC.Blocking2.tMaintainBlock,$whenCondition18,$whenCondition17,$PRE.HVDC.Blocking2.tPrepareBlock,HVDC.Blocking2.tPrepareBlock,$whenCondition14,$whenCondition13,$PRE.HVDC.Blocking1.tMaintainBlock,$PRE.HVDC.Blocking1.tPrepareDeblock,$PRE.HVDC.Blocking1.tStartBlock,HVDC.Blocking1.tStartBlock,HVDC.Blocking1.tPrepareDeblock,HVDC.Blocking1.tMaintainBlock,$whenCondition10,$whenCondition9,$PRE.HVDC.Blocking1.tPrepareBlock,HVDC.Blocking1.tPrepareBlock,$whenCondition6,$whenCondition5,HVDC.Conv2.switchOffSignal3,HVDC.Conv2.switchOffSignal2,HVDC.Conv2.switchOffSignal1,HVDC.Conv1.switchOffSignal3,HVDC.Conv1.switchOffSignal2,HVDC.Conv1.switchOffSignal1,line2.switchOffSignal2,line2.switchOffSignal1,line1.switchOffSignal2,line1.switchOffSignal1,$PRE.HVDC.PPuSide.activePowerControl.RPFault.timer,$PRE.HVDC.Blocking1.blocked,$PRE.HVDC.Blocking2.blocked,$PRE.HVDC.Conv1.running,$PRE.HVDC.Conv2.running,$PRE.line1.running,$PRE.line2.running,$PRE.nodeFault.nodeFault,nodeFault.nodeFault,UDcRefPu.nextTimeEventScaled,$PRE.UDcRefPu.nextTimeEventScaled,UDcRefPu.nextTimeEvent,URef2Pu.nextTimeEventScaled,$PRE.URef2Pu.nextTimeEventScaled,URef2Pu.nextTimeEvent,PRefPu.nextTimeEventScaled,$PRE.PRefPu.nextTimeEventScaled,PRefPu.nextTimeEvent,URef1Pu.nextTimeEventScaled,$PRE.URef1Pu.nextTimeEventScaled,URef1Pu.nextTimeEvent,line2.running,line1.running,HVDC.Conv2.running,HVDC.Conv1.running,HVDC.Blocking2.blocked,HVDC.Blocking1.blocked,HVDC.PPuSide.aCVoltageControl.lessEqualThreshold.y,HVDC.PPuSide.activePowerControl.RPFault.timer,HVDC.UDcPuSide.aCVoltageControl.lessEqualThreshold.y,HVDC.UDcPuSide.activateDeltaP,$whenCondition2,$whenCondition1,$whenCondition4,$whenCondition3,$whenCondition8,$whenCondition7,$whenCondition12,$whenCondition11,$whenCondition16,$whenCondition15,$whenCondition20,$whenCondition19,$whenCondition21,$whenCondition23,$whenCondition22,$whenCondition24,$whenCondition26,$whenCondition25,$whenCondition27,$whenCondition29,$whenCondition28,$whenCondition30,HVDC.pll2.limIntegrator.local_reset,HVDC.pll2.integrator.local_reset,HVDC.pll1.limIntegrator.local_reset,HVDC.pll1.integrator.local_reset,HVDC.PPuSide.aCVoltageControl.qRefQU.integrator.local_reset,HVDC.PPuSide.activePowerControl.PI.integrator.local_reset,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.integrator.local_reset,HVDC.UDcPuSide.aCVoltageControl.qRefQU.integrator.local_reset,HVDC.UDcPuSide.dCVoltageControl.PI.integrator.local_reset)
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for initialization (419):
 * Single equations (assignments): 412
 * Array equations: 0
 * Algorithm blocks: 1
 * Record equations: 0
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 1
 * Torn equation systems: 5
 * Mixed (continuous/discrete) equation systems: 0
Notification: Equation system details (not torn):
 * Constant Jacobian (size): 0 systems
 * Linear Jacobian (size,density): 1 system
   {(4,75.0%)}
 * Non-linear Jacobian (size): 0 systems
 * Without analytic Jacobian (size): 0 systems
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 3 systems
   {(6,2,66.7%), (1,1,100.0%), (1,1,100.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 2 systems
   {(1,6), (2,16)}
Notification: Performance of prepare postOptimizeDAE: time 0.00336/0.3109, allocations: 1.148 MB / 0.6313 GB, free: 0.5117 MB / 0.5294 GB
Notification: Performance of postOpt lateInlineFunction (simulation): time 0.001546/0.3125, allocations: 413.4 kB / 0.6317 GB, free: 108 kB / 0.5294 GB
Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.01442/0.3269, allocations: 4.211 MB / 0.6358 GB, free: 11.86 MB / 0.545 GB
Notification: Performance of postOpt inlineArrayEqn (simulation): time 3.66e-05/0.3269, allocations: 28 kB / 0.6358 GB, free: 11.84 MB / 0.545 GB
Notification: Performance of postOpt constantLinearSystem (simulation): time 2.594e-05/0.327, allocations: 4 kB / 0.6358 GB, free: 11.83 MB / 0.545 GB
Notification: Performance of postOpt simplifysemiLinear (simulation): time 5.657e-05/0.327, allocations: 15.94 kB / 0.6359 GB, free: 11.82 MB / 0.545 GB
Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.02603/0.353, allocations: 8.245 MB / 0.6439 GB, free: 3.469 MB / 0.545 GB
Notification: Performance of postOpt simplifyComplexFunction (simulation): time 3.589e-05/0.3531, allocations: 4 kB / 0.6439 GB, free: 3.465 MB / 0.545 GB
Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.002573/0.3557, allocations: 371.8 kB / 0.6443 GB, free: 3.102 MB / 0.545 GB
Notification: Performance of postOpt tearingSystem (simulation): time 0.002267/0.3579, allocations: 0.8166 MB / 0.6451 GB, free: 2.27 MB / 0.545 GB
Notification: Performance of postOpt inputDerivativesUsed (simulation): time 0.0005925/0.3585, allocations: 75.95 kB / 0.6451 GB, free: 2.195 MB / 0.545 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.02092/0.3794, allocations: 10.87 MB / 0.6558 GB, free: 6.82 MB / 0.5606 GB
Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 6.523e-06/0.3794, allocations: 3.938 kB / 0.6558 GB, free: 6.816 MB / 0.5606 GB
