Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations.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 0.0008/0.0008, allocations: 76.47 kB / 20.68 MB, free: 3.879 MB / 18.57 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 0.0007533/0.0007533, allocations: 169.2 kB / 23.96 MB, free: 0.6055 MB / 18.57 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 0.8502/0.8502, allocations: 158.6 MB / 185.7 MB, free: 3.078 MB / 170.7 MB
"
[Timeout remaining time 179]
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 0.4199/0.4199, allocations: 88.37 MB / 326.3 MB, free: 0.957 MB / 298.7 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.GridCodeSimulations.RunSimulations,tolerance=1e-06,outputFormat="empty",numberOfIntervals=2500,variableFilter="",fileNamePrefix="Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations")
translateModel(Dynawo.Examples.GridCodeSimulations.RunSimulations,tolerance=1e-06,outputFormat="empty",numberOfIntervals=2500,variableFilter="",fileNamePrefix="Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations") [Timeout 660]
"Notification: Modelica requested package Complex of version 3.2.3. Complex 4.1.0 is used instead which states that it is fully compatible without conversion script needed.
Notification: Modelica requested package ModelicaServices of version 3.2.3. ModelicaServices 4.1.0 is used instead which states that it is fully compatible without conversion script needed.
Notification: Performance of FrontEnd - loaded program: time 0.001024/0.001024, allocations: 77.14 kB / 0.49 GB, free: 23.01 MB / 442.7 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 0.1187/0.1198, allocations: 79.85 MB / 0.568 GB, free: 8.262 MB / 490.7 MB
Notification: Performance of NFInst.instantiate(Dynawo.Examples.GridCodeSimulations.RunSimulations): time 0.05429/0.1741, allocations: 81.47 MB / 0.6476 GB, free: 6.426 MB / 0.5573 GB
Notification: Performance of NFInst.instExpressions: time 0.3375/0.5115, allocations: 43.17 MB / 0.6897 GB, free: 4.613 MB / 0.5886 GB
Notification: Performance of NFInst.updateImplicitVariability: time 0.02172/0.5332, allocations: 0.7578 MB / 0.6905 GB, free: 4.613 MB / 0.5886 GB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Events/NodeFault.mo:24:3-24:107:writable] Warning: Connector nodeFault 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Loads/BaseClasses/BaseLoad.mo:32:3-32:125:writable] Warning: Connector UPu 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:22:3-22:125:writable] Warning: Connector switchOffSignal3 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:20:3-20:98:writable] Warning: Connector switchOffSignal1 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:21:3-21:125:writable] Warning: Connector switchOffSignal2 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/Controls/Basics/SwitchOff/SwitchOffLogic.mo:24:3-24:105:writable] Warning: Connector running 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 0.0184/0.5517, allocations: 7.13 MB / 0.6974 GB, free: 4.613 MB / 0.5886 GB
[/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 0.02872/0.5804, allocations: 10.01 MB / 0.7072 GB, free: 4.535 MB / 0.5886 GB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Wind/WECC/WT4CurrentSource_INIT.mo:82:3-82:98:writable] Warning: In relation Modelica.ComplexMath.'abs'(sheetI2Xcca.INIT.sInj0Pu) == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Wind/WECC/WT4CurrentSource_INIT.mo:82:3-82:98:writable] Warning: In relation Modelica.ComplexMath.'abs'(sheetI2Xccb.INIT.sInj0Pu) == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Wind/WECC/WT4CurrentSource_INIT.mo:82:3-82:98:writable] Warning: In relation Modelica.ComplexMath.'abs'(sheetI5.INIT.sInj0Pu) == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Wind/WECC/WT4CurrentSource_INIT.mo:82:3-82:98:writable] Warning: In relation Modelica.ComplexMath.'abs'(sheetI6.INIT.sInj0Pu) == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Wind/WECC/WT4CurrentSource_INIT.mo:82:3-82:98:writable] Warning: In relation Modelica.ComplexMath.'abs'(sheetI7QMax.INIT.sInj0Pu) == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Wind/WECC/WT4CurrentSource_INIT.mo:82:3-82:98:writable] Warning: In relation Modelica.ComplexMath.'abs'(sheetI7QMin.INIT.sInj0Pu) == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Buses/Bus.mo:29:3-33:9:writable] Warning: In relation sheetI10.bus.terminal.V.re == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Buses/Bus.mo:29:3-33:9:writable] Warning: In relation sheetI10.bus.terminal.V.im == 0.0, == on Real operands is deprecated in non-function contexts.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/Dynawo master/Electrical/Wind/WECC/WT4CurrentSource_INIT.mo:82:3-82:98:writable] Warning: In relation Modelica.ComplexMath.'abs'(sheetI10.INIT.sInj0Pu) == 0.0, == on Real operands is deprecated in non-function contexts.
Notification: Performance of NFTyping.typeClassSections: time 0.03984/0.6202, allocations: 24.36 MB / 0.731 GB, free: 13.77 MB / 0.6042 GB
Notification: Performance of NFFlatten.flatten: time 0.0728/0.693, allocations: 48.22 MB / 0.7781 GB, free: 2.113 MB / 0.6198 GB
Notification: Performance of NFFlatten.resolveConnections: time 0.028/0.721, allocations: 10.5 MB / 0.7884 GB, free: 10.66 MB / 0.6355 GB
Notification: Performance of NFEvalConstants.evaluate: time 0.03123/0.7522, allocations: 16.95 MB / 0.8049 GB, free: 11.09 MB / 0.6511 GB
Notification: Performance of NFSimplifyModel.simplify: time 0.02076/0.773, allocations: 15.96 MB / 0.8205 GB, free: 11.35 MB / 0.6667 GB
Notification: Performance of NFPackage.collectConstants: time 0.01491/0.7879, allocations: 5.715 MB / 0.8261 GB, free: 5.633 MB / 0.6667 GB
Notification: Performance of NFFlatten.collectFunctions: time 0.01274/0.8006, allocations: 6.268 MB / 0.8322 GB, free: 15.38 MB / 0.6823 GB
Notification: Performance of NFScalarize.scalarize: time 0.01321/0.8139, allocations: 10.76 MB / 0.8427 GB, free: 4.742 MB / 0.6823 GB
Notification: Performance of NFVerifyModel.verify: time 0.02396/0.8378, allocations: 15.2 MB / 0.8575 GB, free: 5.637 MB / 0.698 GB
Notification: Performance of NFConvertDAE.convert: time 0.06594/0.9038, allocations: 67.48 MB / 0.9234 GB, free: 3.48 MB / 0.7605 GB
Notification: Performance of FrontEnd - DAE generated: time 7.564e-06/0.9038, allocations: 0 / 0.9234 GB, free: 3.48 MB / 0.7605 GB
Notification: Performance of FrontEnd: time 2.054e-06/0.9038, allocations: 0 / 0.9234 GB, free: 3.48 MB / 0.7605 GB
Notification: Performance of Transformations before backend: time 0.001996/0.9058, allocations: 3.938 kB / 0.9234 GB, free: 3.477 MB / 0.7605 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 5452
 * Number of variables: 5452
Notification: Performance of Generate backend data structure: time 0.09193/0.9977, allocations: 44.62 MB / 0.967 GB, free: 6.625 MB / 0.8073 GB
Notification: Performance of prepare preOptimizeDAE: time 4.316e-05/0.9977, allocations: 16.02 kB / 0.967 GB, free: 6.609 MB / 0.8073 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.02738/1.025, allocations: 7.431 MB / 0.9743 GB, free: 15.21 MB / 0.823 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.04963/1.075, allocations: 25.6 MB / 0.9993 GB, free: 6.055 MB / 0.8386 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.2799/1.355, allocations: 7.32 MB / 1.006 GB, free: 289.7 MB / 0.8386 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.007248/1.362, allocations: 2.18 MB / 1.009 GB, free: 289.7 MB / 0.8386 GB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.06668/1.429, allocations: 33.29 MB / 1.041 GB, free: 271.8 MB / 0.8386 GB
Notification: Performance of preOpt findStateOrder (simulation): time 0.0006961/1.429, allocations: 42.31 kB / 1.041 GB, free: 271.7 MB / 0.8386 GB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.007563/1.437, allocations: 0.9133 MB / 1.042 GB, free: 271.1 MB / 0.8386 GB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 0.0005441/1.437, allocations: 0.5156 MB / 1.043 GB, free: 271.1 MB / 0.8386 GB
Notification: Performance of preOpt removeEqualRHS (simulation): time 0.04206/1.479, allocations: 25.69 MB / 1.068 GB, free: 255 MB / 0.8386 GB
Warning: The model contains alias variables with redundant start and/or conflicting nominal values. It is recommended to resolve the conflicts, because otherwise the system could be hard to solve. To print the conflicting alias sets and the chosen candidates please use -d=aliasConflicts.