Notification: Performance of postOpt symbolicJacobian (simulation): time 0.02105/0.4005, allocations: 6.449 MB / 0.6621 GB, free: 252 kB / 0.5606 GB
Notification: Performance of postOpt removeConstants (simulation): time 0.002436/0.4029, allocations: 441 kB / 0.6625 GB, free: 15.81 MB / 0.5762 GB
Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.001802/0.4047, allocations: 75.97 kB / 0.6625 GB, free: 15.73 MB / 0.5762 GB
Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.003895/0.4086, allocations: 287.6 kB / 0.6628 GB, free: 15.45 MB / 0.5762 GB
Notification: Performance of postOpt findZeroCrossings (simulation): time 0.001227/0.4099, allocations: 305.1 kB / 0.6631 GB, free: 15.16 MB / 0.5762 GB
Notification: Performance of postOpt collapseArrayExpressions (simulation): time 0.0004926/0.4103, allocations: 95.95 kB / 0.6632 GB, free: 15.06 MB / 0.5762 GB
Notification: Performance of sorting global known variables: time 0.006015/0.4164, allocations: 2.557 MB / 0.6657 GB, free: 12.49 MB / 0.5762 GB
Notification: Performance of sort global known variables: time 2.41e-07/0.4164, allocations: 8 kB / 0.6657 GB, free: 12.48 MB / 0.5762 GB
Notification: Performance of remove unused functions: time 0.005611/0.422, allocations: 0.9788 MB / 0.6667 GB, free: 11.5 MB / 0.5762 GB
Notification: Model statistics after passing the back-end for simulation:
 * Number of independent subsystems: 11
 * Number of states: 28 (HVDC.UDcPuSide.dCVoltageControl.firstOrder1.y,HVDC.UDcPuSide.dCVoltageControl.PI.integrator.y,HVDC.UDcPuSide.aCVoltageControl.qRefQU.slewRateLimiter.y,HVDC.UDcPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.y,HVDC.UDcPuSide.aCVoltageControl.qRefQU.integrator.y,HVDC.UDcPuSide.aCVoltageControl.firstOrder.y,HVDC.UDcPuSide.aCVoltageControl.firstOrder1.y,HVDC.UDcPuSide.aCVoltageControl.firstOrder2.y,HVDC.UDcPuSide.aCVoltageControl.firstOrder3.y,HVDC.PPuSide.activePowerControl.firstOrder2.y,HVDC.PPuSide.activePowerControl.slewRateLimiter.y,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.integrator.y,HVDC.PPuSide.activePowerControl.PI.integrator.y,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter.y,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.y,HVDC.PPuSide.aCVoltageControl.qRefQU.integrator.y,HVDC.PPuSide.aCVoltageControl.firstOrder.y,HVDC.PPuSide.aCVoltageControl.firstOrder1.y,HVDC.PPuSide.aCVoltageControl.firstOrder2.y,HVDC.PPuSide.aCVoltageControl.firstOrder3.y,HVDC.Blocking1.UFilteredPu,HVDC.Blocking2.UFilteredPu,HVDC.dCLine.UDc1Pu,HVDC.dCLine.UDc2Pu,HVDC.pll1.integrator.y,HVDC.pll1.limIntegrator.y,HVDC.pll2.integrator.y,HVDC.pll2.limIntegrator.y)
 * Number of discrete variables: 67 ($whenCondition35,$whenCondition36,$whenCondition34,$whenCondition33,$whenCondition32,$whenCondition31,$whenCondition30,$whenCondition28,$whenCondition29,$whenCondition27,$whenCondition25,$whenCondition26,$whenCondition24,$whenCondition22,$whenCondition23,$whenCondition21,$whenCondition19,$whenCondition20,$whenCondition17,$whenCondition18,$whenCondition15,$whenCondition16,$whenCondition13,$whenCondition14,$whenCondition11,$whenCondition12,$whenCondition9,$whenCondition10,$whenCondition7,$whenCondition8,$whenCondition5,$whenCondition6,$whenCondition3,$whenCondition4,$whenCondition1,$whenCondition2,HVDC.UDcPuSide.activateDeltaP,HVDC.UDcPuSide.aCVoltageControl.lessEqualThreshold.y,HVDC.PPuSide.activePowerControl.RPFault.timer,HVDC.PPuSide.aCVoltageControl.lessEqualThreshold.y,HVDC.Blocking1.blocked,HVDC.Blocking1.tMaintainBlock,HVDC.Blocking1.tPrepareBlock,HVDC.Blocking1.tPrepareDeblock,HVDC.Blocking1.tStartBlock,HVDC.Blocking2.blocked,HVDC.Blocking2.tMaintainBlock,HVDC.Blocking2.tPrepareBlock,HVDC.Blocking2.tPrepareDeblock,HVDC.Blocking2.tStartBlock,HVDC.Conv1.running,HVDC.Conv1.state,HVDC.Conv2.running,HVDC.Conv2.state,line1.running,line1.state,line2.running,line2.state,URef1Pu.nextTimeEvent,URef1Pu.nextTimeEventScaled,PRefPu.nextTimeEvent,PRefPu.nextTimeEventScaled,URef2Pu.nextTimeEvent,URef2Pu.nextTimeEventScaled,UDcRefPu.nextTimeEvent,UDcRefPu.nextTimeEventScaled,nodeFault.nodeFault)
 * Number of discrete states: 16 (UDcRefPu.nextTimeEvent,URef2Pu.nextTimeEvent,PRefPu.nextTimeEvent,URef1Pu.nextTimeEvent,line2.running,line1.running,HVDC.Conv2.running,HVDC.Conv1.running,UDcRefPu.nextTimeEventScaled,URef2Pu.nextTimeEventScaled,PRefPu.nextTimeEventScaled,URef1Pu.nextTimeEventScaled,HVDC.Blocking2.tMaintainBlock,HVDC.Blocking2.tPrepareDeblock,HVDC.Blocking1.tMaintainBlock,HVDC.Blocking1.tPrepareDeblock)
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for simulation (224):
 * Single equations (assignments): 190
 * Array equations: 0
 * Algorithm blocks: 0
 * Record equations: 0
 * When equations: 28
 * If-equations: 0
 * Equation systems (not torn): 1
 * Torn equation systems: 5
 * Mixed (continuous/discrete) equation systems: 0
Notification: Equation system details (not torn):
 * Constant Jacobian (size): 0 systems
 * Linear Jacobian (size,density): 1 system
   {(4,75.0%)}
 * Non-linear Jacobian (size): 0 systems
 * Without analytic Jacobian (size): 0 systems
Notification: Torn system details for strict tearing set:
 * Linear torn systems (#iteration vars, #inner vars, density): 3 systems
   {(1,1,100.0%), (1,1,100.0%), (6,2,66.7%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 2 systems
   {(1,6), (2,16)}
Notification: Performance of Backend phase and start with SimCode phase: time 0.003857/0.4258, allocations: 0.8623 MB / 0.6675 GB, free: 11 MB / 0.5762 GB
Notification: Performance of simCode: created initialization part: time 0.01252/0.4383, allocations: 4.431 MB / 0.6718 GB, free: 6.465 MB / 0.5762 GB
Notification: Performance of simCode: created event and clocks part: time 1.334e-05/0.4384, allocations: 3.859 kB / 0.6718 GB, free: 6.461 MB / 0.5762 GB
Notification: Performance of simCode: created simulation system equations: time 0.007208/0.4456, allocations: 2.785 MB / 0.6746 GB, free: 3.605 MB / 0.5762 GB
Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.006582/0.4522, allocations: 0.8672 MB / 0.6754 GB, free: 2.773 MB / 0.5762 GB
Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 0.02406/0.4762, allocations: 7.953 MB / 0.6832 GB, free: 10.76 MB / 0.5919 GB
Notification: Performance of simCode: some other stuff during SimCode phase: time 0.003906/0.4801, allocations: 1.656 MB / 0.6848 GB, free: 9.074 MB / 0.5919 GB
Notification: Performance of simCode: alias equations: time 0.003109/0.4832, allocations: 453.1 kB / 0.6852 GB, free: 8.625 MB / 0.5919 GB
Notification: Performance of simCode: all other stuff during SimCode phase: time 0.001412/0.4846, allocations: 252.4 kB / 0.6855 GB, free: 8.379 MB / 0.5919 GB
Notification: Performance of SimCode: time 1.432e-06/0.4846, allocations: 4 kB / 0.6855 GB, free: 8.375 MB / 0.5919 GB
Notification: Performance of Templates: time 0.4522/0.9369, allocations: 57.31 MB / 0.7414 GB, free: 204.3 MB / 0.6387 GB
"
[Timeout remaining time 659]
make -j1 -f Dynawo_dev_Dynawo.Examples.HVDC.HVDC.makefile [Timeout 660]
(rm -f Dynawo_dev_Dynawo.Examples.HVDC.HVDC.pipe ; mkfifo Dynawo_dev_Dynawo.Examples.HVDC.HVDC.pipe ; head -c 1048576 < Dynawo_dev_Dynawo.Examples.HVDC.HVDC.pipe >> ../files/Dynawo_dev_Dynawo.Examples.HVDC.HVDC.sim & ./Dynawo_dev_Dynawo.Examples.HVDC.HVDC  -initialStepSize=0.001 -lv=LOG_STATS -s=ida -nls=hybrid -nlsLS=klu -maxIntegrationOrder=2 -maxStepSize=10 -abortSlowSimulation -alarm=480  -emit_protected -lv LOG_STATS > Dynawo_dev_Dynawo.Examples.HVDC.HVDC.pipe 2>&1) [Timeout 480]
diffSimulationResults("Dynawo_dev_Dynawo.Examples.HVDC.HVDC_res.mat","/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/ReferenceFiles/Dynawo/dynawo/sources/Models/Modelica/Dynawo/Examples/references/Dynawo.Examples.HVDC.HVDC_res.csv","/var/lib/jenkins/ws/OpenModelicaLibraryTestingWork/OpenModelicaLibraryTesting/files/Dynawo_dev_Dynawo.Examples.HVDC.HVDC.diff",relTol=0.003,relTolDiffMinMax=0.003,rangeDelta=0.001) [Timeout 660]
""
[Timeout remaining time 659]
""

Variables in the reference:time,HVDC.Conv1.PInjPu,HVDC.Conv1.QInjPu,HVDC.Conv1.UPu,HVDC.Conv2.PInjPu,HVDC.Conv2.QInjPu,HVDC.Conv2.UPu,HVDC.Conv1.UPhase,HVDC.Conv2.UPhase

Variables in the result:HVDC.Blocking1.U0Pu,HVDC.Blocking1.UBlockUnderVPu,HVDC.Blocking1.UMaxDbPu,HVDC.Blocking1.UMinDbPu,HVDC.Blocking1.tBlock,HVDC.Blocking1.tBlockUnderV,HVDC.Blocking1.tMeasureUBlock,HVDC.Blocking1.tUnblock,HVDC.Blocking2.U0Pu,HVDC.Blocking2.UBlockUnderVPu,HVDC.Blocking2.UMaxDbPu,HVDC.Blocking2.UMinDbPu,HVDC.Blocking2.tBlock,HVDC.Blocking2.tBlockUnderV,HVDC.Blocking2.tMeasureUBlock,HVDC.Blocking2.tUnblock,HVDC.CDcPu,HVDC.Conv1.Id0Pu,HVDC.Conv1.Iq0Pu,HVDC.Conv1.NbSwitchOffSignals,HVDC.Conv1.P0Pu,HVDC.Conv1.PInjPu,HVDC.Conv1.Q0Pu,HVDC.Conv1.QInjPu,HVDC.Conv1.Running0,HVDC.Conv1.SNom,HVDC.Conv1.State0,HVDC.Conv1.SwitchOffSignal10,HVDC.Conv1.SwitchOffSignal20,HVDC.Conv1.SwitchOffSignal30,HVDC.Conv1.U0Pu,HVDC.Conv1.UPhase,HVDC.Conv1.UPhase0,HVDC.Conv1.UPu,HVDC.Conv1.i0Pu.im,HVDC.Conv1.i0Pu.re,HVDC.Conv1.s0Pu.im,HVDC.Conv1.s0Pu.re,HVDC.Conv1.u0Pu.im,HVDC.Conv1.u0Pu.re,HVDC.Conv2.Id0Pu,HVDC.Conv2.Iq0Pu,HVDC.Conv2.NbSwitchOffSignals,HVDC.Conv2.P0Pu,HVDC.Conv2.PInjPu,HVDC.Conv2.Q0Pu,HVDC.Conv2.QInjPu,HVDC.Conv2.Running0,HVDC.Conv2.SNom,HVDC.Conv2.State0,HVDC.Conv2.SwitchOffSignal10,HVDC.Conv2.SwitchOffSignal20,HVDC.Conv2.SwitchOffSignal30,HVDC.Conv2.U0Pu,HVDC.Conv2.UPhase,HVDC.Conv2.UPhase0,HVDC.Conv2.UPu,HVDC.Conv2.i0Pu.im,HVDC.Conv2.i0Pu.re,HVDC.Conv2.s0Pu.im,HVDC.Conv2.s0Pu.re,HVDC.Conv2.u0Pu.im,HVDC.Conv2.u0Pu.re,HVDC.InPu,HVDC.Ip10Pu,HVDC.Ip20Pu,HVDC.IpDeadBandPu,HVDC.IpMaxPu,HVDC.Iq10Pu,HVDC.Iq20Pu,HVDC.KiAc,HVDC.KiDc,HVDC.KiDeltaP,HVDC.KiP,HVDC.KiPLL,HVDC.KpAc,HVDC.KpDc,HVDC.KpDeltaP,HVDC.KpP,HVDC.KpPLL,HVDC.LambdaPu,HVDC.ModeU10,HVDC.ModeU20,HVDC.OmegaMaxPu,HVDC.OmegaMinPu,HVDC.P10Pu,HVDC.P20Pu,HVDC.POpMaxPu,HVDC.POpMinPu,HVDC.PPuSide.InPu,HVDC.PPuSide.Ip0Pu,HVDC.PPuSide.IpMaxPu,HVDC.PPuSide.Iq0Pu,HVDC.PPuSide.KiAc,HVDC.PPuSide.KiDeltaP,HVDC.PPuSide.KiP,HVDC.PPuSide.KpAc,HVDC.PPuSide.KpDeltaP,HVDC.PPuSide.KpP,HVDC.PPuSide.LambdaPu,HVDC.PPuSide.ModeU0,HVDC.PPuSide.P0Pu,HVDC.PPuSide.POpMaxPu,HVDC.PPuSide.POpMinPu,HVDC.PPuSide.Q0Pu,HVDC.PPuSide.QOpMaxPu,HVDC.PPuSide.QOpMinPu,HVDC.PPuSide.SlopePRefPu,HVDC.PPuSide.SlopeQRefPu,HVDC.PPuSide.SlopeRPFault,HVDC.PPuSide.SlopeURefPu,HVDC.PPuSide.U0Pu,HVDC.PPuSide.UDc0Pu,HVDC.PPuSide.UDcMaxPu,HVDC.PPuSide.UDcMinPu,HVDC.PPuSide.aCVoltageControl.InPu,HVDC.PPuSide.aCVoltageControl.Ip0Pu,HVDC.PPuSide.aCVoltageControl.Iq0Pu,HVDC.PPuSide.aCVoltageControl.IqMod.columns[1],HVDC.PPuSide.aCVoltageControl.IqMod.extrapolation,HVDC.PPuSide.aCVoltageControl.IqMod.nout,HVDC.PPuSide.aCVoltageControl.IqMod.smoothness,HVDC.PPuSide.aCVoltageControl.IqMod.tableOnFile,HVDC.PPuSide.aCVoltageControl.IqMod.table[1,1],HVDC.PPuSide.aCVoltageControl.IqMod.table[1,2],HVDC.PPuSide.aCVoltageControl.IqMod.table[2,1],HVDC.PPuSide.aCVoltageControl.IqMod.table[2,2],HVDC.PPuSide.aCVoltageControl.IqMod.table[3,1],HVDC.PPuSide.aCVoltageControl.IqMod.table[3,2],HVDC.PPuSide.aCVoltageControl.IqMod.table[4,1],HVDC.PPuSide.aCVoltageControl.IqMod.table[4,2],HVDC.PPuSide.aCVoltageControl.IqMod.u_max,HVDC.PPuSide.aCVoltageControl.IqMod.u_min,HVDC.PPuSide.aCVoltageControl.IqMod.verboseExtrapolation,HVDC.PPuSide.aCVoltageControl.IqMod.verboseRead,HVDC.PPuSide.aCVoltageControl.KiAc,HVDC.PPuSide.aCVoltageControl.KpAc,HVDC.PPuSide.aCVoltageControl.LambdaPu,HVDC.PPuSide.aCVoltageControl.ModeU0,HVDC.PPuSide.aCVoltageControl.P0Pu,HVDC.PPuSide.aCVoltageControl.Q0Pu,HVDC.PPuSide.aCVoltageControl.QOpMaxPu,HVDC.PPuSide.aCVoltageControl.QOpMinPu,HVDC.PPuSide.aCVoltageControl.SlopeQRefPu,HVDC.PPuSide.aCVoltageControl.SlopeURefPu,HVDC.PPuSide.aCVoltageControl.U0Pu,HVDC.PPuSide.aCVoltageControl.add.k1,HVDC.PPuSide.aCVoltageControl.add.k2,HVDC.PPuSide.aCVoltageControl.firstOrder.T,HVDC.PPuSide.aCVoltageControl.firstOrder.initType,HVDC.PPuSide.aCVoltageControl.firstOrder.k,HVDC.PPuSide.aCVoltageControl.firstOrder.y_start,HVDC.PPuSide.aCVoltageControl.firstOrder1.T,HVDC.PPuSide.aCVoltageControl.firstOrder1.initType,HVDC.PPuSide.aCVoltageControl.firstOrder1.k,HVDC.PPuSide.aCVoltageControl.firstOrder1.y_start,HVDC.PPuSide.aCVoltageControl.firstOrder2.T,HVDC.PPuSide.aCVoltageControl.firstOrder2.initType,HVDC.PPuSide.aCVoltageControl.firstOrder2.k,HVDC.PPuSide.aCVoltageControl.firstOrder2.y_start,HVDC.PPuSide.aCVoltageControl.firstOrder3.T,HVDC.PPuSide.aCVoltageControl.firstOrder3.initType,HVDC.PPuSide.aCVoltageControl.firstOrder3.k,HVDC.PPuSide.aCVoltageControl.firstOrder3.y_start,HVDC.PPuSide.aCVoltageControl.gain.k,HVDC.PPuSide.aCVoltageControl.gain1.k,HVDC.PPuSide.aCVoltageControl.lessEqualThreshold.threshold,HVDC.PPuSide.aCVoltageControl.limiter.homotopyType,HVDC.PPuSide.aCVoltageControl.limiter.limitsAtInit,HVDC.PPuSide.aCVoltageControl.limiter.strict,HVDC.PPuSide.aCVoltageControl.limiter.uMax,HVDC.PPuSide.aCVoltageControl.limiter.uMin,HVDC.PPuSide.aCVoltageControl.qRefLim.P0Pu,HVDC.PPuSide.aCVoltageControl.qRefLim.Q0Pu,HVDC.PPuSide.aCVoltageControl.qRefLim.QOpMaxPu,HVDC.PPuSide.aCVoltageControl.qRefLim.QOpMinPu,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.columns[1],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.extrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.nout,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.smoothness,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.tableOnFile,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.table[1,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.table[1,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.table[2,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.table[2,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.u_max,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.u_min,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.verboseExtrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMax.verboseRead,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.columns[1],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.extrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.nout,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.smoothness,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.tableOnFile,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.table[1,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.table[1,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.table[2,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.table[2,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.u_max,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.u_min,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.verboseExtrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QPMin.verboseRead,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.columns[1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.extrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.nout,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.smoothness,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.tableOnFile,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[1,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[1,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[2,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[2,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[3,