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.1344/1.614, allocations: 97.85 MB / 1.163 GB, free: 159.8 MB / 0.8386 GB
Notification: Performance of preOpt comSubExp (simulation): time 0.03647/1.65, allocations: 24.66 MB / 1.187 GB, free: 135 MB / 0.8386 GB
Notification: Performance of preOpt resolveLoops (simulation): time 0.01804/1.668, allocations: 11.5 MB / 1.198 GB, free: 123.4 MB / 0.8386 GB
Notification: Performance of preOpt evalFunc (simulation): time 0.001803/1.67, allocations: 269.8 kB / 1.199 GB, free: 123.2 MB / 0.8386 GB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.02592/1.696, allocations: 15.77 MB / 1.214 GB, free: 107.3 MB / 0.8386 GB
Notification: Performance of pre-optimization done (n=1841): time 2.998e-05/1.696, allocations: 0 / 1.214 GB, free: 107.3 MB / 0.8386 GB
Notification: Performance of matching and sorting (n=1841): time 0.07283/1.769, allocations: 39.48 MB / 1.253 GB, free: 67.72 MB / 0.8386 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 0.0005552/1.769, allocations: 3.957 MB / 1.257 GB, free: 62.88 MB / 0.8386 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.04614/1.816, allocations: 27.7 MB / 1.284 GB, free: 35.41 MB / 0.8386 GB
Notification: Performance of collectPreVariables (initialization): time 0.004577/1.82, allocations: 0.5016 MB / 1.284 GB, free: 34.91 MB / 0.8386 GB
Notification: Performance of collectInitialEqns (initialization): time 0.0124/1.833, allocations: 14.35 MB / 1.298 GB, free: 20.64 MB / 0.8386 GB
Notification: Performance of collectInitialBindings (initialization): time 0.009306/1.842, allocations: 6.551 MB / 1.305 GB, free: 14.21 MB / 0.8386 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.01975/1.862, allocations: 5.11 MB / 1.309 GB, free: 9.086 MB / 0.8386 GB
Notification: Performance of setup shared object (initialization): time 3.156e-05/1.862, allocations: 305.1 kB / 1.31 GB, free: 8.785 MB / 0.8386 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.02381/1.885, allocations: 13.62 MB / 1.323 GB, free: 11.11 MB / 0.8542 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.341/2.226, allocations: 21.82 MB / 1.344 GB, free: 261.1 MB / 0.8542 GB
Notification: Performance of analyzeInitialSystem (initialization): time 0.1135/2.34, allocations: 65.33 MB / 1.408 GB, free: 241.2 MB / 0.8542 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 0.0001508/2.34, allocations: 24.91 kB / 1.408 GB, free: 241.2 MB / 0.8542 GB
Notification: Performance of matching and sorting (n=3549) (initialization): time 0.06449/2.405, allocations: 38.52 MB / 1.446 GB, free: 210.3 MB / 0.8542 GB
Notification: Performance of prepare postOptimizeDAE: time 0.0003419/2.405, allocations: 413.5 kB / 1.446 GB, free: 209.9 MB / 0.8542 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.0001077/2.405, allocations: 88 kB / 1.446 GB, free: 209.8 MB / 0.8542 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.002395/2.407, allocations: 2.756 MB / 1.449 GB, free: 207.2 MB / 0.8542 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.02725/2.435, allocations: 9.308 MB / 1.458 GB, free: 198.2 MB / 0.8542 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.008785/2.443, allocations: 9.566 MB / 1.467 GB, free: 188.6 MB / 0.8542 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.01945/2.463, allocations: 3.265 MB / 1.471 GB, free: 186.3 MB / 0.8542 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.004778/2.468, allocations: 0.9413 MB / 1.472 GB, free: 185.4 MB / 0.8542 GB
Warning: Assuming fixed start value for the following 252 variables:
         sheetI2Xcca.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xcca.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xcca.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xcca.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xcca.Xcc_a.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xcca.Xcc_a.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xccb.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xccb.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xccb.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xccb.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xccb.Xcc_a.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xccb.Xcc_a.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.line22.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.line22.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.line21.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.line21.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI6.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI6.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI6.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI6.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMax.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMax.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMax.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMax.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMin.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMin.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMin.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMin.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.loadAlphaBeta.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.loadAlphaBeta.State0 fixed = true )  \"Load connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.inertialGrid1.injectorURI.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.inertialGrid1.injectorURI.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.inertialGrid1.injectorURI.running.value:DISCRETE(flow=false start = sheetI10.inertialGrid1.injectorURI.Running0 fixed = true )  type: Boolean
         sheetI10.loadAlphaBeta.running.value:DISCRETE(flow=false start = sheetI10.loadAlphaBeta.Running0 fixed = true )  type: Boolean
         sheetI10.loadAlphaBeta.deltaP:VARIABLE(flow=false start = 0.0 fixed = true )  \"Delta to apply on PRef in %\" type: Real
         sheetI10.loadAlphaBeta.deltaQ:VARIABLE(flow=false start = 0.0 fixed = true )  \"Delta to apply on QRef in %\" type: Real
         sheetI10.inertialGrid1.reducedOrderSFR.PspPu:VARIABLE(flow=false start = sheetI10.inertialGrid1.reducedOrderSFR.Psp0Pu fixed = true )  \"Incremental power set point in pu (base SNom)\" type: Real
         sheetI10.inertialGrid1.reducedOrderSFR.firstOrder.y:VARIABLE(flow=false start = sheetI10.inertialGrid1.reducedOrderSFR.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.line.running.value:DISCRETE(flow=false start = sheetI10.line.Running0 fixed = true )  type: Boolean
         sheetI10.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI10.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI10.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI10.Unit.wecc_repc.leadLag.X0[1] * sheetI10.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI10.Unit.injector.running.value:DISCRETE(flow=false start = sheetI10.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI10.Unit.line.running.value:DISCRETE(flow=false start = sheetI10.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI10.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI10.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI10.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI10.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI10.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI7QMin.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI7QMin.Unit.wecc_repc.leadLag.X0[1] * sheetI7QMin.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI7QMin.Unit.injector.running.value:DISCRETE(flow=false start = sheetI7QMin.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI7QMin.Unit.line.running.value:DISCRETE(flow=false start = sheetI7QMin.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI7QMin.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI7QMin.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMin.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI7QMax.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI7QMax.Unit.wecc_repc.leadLag.X0[1] * sheetI7QMax.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI7QMax.Unit.injector.running.value:DISCRETE(flow=false start = sheetI7QMax.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI7QMax.Unit.line.running.value:DISCRETE(flow=false start = sheetI7QMax.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI7QMax.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI7QMax.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMax.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI6.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI6.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI6.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI6.Unit.wecc_repc.leadLag.X0[1] * sheetI6.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI6.Unit.injector.running.value:DISCRETE(flow=false start = sheetI6.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI6.Unit.line.running.value:DISCRETE(flow=false start = sheetI6.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI6.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI6.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI6.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI6.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI6.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI5.line.running.value:DISCRETE(flow=false start = sheetI5.line.Running0 fixed = true )  type: Boolean
         sheetI5.line21.running.value:DISCRETE(flow=false start = sheetI5.line21.Running0 fixed = true )  type: Boolean
         sheetI5.line22.running.value:DISCRETE(flow=false start = sheetI5.line22.Running0 fixed = true )  type: Boolean
         sheetI5.nodeFault.nodeFault.value:DISCRETE(flow=false start = false fixed = true )  type: Boolean
         sheetI5.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI5.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI5.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI5.Unit.wecc_repc.leadLag.X0[1] * sheetI5.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI5.Unit.injector.running.value:DISCRETE(flow=false start = sheetI5.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI5.Unit.line.running.value:DISCRETE(flow=false start = sheetI5.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI5.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI5.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI5.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI5.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI5.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI2Xccb.Xcc_a.running.value:DISCRETE(flow=false start = sheetI2Xccb.Xcc_a.Running0 fixed = true )  type: Boolean
         sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI2Xccb.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI2Xccb.Unit.wecc_repc.leadLag.X0[1] * sheetI2Xccb.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI2Xccb.Unit.injector.running.value:DISCRETE(flow=false start = sheetI2Xccb.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI2Xccb.Unit.line.running.value:DISCRETE(flow=false start = sheetI2Xccb.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI2Xccb.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI2Xccb.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xccb.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI2Xcca.Xcc_a.running.value:DISCRETE(flow=false start = sheetI2Xcca.Xcc_a.Running0 fixed = true )  type: Boolean
         sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI2Xcca.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI2Xcca.Unit.wecc_repc.leadLag.X0[1] * sheetI2Xcca.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI2Xcca.Unit.injector.running.value:DISCRETE(flow=false start = sheetI2Xcca.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI2Xcca.Unit.line.running.value:DISCRETE(flow=false start = sheetI2Xcca.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI2Xcca.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI2Xcca.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xcca.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
Notification: Performance of preBalanceInitialSystem (initialization_lambda0): time 0.0348/2.503, allocations: 20.15 MB / 1.491 GB, free: 165.3 MB / 0.8542 GB
Notification: Performance of partitionIndependentBlocks (initialization_lambda0): time 0.02474/2.527, allocations: 21.4 MB / 1.512 GB, free: 141.5 MB / 0.8542 GB
Notification: Performance of analyzeInitialSystem (initialization_lambda0): time 0.1015/2.629, allocations: 64.26 MB / 1.575 GB, free: 75.82 MB / 0.8542 GB
Notification: Performance of solveInitialSystemEqSystem (initialization_lambda0): time 0.0001035/2.629, allocations: 24 kB / 1.575 GB, free: 75.79 MB / 0.8542 GB
Notification: Performance of matching and sorting (n=3549) (initialization_lambda0): time 0.06057/2.689, allocations: 37.75 MB / 1.612 GB, free: 38.8 MB / 0.8542 GB
Notification: Performance of prepare postOptimizeDAE: time 0.0002935/2.69, allocations: 415.7 kB / 1.612 GB, free: 38.35 MB / 0.8542 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 8.337e-05/2.69, allocations: 88.06 kB / 1.612 GB, free: 38.27 MB / 0.8542 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.002314/2.692, allocations: 2.746 MB / 1.615 GB, free: 35.5 MB / 0.8542 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.02536/2.718, allocations: 9.188 MB / 1.624 GB, free: 26.3 MB / 0.8542 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.008652/2.726, allocations: 9.546 MB / 1.633 GB, free: 16.57 MB / 0.8542 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.02012/2.746, allocations: 3.121 MB / 1.636 GB, free: 13.82 MB / 0.8542 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.004729/2.751, allocations: 0.9529 MB / 1.637 GB, free: 12.87 MB / 0.8542 GB
Warning: Assuming fixed start value for the following 252 variables:
         sheetI2Xcca.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xcca.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xcca.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xcca.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xcca.Xcc_a.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xcca.Xcc_a.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xccb.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xccb.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xccb.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xccb.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI2Xccb.Xcc_a.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI2Xccb.Xcc_a.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.line22.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.line22.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.line21.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.line21.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI5.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI5.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI6.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI6.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI6.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI6.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMax.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMax.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMax.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMax.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMin.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMin.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI7QMin.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI7QMin.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.Unit.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.Unit.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.Unit.injector.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.Unit.injector.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.line.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.line.State0 fixed = true )  \"Line connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.loadAlphaBeta.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.loadAlphaBeta.State0 fixed = true )  \"Load connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.inertialGrid1.injectorURI.state:DISCRETE(min = Dynawo.Electrical.Constants.state.Open max = Dynawo.Electrical.Constants.state.Undefined start = sheetI10.inertialGrid1.injectorURI.State0 fixed = true )  \"Injector connection state\" type: enumeration(Open, Closed, Closed1, Closed2, Closed3, Undefined)
         sheetI10.inertialGrid1.injectorURI.running.value:DISCRETE(flow=false start = sheetI10.inertialGrid1.injectorURI.Running0 fixed = true )  type: Boolean
         sheetI10.loadAlphaBeta.running.value:DISCRETE(flow=false start = sheetI10.loadAlphaBeta.Running0 fixed = true )  type: Boolean
         sheetI10.loadAlphaBeta.deltaP:VARIABLE(flow=false start = 0.0 fixed = true )  \"Delta to apply on PRef in %\" type: Real
         sheetI10.loadAlphaBeta.deltaQ:VARIABLE(flow=false start = 0.0 fixed = true )  \"Delta to apply on QRef in %\" type: Real
         sheetI10.inertialGrid1.reducedOrderSFR.PspPu:VARIABLE(flow=false start = sheetI10.inertialGrid1.reducedOrderSFR.Psp0Pu fixed = true )  \"Incremental power set point in pu (base SNom)\" type: Real