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[3,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[4,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.table[4,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.u_max,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.u_min,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.verboseExtrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMax.verboseRead,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.columns[1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.extrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.nout,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.smoothness,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.tableOnFile,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[1,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[1,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[2,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[2,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[3,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[3,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[4,1],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.table[4,2],HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.u_max,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.u_min,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.verboseExtrapolation,HVDC.PPuSide.aCVoltageControl.qRefLim.QUMin.verboseRead,HVDC.PPuSide.aCVoltageControl.qRefLim.U0Pu,HVDC.PPuSide.aCVoltageControl.qRefLim.limiter.homotopyType,HVDC.PPuSide.aCVoltageControl.qRefLim.limiter.limitsAtInit,HVDC.PPuSide.aCVoltageControl.qRefLim.limiter.strict,HVDC.PPuSide.aCVoltageControl.qRefLim.limiter.uMax,HVDC.PPuSide.aCVoltageControl.qRefLim.limiter.uMin,HVDC.PPuSide.aCVoltageControl.qRefLim.tMeasure,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter.homotopyType,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter.limitsAtInit,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter.strict,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter.ySimplified,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter1.homotopyType,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter1.limitsAtInit,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter1.strict,HVDC.PPuSide.aCVoltageControl.qRefLim.variableLimiter1.ySimplified,HVDC.PPuSide.aCVoltageControl.qRefQU.KiAc,HVDC.PPuSide.aCVoltageControl.qRefQU.KpAc,HVDC.PPuSide.aCVoltageControl.qRefQU.LambdaPu,HVDC.PPuSide.aCVoltageControl.qRefQU.Q0Pu,HVDC.PPuSide.aCVoltageControl.qRefQU.SlopeQRefPu,HVDC.PPuSide.aCVoltageControl.qRefQU.SlopeURefPu,HVDC.PPuSide.aCVoltageControl.qRefQU.U0Pu,HVDC.PPuSide.aCVoltageControl.qRefQU.add.k1,HVDC.PPuSide.aCVoltageControl.qRefQU.add.k2,HVDC.PPuSide.aCVoltageControl.qRefQU.add1.k1,HVDC.PPuSide.aCVoltageControl.qRefQU.add1.k2,HVDC.PPuSide.aCVoltageControl.qRefQU.const.k,HVDC.PPuSide.aCVoltageControl.qRefQU.gain.k,HVDC.PPuSide.aCVoltageControl.qRefQU.gain1.k,HVDC.PPuSide.aCVoltageControl.qRefQU.integrator.initType,HVDC.PPuSide.aCVoltageControl.qRefQU.integrator.k,HVDC.PPuSide.aCVoltageControl.qRefQU.integrator.y_start,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter.Falling,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter.Rising,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter.Td,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter.initType,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter.strict,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter.y_start,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.Falling,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.Rising,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.Td,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.initType,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.strict,HVDC.PPuSide.aCVoltageControl.qRefQU.slewRateLimiter1.y_start,HVDC.PPuSide.aCVoltageControl.tMeasure,HVDC.PPuSide.aCVoltageControl.tQ,HVDC.PPuSide.aCVoltageControl.variableLimiter.homotopyType,HVDC.PPuSide.aCVoltageControl.variableLimiter.limitsAtInit,HVDC.PPuSide.aCVoltageControl.variableLimiter.strict,HVDC.PPuSide.aCVoltageControl.variableLimiter.ySimplified,HVDC.PPuSide.aCVoltageControl.zero.k,HVDC.PPuSide.activePowerControl.Ip0Pu,HVDC.PPuSide.activePowerControl.IpMaxPu,HVDC.PPuSide.activePowerControl.KiDeltaP,HVDC.PPuSide.activePowerControl.KiP,HVDC.PPuSide.activePowerControl.KpDeltaP,HVDC.PPuSide.activePowerControl.KpP,HVDC.PPuSide.activePowerControl.P0Pu,HVDC.PPuSide.activePowerControl.PI.Ki,HVDC.PPuSide.activePowerControl.PI.Kp,HVDC.PPuSide.activePowerControl.PI.Y0,HVDC.PPuSide.activePowerControl.PI.YMax,HVDC.PPuSide.activePowerControl.PI.YMin,HVDC.PPuSide.activePowerControl.PI.add.k1,HVDC.PPuSide.activePowerControl.PI.add.k2,HVDC.PPuSide.activePowerControl.PI.add1.k1,HVDC.PPuSide.activePowerControl.PI.add1.k2,HVDC.PPuSide.activePowerControl.PI.gain.k,HVDC.PPuSide.activePowerControl.PI.integrator.initType,HVDC.PPuSide.activePowerControl.PI.integrator.k,HVDC.PPuSide.activePowerControl.PI.integrator.y_start,HVDC.PPuSide.activePowerControl.PI.limiter.homotopyType,HVDC.PPuSide.activePowerControl.PI.limiter.limitsAtInit,HVDC.PPuSide.activePowerControl.PI.limiter.strict,HVDC.PPuSide.activePowerControl.PI.limiter.uMax,HVDC.PPuSide.activePowerControl.PI.limiter.uMin,HVDC.PPuSide.activePowerControl.POpMaxPu,HVDC.PPuSide.activePowerControl.POpMinPu,HVDC.PPuSide.activePowerControl.RPFault.SlopeRPFault,HVDC.PPuSide.activePowerControl.SlopePRefPu,HVDC.PPuSide.activePowerControl.SlopeRPFault,HVDC.PPuSide.activePowerControl.UDc0Pu,HVDC.PPuSide.activePowerControl.UDcMaxPu,HVDC.PPuSide.activePowerControl.UDcMinPu,HVDC.PPuSide.activePowerControl.add1.k1,HVDC.PPuSide.activePowerControl.add1.k2,HVDC.PPuSide.activePowerControl.constant1.k,HVDC.PPuSide.activePowerControl.firstOrder2.T,HVDC.PPuSide.activePowerControl.firstOrder2.initType,HVDC.PPuSide.activePowerControl.firstOrder2.k,HVDC.PPuSide.activePowerControl.firstOrder2.y_start,HVDC.PPuSide.activePowerControl.limiter.homotopyType,HVDC.PPuSide.activePowerControl.limiter.limitsAtInit,HVDC.PPuSide.activePowerControl.limiter.strict,HVDC.PPuSide.activePowerControl.limiter.uMax,HVDC.PPuSide.activePowerControl.limiter.uMin,HVDC.PPuSide.activePowerControl.limiter1.homotopyType,HVDC.PPuSide.activePowerControl.limiter1.limitsAtInit,HVDC.PPuSide.activePowerControl.limiter1.strict,HVDC.PPuSide.activePowerControl.limiter1.uMax,HVDC.PPuSide.activePowerControl.limiter1.uMin,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.Ki,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.Kp,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.Y0,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.add.k1,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.add.k2,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.add1.k1,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.add1.k2,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.gain.k,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.integrator.initType,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.integrator.k,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.integrator.y_start,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.variableLimiter.homotopyType,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.variableLimiter.limitsAtInit,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.variableLimiter.strict,HVDC.PPuSide.activePowerControl.pIAntiWindupVariableLimits.variableLimiter.ySimplified,HVDC.PPuSide.activePowerControl.slewRateLimiter.Falling,HVDC.PPuSide.activePowerControl.slewRateLimiter.Rising,HVDC.PPuSide.activePowerControl.slewRateLimiter.Td,HVDC.PPuSide.activePowerControl.slewRateLimiter.initType,HVDC.PPuSide.activePowerControl.slewRateLimiter.strict,HVDC.PPuSide.activePowerControl.slewRateLimiter.y_start,HVDC.PPuSide.activePowerControl.tMeasureP,HVDC.PPuSide.activePowerControl.zero.k,HVDC.PPuSide.limitsCalculationP.InPu,HVDC.PPuSide.limitsCalculationP.Ip0Pu,HVDC.PPuSide.limitsCalculationP.IpMaxPu,HVDC.PPuSide.limitsCalculationP.Iq0Pu,HVDC.PPuSide.tMeasure,HVDC.PPuSide.tMeasureP,HVDC.PPuSide.tQ,HVDC.Q10Pu,HVDC.Q20Pu,HVDC.QOpMaxPu,HVDC.QOpMinPu,HVDC.RDcPu,HVDC.SNom,HVDC.SlopePRefPu,HVDC.SlopeQRefPu,HVDC.SlopeRPFault,HVDC.SlopeURefPu,HVDC.U10Pu,HVDC.U20Pu,HVDC.UBlockUnderVPu,HVDC.UDc10Pu,HVDC.UDc20Pu,HVDC.UDcMaxPu,HVDC.UDcMinPu,HVDC.UDcPuSide.InPu,HVDC.UDcPuSide.Ip0Pu,HVDC.UDcPuSide.IpDeadBandPu,HVDC.UDcPuSide.IpMaxPu,HVDC.UDcPuSide.Iq0Pu,HVDC.UDcPuSide.KiAc,HVDC.UDcPuSide.KiDc,HVDC.UDcPuSide.KpAc,HVDC.UDcPuSide.KpDc,HVDC.UDcPuSide.LambdaPu,HVDC.UDcPuSide.ModeU0,HVDC.UDcPuSide.P0Pu,HVDC.UDcPuSide.Q0Pu,HVDC.UDcPuSide.QOpMaxPu,HVDC.UDcPuSide.QOpMinPu,HVDC.UDcPuSide.RDcPu,HVDC.UDcPuSide.SNom,HVDC.UDcPuSide.SlopeQRefPu,HVDC.UDcPuSide.SlopeURefPu,HVDC.UDcPuSide.U0Pu,HVDC.UDcPuSide.UDc0Pu,HVDC.UDcPuSide.UDcRef0Pu,HVDC.UDcPuSide.UDcRefMaxPu,HVDC.UDcPuSide.UDcRefMinPu,HVDC.UDcPuSide.aCVoltageControl.InPu,HVDC.UDcPuSide.aCVoltageControl.Ip0Pu,HVDC.UDcPuSide.aCVoltageControl.Iq0Pu,HVDC.UDcPuSide.aCVoltageControl.IqMod.columns[1],HVDC.UDcPuSide.aCVoltageControl.IqMod.extrapolation,HVDC.UDcPuSide.aCVoltageControl.IqMod.nout,HVDC.UDcPuSide.aCVoltageControl.IqMod.smoothness,HVDC.UDcPuSide.aCVoltageControl.IqMod.tableOnFile,HVDC.UDcPuSide.aCVoltageControl.IqMod.table[1,1],HVDC.UDcPuSide.aCVoltageControl.IqMod.table[1,2],HVDC.UDcPuSide.aCVoltageControl.IqMod.table[2,1],HVDC.UDcPuSide.aCVoltageControl.IqMod.table[2,2],HVDC.UDcPuSide.aCVoltageControl.IqMod.table[3,1],HVDC.UDcPuSide.aCVoltageControl.IqMod.table[3,2],HVDC.UDcPuSide.aCVoltageControl.IqMod.table[4,1],HVDC.UDcPuSide.aCVoltageControl.IqMod.table[4,2],HVDC.UDcPuSide.aCVoltageControl.IqMod.u_max,HVDC.UDcPuSide.aCVoltageControl.IqMod.u_min,HVDC.UDcPuSide.aCVoltageControl.IqMod.verboseExtrapolation,HVDC.UDcPuSide.aCVoltageControl.IqMod.verboseRead,HVDC.UDcPuSide.aCVoltageControl.KiAc,HVDC.UDcPuSide.aCVoltageControl.KpAc,HVDC.UDcPuSide.aCVoltageControl.LambdaPu,HVDC.UDcPuSide.aCVoltageControl.ModeU0,HVDC.UDcPuSide.aCVoltageControl.P0Pu,HVDC.UDcPuSide.aCVoltageControl.Q0Pu,HVDC.UDcPuSide.aCVoltageControl.QOpMaxPu,HVDC.UDcPuSide.aCVoltageControl.QOpMinPu,HVDC.UDcPuSide.aCVoltageControl.SlopeQRefPu,HVDC.UDcPuSide.aCVoltageControl.SlopeURefPu,HVDC.UDcPuSide.aCVoltageControl.U0Pu,HVDC.UDcPuSide.aCVoltageControl.add.k1,HVDC.UDcPuSide.aCVoltageControl.add.k2,HVDC.UDcPuSide.aCVoltageControl.firstOrder.T,HVDC.UDcPuSide.aCVoltageControl.firstOrder.initType,HVDC.UDcPuSide.aCVoltageControl.firstOrder.k,HVDC.UDcPuSide.aCVoltageControl.firstOrder.y_start,HVDC.UDcPuSide.aCVoltageControl.firstOrder1.T,HVDC.UDcPuSide.aCVoltageControl.firstOrder1.initType,HVDC.UDcPuSide.aCVoltageControl.firstOrder1.k,HVDC.UDcPuSide.aCVoltageControl.firstOrder1.y_start,HVDC.UDcPuSide.aCVoltageControl.firstOrder2.T,HVDC.UDcPuSide.aCVoltageControl.firstOrder2.initType,HVDC.UDcPuSide.aCVoltageControl.firstOrder2.k,HVDC.UDcPuSide.aCVoltageControl.firstOrder2.y_start,HVDC.UDcPuSide.aCVoltageControl.firstOrder3.T,HVDC.UDcPuSide.aCVoltageControl.firstOrder3.initType,HVDC.UDcPuSide.aCVoltageControl.firstOrder3.k,HVDC.UDcPuSide.aCVoltageControl.firstOrder3.y_start,HVDC.UDcPuSide.aCVoltageControl.gain.k,HVDC.UDcPuSide.aCVoltageControl.gain1.k,HVDC.UDcPuSide.aCVoltageControl.lessEqualThreshold.threshold,HVDC.UDcPuSide.aCVoltageControl.limiter.homotopyType,HVDC.UDcPuSide.aCVoltageControl.limiter.limitsAtInit,HVDC.UDcPuSide.aCVoltageControl.limiter.strict,HVDC.UDcPuSide.aCVoltageControl.limiter.uMax,HVDC.UDcPuSide.aCVoltageControl.limiter.uMin,HVDC.UDcPuSide.aCVoltageControl.qRefLim.P0Pu,HVDC.UDcPuSide.aCVoltageControl.qRefLim.Q0Pu,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QOpMaxPu,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QOpMinPu,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.columns[1],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.extrapolation,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.nout,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.smoothness,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.tableOnFile,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.table[1,1],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.table[1,2],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.table[2,1],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.table[2,2],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.u_max,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.u_min,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.verboseExtrapolation,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMax.verboseRead,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.columns[1],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.extrapolation,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.nout,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.smoothness,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.tableOnFile,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.table[1,1],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.table[1,2],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.table[2,1],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.table[2,2],HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.u_max,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.u_min,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.verboseExtrapolation,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QPMin.verboseRead,HVDC.UDcPuSide.aCVoltageControl.qRefLim.QUMax.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DC.UDcPuSide.dCVoltageControl.PI.add.k1,HVDC.UDcPuSide.dCVoltageControl.PI.add.k2,HVDC.UDcPuSide.dCVoltageControl.PI.add1.k1,HVDC.UDcPuSide.dCVoltageControl.PI.add1.k2,HVDC.UDcPuSide.dCVoltageControl.PI.gain.k,HVDC.UDcPuSide.dCVoltageControl.PI.integrator.initType,HVDC.UDcPuSide.dCVoltageControl.PI.integrator.k,HVDC.UDcPuSide.dCVoltageControl.PI.integrator.y_start,HVDC.UDcPuSide.dCVoltageControl.PI.variableLimiter.homotopyType,HVDC.UDcPuSide.dCVoltageControl.PI.variableLimiter.limitsAtInit,HVDC.UDcPuSide.dCVoltageControl.PI.variableLimiter.strict,HVDC.UDcPuSide.dCVoltageControl.PI.variableLimiter.ySimplified,HVDC.UDcPuSide.dCVoltageControl.RDcPu,HVDC.UDcPuSide.dCVoltageControl.SNom,HVDC.UDcPuSide.dCVoltageControl.U0Pu,HVDC.UDcPuSide.dCVoltageControl.UDc0Pu,HVDC.UDcPuSide.dCVoltageControl.UDcRef0Pu,HVDC.UDcPuSide.dCVoltageControl.UDcRefMaxPu,HVDC.UDcPuSide.dCVoltageControl.UDcRefMinPu,HVDC.UDcPuSide.dCVoltageControl.add.k1,HVDC.UDcPuSide.dCVoltageControl.add.k2,HVDC.UDcPuSide.dCVoltageControl.firstOrder1.T,HVDC.UDcPuSide.dCVoltageControl.firstOrder1.initType,HVDC.UDcPuSide.dCVoltageControl.firstOrder1.k,HVDC.UDcPuSide.dCVoltageControl.firstOrder1.y_start,HVDC.UDcPuSide.dCVoltageControl.gain.k,HVDC.UDcPuSide.dCVoltageControl.gain1.k,HVDC.UDcPuSide.dCVoltageControl.gain2.k,HVDC.UDcPuSide.dCVoltageControl.gain3.k,HVDC.UDcPuSide.dCVoltageControl.limiter.homotopyType,HVDC.UDcPuSide.dCVoltageControl.limiter.limitsAtInit,HVDC.UDcPuSide.dCVoltageControl.limiter.strict,HVDC.UDcPuSide.dCVoltageControl.limiter.uMax,HVDC.UDcPuSide.dCVoltageControl.limiter.uMin,HVDC.UDcPuSide.dCVoltageControl.limiter1.homotopyType,HVDC.UDcPuSide.dCVoltageControl.limiter1.limitsAtInit,HVDC.UDcPuSide.dCVoltageControl.limiter1.strict,HVDC.UDcPuSide.dCVoltageControl.limiter1.uMax,HVDC.UDcPuSide.dCVoltageControl.limiter1.uMin,HVDC.UDcPuSide.dCVoltageControl.tMeasureU,HVDC.UDcPuSide.limitsCalculationUDc.InPu,HVDC.UDcPuSide.limitsCalculationUDc.Ip0Pu,HVDC.UDcPuSide.limitsCalculationUDc.IpDeadBandPu,HVDC.UDcPuSide.limitsCalculationUDc.IpMaxPu,HVDC.UDcPuSide.limitsCalculationUDc.Iq0Pu,HVDC.UDcPuSide.tMeasure,HVDC.UDcPuSide.tMeasureU,HVDC.UDcPuSide.tQ,HVDC.UDcRef0Pu,HVDC.UDcRefMaxPu,HVDC.UDcRefMinPu,HVDC.UMaxDbPu,HVDC.UMinDbPu,HVDC.UPhase10,HVDC.UPhase20,HVDC.dCLine.CDcPu,HVDC.dCLine.P10Pu,HVDC.dCLine.P20Pu,HVDC.dCLine.RDcPu,HVDC.dCLine.SNom,HVDC.dCLine.UDc10Pu,HVDC.dCLine.UDc20Pu,HVDC.dCLine.limiter1.homotopyType,HVDC.dCLine.limiter1.limitsAtInit,HVDC.dCLine.limiter1.strict,HVDC.dCLine.limiter1.uMax,HVDC.dCLine.limiter1.uMin,HVDC.dCLine.limiter2.homotopyType,HVDC.dCLine.limiter2.limitsAtInit,HVDC.dCLine.limiter2.strict,HVDC.dCLine.limiter2.uMax,HVDC.dCLine.limiter2.uMin,HVDC.i10Pu.im,HVDC.i10Pu.re,HVDC.i20Pu.im,HVDC.i20Pu.re,HVDC.omegaRef1.k,HVDC.omegaRef2.k,HVDC.pll1.Ki,HVDC.pll1.Kp,HVDC.pll1.OmegaMaxPu,HVDC.pll1.OmegaMinPu,HVDC.pll1.add1.k1,HVDC.pll1.add1.k2,HVDC.pll1.add2.k1,HVDC.pll1.add2.k2,HVDC.pll1.gain.k,HVDC.pll1.integrator.initType,HVDC.pll1.integrator.k,HVDC.pll1.integrator.y,HVDC.pll1.integrator.y_start,HVDC.pll1.limIntegrator.initType,HVDC.pll1.limIntegrator.k,HVDC.pll1.limIntegrator.limitsAtInit,HVDC.pll1.limIntegrator.outMax,HVDC.pll1.limIntegrator.outMin,HVDC.pll1.limIntegrator.strict,HVDC.pll1.limIntegrator.y_start,HVDC.pll1.u0Pu.im,HVDC.pll1.u0Pu.re,HVDC.pll2.Ki,HVDC.pll2.Kp,HVDC.pll2.OmegaMaxPu,HVDC.pll2.OmegaMinPu,HVDC.pll2.add1.k1,HVDC.pll2.add1.k2,HVDC.pll2.add2.k1,HVDC.pll2.add2.k2,HVDC.pll2.gain.k,HVDC.pll2.integrator.initType,HVDC.pll2.integrator.k,HVDC.pll2.integrator.y,HVDC.pll2.integrator.y_start,HVDC.pll2.limIntegrator.initType,HVDC.pll2.limIntegrator.k,HVDC.pll2.limIntegrator.limitsAtInit,HVDC.pll2.limIntegrator.outMax,HVDC.pll2.limIntegrator.outMin,HVDC.pll2.limIntegrator.strict,HVDC.pll2.limIntegrator.y_start,HVDC.pll2.u0Pu.im,HVDC.pll2.u0Pu.re,HVDC.s10Pu.im,HVDC.s10Pu.re,HVDC.s20Pu.im,HVDC.s20Pu.re,HVDC.tBlock,HVDC.tBlockUnderV,HVDC.tMeasure,HVDC.tMeasureP,HVDC.tMeasureU,HVDC.tMeasureUBlock,HVDC.tQ,HVDC.tUnblock,HVDC.u10Pu.im,HVDC.u10Pu.re,HVDC.u20Pu.im,HVDC.u20Pu.re,PRefPu.columns[1],PRefPu.extrapolation,PRefPu.nout,PRefPu.offset[1],PRefPu.p_offset[1],PRefPu.shiftTime,PRefPu.smoothness,PRefPu.startTime,PRefPu.t_max,PRefPu.t_maxScaled,PRefPu.t_min,PRefPu.t_minScaled,PRefPu.tableOnFile,PRefPu.table[1,1],PRefPu.table[1,2],PRefPu.table[2,1],PRefPu.table[2,2],PRefPu.table[3,1],PRefPu.table[3,2],PRefPu.timeEvents,PRefPu.timeScale,PRefPu.verboseExtrapolation,PRefPu.verboseRead,QRef1Pu.k,QRef2Pu.k,UDcRefPu.columns[1],UDcRefPu.extrapolation,UDcRefPu.nout,UDcRefPu.offset[1],UDcRefPu.p_offset[1],UDcRefPu.shiftTime,UDcRefPu.smoothness,UDcRefPu.startTime,UDcRefPu.t_max,UDcRefPu.t_maxScaled,UDcRefPu.t_min,UDcRefPu.t_minScaled,UDcRefPu.tableOnFile,UDcRefPu.table[1,1],UDcRefPu.table[1,2],UDcRefPu.table[2,1],UDcRefPu.table[2,2],UDcRefPu.table[3,1],UDcRefPu.table[3,2],UDcRefPu.timeEvents,UDcRefPu.timeScale,UDcRefPu.verboseExtrapolation,UDcRefPu.verboseRead,URef1Pu.columns[1],URef1Pu.extrapolation,URef1Pu.nout,URef1Pu.offset[1],URef1Pu.p_offset[1],URef1Pu.shiftTime,URef1Pu.smoothness,URef1Pu.startTime,URef1Pu.t_max,URef1Pu.t_maxScaled,URef1Pu.t_min,URef1Pu.t_minScaled,URef1Pu.tableOnFile,URef1Pu.table[1,1],URef1Pu.table[1,2],URef1Pu.table[2,1],URef1Pu.table[2,2],URef1Pu.table[3,1],URef1Pu.table[3,2],URef1Pu.timeEvents,URef1Pu.timeScale,URef1Pu.verboseExtrapolation,URef1Pu.verboseRead,URef2Pu.columns[1],URef2Pu.extrapolation,URef2Pu.nout,URef2Pu.offset[1],URef2Pu.p_offset[1],URef2Pu.shiftTime,URef2Pu.smoothness,URef2Pu.startTime,URef2Pu.t_max,URef2Pu.t_maxScaled,URef2Pu.t_min,URef2Pu.t_minScaled,URef2Pu.tableOnFile,URef2Pu.table[1,1],URef2Pu.table[1,2],URef2Pu.table[2,1],URef2Pu.table[2,2],URef2Pu.table[3,1],URef2Pu.table[3,2],URef2Pu.timeEvents,URef2Pu.timeScale,URef2Pu.verboseExtrapolation,URef2Pu.verboseRead,hvdcVsc_INIT.LambdaPu,hvdcVsc_INIT.ModeU1Set,hvdcVsc_INIT.ModeU2Set,hvdcVsc_INIT.P10Pu,hvdcVsc_INIT.P20Pu,hvdcVsc_INIT.Q10Pu,hvdcVsc_INIT.Q20Pu,hvdcVsc_INIT.RDcPu,hvdcVsc_INIT.SNom,hvdcVsc_INIT.U10Pu,hvdcVsc_INIT.U20Pu,hvdcVsc_INIT.UPhase10,hvdcVsc_INIT.UPhase20,infiniteBus1.UNom,infiniteBus1.UPhase,infiniteBus1.UPu,infiniteBus2.UNom,infiniteBus2.UPhase,infiniteBus2.UPu,line1.BPu,line1.GPu,line1.NbSwitchOffSignals,line1.RPu,line1.Running0,line1.State0,line1.SwitchOffSignal10,line1.SwitchOffSignal20,line1.SwitchOffSignal30,line1.XPu,line1.YPu.im,line1.YPu.re,line1.ZPu.im,line1.ZPu.re,line2.BPu,line2.GPu,line2.NbSwitchOffSignals,line2.RPu,line2.Running0,line2.State0,line2.SwitchOffSignal10,line2.SwitchOffSignal20,line2.SwitchOffSignal30,line2.XPu,line2.YPu.im,line2.YPu.re,line2.ZPu.im,line2.ZPu.re,modeU1.k,modeU2.k,nodeFault.RPu,nodeFault.XPu,nodeFault.ZPu.im,nodeFault.ZPu.re,nodeFault.tBegin,nodeFault.tEnd,time
[Calling sys.exit(0), Time elapsed: 11.883368544280529]