         sheetI10.inertialGrid1.reducedOrderSFR.firstOrder.y:VARIABLE(flow=false start = sheetI10.inertialGrid1.reducedOrderSFR.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.line.running.value:DISCRETE(flow=false start = sheetI10.line.Running0 fixed = true )  type: Boolean
         sheetI10.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI10.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI10.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI10.Unit.wecc_repc.leadLag.X0[1] * sheetI10.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI10.Unit.injector.running.value:DISCRETE(flow=false start = sheetI10.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI10.Unit.line.running.value:DISCRETE(flow=false start = sheetI10.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI10.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI10.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI10.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI10.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI10.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI10.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI10.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI7QMin.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI7QMin.Unit.wecc_repc.leadLag.X0[1] * sheetI7QMin.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI7QMin.Unit.injector.running.value:DISCRETE(flow=false start = sheetI7QMin.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI7QMin.Unit.line.running.value:DISCRETE(flow=false start = sheetI7QMin.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI7QMin.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI7QMin.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI7QMin.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMin.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI7QMax.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI7QMax.Unit.wecc_repc.leadLag.X0[1] * sheetI7QMax.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI7QMax.Unit.injector.running.value:DISCRETE(flow=false start = sheetI7QMax.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI7QMax.Unit.line.running.value:DISCRETE(flow=false start = sheetI7QMax.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI7QMax.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI7QMax.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI7QMax.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI7QMax.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI6.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI6.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI6.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI6.Unit.wecc_repc.leadLag.X0[1] * sheetI6.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI6.Unit.injector.running.value:DISCRETE(flow=false start = sheetI6.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI6.Unit.line.running.value:DISCRETE(flow=false start = sheetI6.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI6.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI6.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI6.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI6.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI6.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI6.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI6.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI5.line.running.value:DISCRETE(flow=false start = sheetI5.line.Running0 fixed = true )  type: Boolean
         sheetI5.line21.running.value:DISCRETE(flow=false start = sheetI5.line21.Running0 fixed = true )  type: Boolean
         sheetI5.line22.running.value:DISCRETE(flow=false start = sheetI5.line22.Running0 fixed = true )  type: Boolean
         sheetI5.nodeFault.nodeFault.value:DISCRETE(flow=false start = false fixed = true )  type: Boolean
         sheetI5.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI5.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI5.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI5.Unit.wecc_repc.leadLag.X0[1] * sheetI5.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI5.Unit.injector.running.value:DISCRETE(flow=false start = sheetI5.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI5.Unit.line.running.value:DISCRETE(flow=false start = sheetI5.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI5.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI5.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI5.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI5.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI5.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI5.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI5.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI2Xccb.Xcc_a.running.value:DISCRETE(flow=false start = sheetI2Xccb.Xcc_a.Running0 fixed = true )  type: Boolean
         sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI2Xccb.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI2Xccb.Unit.wecc_repc.leadLag.X0[1] * sheetI2Xccb.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI2Xccb.Unit.injector.running.value:DISCRETE(flow=false start = sheetI2Xccb.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI2Xccb.Unit.line.running.value:DISCRETE(flow=false start = sheetI2Xccb.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI2Xccb.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI2Xccb.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI2Xccb.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xccb.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
         sheetI2Xcca.Xcc_a.running.value:DISCRETE(flow=false start = sheetI2Xcca.Xcc_a.Running0 fixed = true )  type: Boolean
         sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgq.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgq.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgq.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.omegaRefWTGQPu0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_wtgq.limitedIntegratorFreeze.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgq.limitedIntegratorFreeze.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze2.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze2.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_regc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_regc.offDelay.delaySignal:DISCRETE(start = false fixed = true protected = true )  type: Boolean
         sheetI2Xcca.Unit.wecc_regc.offDelay.tNext:DISCRETE(start = -1.0 unit = \"s\" fixed = true protected = true )  type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder2.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder2.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.firstOrder3.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.firstOrder3.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_repc.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_repc.leadLag.x_scaled[1]:VARIABLE(start = sheetI2Xcca.Unit.wecc_repc.leadLag.X0[1] * sheetI2Xcca.Unit.wecc_repc.leadLag.a_end fixed = true protected = true )  \"Scaled vector x\" type: Real [1]
         sheetI2Xcca.Unit.injector.running.value:DISCRETE(flow=false start = sheetI2Xcca.Unit.injector.Running0 fixed = true )  type: Boolean
         sheetI2Xcca.Unit.line.running.value:DISCRETE(flow=false start = sheetI2Xcca.Unit.line.Running0 fixed = true )  type: Boolean
         sheetI2Xcca.Unit.wecc_reec.firstOrder.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.UInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.firstOrder1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.firstOrder1.y_start fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.limPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.limPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.varLimPIDFreeze.I.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.varLimPIDFreeze.I.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze1.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze1.Y0 fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze.y:VARIABLE(flow=false start = sheetI2Xcca.Unit.wecc_wtgp.PInj0Pu fixed = true )  \"Connector of Real output signal\" type: Real
         sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDip:DISCRETE(flow=false start = false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  \"ending time of the voltage dip start (in seconds)\" type: Real
         sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu:DISCRETE(start = 0.0 unit = \"1\" fixed = true )  type: Real
         sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime:DISCRETE(start = -1.0 unit = \"s\" fixed = true )  type: Real
         sheetI2Xcca.Unit.Pm0Pu:VARIABLE(unit = \"1\" fixed = true )  \"Initial mechanical power in pu (base SNom)\" type: Real
         sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDip:DISCRETE(flow=false fixed = true )  \"Ongoing voltage dip\" type: Boolean
         sheetI2Xcca.Unit.wecc_regc.offDelay.u:DISCRETE(flow=false fixed = true )  \"Boolean input signal\" type: Boolean
Notification: Model statistics after passing the back-end for initialization:
 * Number of independent subsystems: 395
 * Number of states: 0 ()
 * Number of discrete variables: 539 ($PRE.sheetI2Xcca.Unit.line.state,sheetI2Xcca.Unit.line.state,$PRE.sheetI2Xcca.Unit.injector.state,sheetI2Xcca.Unit.injector.state,$PRE.sheetI2Xcca.Xcc_a.state,sheetI2Xcca.Xcc_a.state,$PRE.sheetI2Xccb.Unit.line.state,sheetI2Xccb.Unit.line.state,$PRE.sheetI2Xccb.Unit.injector.state,sheetI2Xccb.Unit.injector.state,$PRE.sheetI2Xccb.Xcc_a.state,sheetI2Xccb.Xcc_a.state,$PRE.sheetI5.Unit.line.state,sheetI5.Unit.line.state,$PRE.sheetI5.Unit.injector.state,sheetI5.Unit.injector.state,$PRE.sheetI5.line22.state,sheetI5.line22.state,$PRE.sheetI5.line21.state,sheetI5.line21.state,$PRE.sheetI5.line.state,sheetI5.line.state,$whenCondition86,$whenCondition87,$PRE.sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,$whenCondition74,sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,$PRE.sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,$PRE.sheetI6.Unit.line.state,sheetI6.Unit.line.state,$PRE.sheetI6.Unit.injector.state,sheetI6.Unit.injector.state,$PRE.sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEvent,$whenCondition59,$PRE.sheetI6.infiniteBusFromTable.tableUPu.nextTimeEvent,$whenCondition58,$PRE.sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,$whenCondition57,sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,$PRE.sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,$PRE.sheetI7QMax.Unit.line.state,sheetI7QMax.Unit.line.state,$PRE.sheetI7QMax.Unit.injector.state,sheetI7QMax.Unit.injector.state,$PRE.sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEvent,$whenCondition42,$PRE.sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEvent,$whenCondition41,$PRE.sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,$whenCondition40,sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,$PRE.sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,$PRE.sheetI7QMin.Unit.line.state,sheetI7QMin.Unit.line.state,$PRE.sheetI7QMin.Unit.injector.state,sheetI7QMin.Unit.injector.state,$PRE.sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEvent,$whenCondition25,$PRE.sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEvent,$whenCondition24,$PRE.sheetI10.Unit.line.state,sheetI10.Unit.line.state,$PRE.sheetI10.Unit.injector.state,sheetI10.Unit.injector.state,$PRE.sheetI10.line.state,sheetI10.line.state,$PRE.sheetI10.loadAlphaBeta.state,sheetI10.loadAlphaBeta.state,$PRE.sheetI10.inertialGrid1.injectorURI.state,sheetI10.inertialGrid1.injectorURI.state,$PRE.sheetI10.inertialGrid1.injectorURI.running.value,sheetI10.inertialGrid1.injectorURI.running.value,$whenCondition2,$whenCondition1,$whenCondition3,sheetI2Xcca.Xcc_a.switchOffSignal2.value,sheetI2Xcca.Xcc_a.switchOffSignal1.value,sheetI2Xcca.Unit.injector.switchOffSignal3.value,sheetI2Xcca.Unit.injector.switchOffSignal2.value,sheetI2Xcca.Unit.injector.switchOffSignal1.value,sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze1.local_freeze,sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze2.local_freeze,sheetI2Xccb.Xcc_a.switchOffSignal2.value,sheetI2Xccb.Xcc_a.switchOffSignal1.value,sheetI2Xccb.Unit.injector.switchOffSignal3.value,sheetI2Xccb.Unit.injector.switchOffSignal2.value,sheetI2Xccb.Unit.injector.switchOffSignal1.value,sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze1.local_freeze,sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze2.local_freeze,sheetI5.line.switchOffSignal2.value,sheetI5.line.switchOffSignal1.value,sheetI5.Unit.injector.switchOffSignal3.value,sheetI5.Unit.injector.switchOffSignal2.value,sheetI5.Unit.injector.switchOffSignal1.value,sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze1.local_freeze,sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze2.local_freeze,sheetI6.Unit.injector.switchOffSignal3.value,sheetI6.Unit.injector.switchOffSignal2.value,sheetI6.Unit.injector.switchOffSignal1.value,sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze1.local_freeze,sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze2.local_freeze,sheetI7QMax.Unit.injector.switchOffSignal3.value,sheetI7QMax.Unit.injector.switchOffSignal2.value,sheetI7QMax.Unit.injector.switchOffSignal1.value,sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze1.local_freeze,sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze2.local_freeze,sheetI7QMin.Unit.injector.switchOffSignal3.value,sheetI7QMin.Unit.injector.switchOffSignal2.value,sheetI7QMin.Unit.injector.switchOffSignal1.value,sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze1.local_freeze,sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze2.local_freeze,sheetI10.loadAlphaBeta.switchOffSignal2.value,sheetI10.loadAlphaBeta.switchOffSignal1.value,sheetI10.line.switchOffSignal2.value,sheetI10.line.switchOffSignal1.value,sheetI10.Unit.injector.switchOffSignal3.value,sheetI10.Unit.injector.switchOffSignal2.value,sheetI10.Unit.injector.switchOffSignal1.value,sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze1.local_freeze,sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze2.local_freeze,sheetI10.inertialGrid1.injectorURI.switchOffSignal3.value,sheetI10.inertialGrid1.injectorURI.switchOffSignal2.value,sheetI10.inertialGrid1.injectorURI.switchOffSignal1.value,$PRE.sheetI10.loadAlphaBeta.running.value,$PRE.sheetI10.line.running.value,$PRE.sheetI10.Unit.wecc_regc.offDelay.delaySignal,$PRE.sheetI10.Unit.wecc_regc.offDelay.tNext,$PRE.sheetI10.Unit.injector.running.value,$PRE.sheetI10.Unit.line.running.value,$PRE.sheetI10.Unit.wecc_reec.iqInjectionLogic.vDip,$PRE.sheetI10.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,$PRE.sheetI10.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,$PRE.sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI10.Unit.wecc_regc.Qinj0PuNeg.k,sheetI10.Unit.wecc_regc.QInj0PuPos.k,$PRE.sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDip,$PRE.sheetI10.Unit.wecc_regc.offDelay.u,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI10.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI10.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI10.Unit.line.running.value,sheetI10.Unit.injector.running.value,sheetI10.Unit.wecc_repc.freeze,sheetI10.Unit.wecc_regc.and2.y,sheetI10.Unit.wecc_regc.and1.y,sheetI10.Unit.wecc_regc.and1.u[2],sheetI10.Unit.wecc_regc.offDelay.tNext,sheetI10.Unit.wecc_regc.offDelay.delaySignal,sheetI10.Unit.wecc_regc.offDelay.u,sheetI10.line.running.value,sheetI10.loadAlphaBeta.running.value,$whenCondition5,$whenCondition4,$whenCondition6,$whenCondition8,$whenCondition7,$whenCondition9,$whenCondition11,$whenCondition10,$whenCondition13,$whenCondition12,$whenCondition14,$whenCondition16,$whenCondition15,$whenCondition17,$whenCondition19,$whenCondition18,$whenCondition21,$whenCondition20,$whenCondition23,$whenCondition22,$PRE.sheetI7QMin.Unit.wecc_regc.offDelay.delaySignal,$PRE.sheetI7QMin.Unit.wecc_regc.offDelay.tNext,$PRE.sheetI7QMin.Unit.injector.running.value,$PRE.sheetI7QMin.Unit.line.running.value,$PRE.sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDip,$PRE.sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,$PRE.sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,$PRE.sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI7QMin.Unit.wecc_regc.Qinj0PuNeg.k,sheetI7QMin.Unit.wecc_regc.QInj0PuPos.k,$PRE.sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDip,$PRE.sheetI7QMin.Unit.wecc_regc.offDelay.u,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI7QMin.Unit.line.running.value,sheetI7QMin.Unit.injector.running.value,sheetI7QMin.Unit.wecc_repc.freeze,sheetI7QMin.Unit.wecc_regc.and2.y,sheetI7QMin.Unit.wecc_regc.and1.y,sheetI7QMin.Unit.wecc_regc.and1.u[2],sheetI7QMin.Unit.wecc_regc.offDelay.tNext,sheetI7QMin.Unit.wecc_regc.offDelay.delaySignal,sheetI7QMin.Unit.wecc_regc.offDelay.u,sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,$PRE.sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEventScaled,$PRE.sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEvent,$whenCondition27,$whenCondition26,$whenCondition29,$whenCondition28,$whenCondition30,$whenCondition32,$whenCondition31,$whenCondition33,$whenCondition35,$whenCondition34,$whenCondition37,$whenCondition36,$whenCondition39,$whenCondition38,$PRE.sheetI7QMax.Unit.wecc_regc.offDelay.delaySignal,$PRE.sheetI7QMax.Unit.wecc_regc.offDelay.tNext,$PRE.sheetI7QMax.Unit.injector.running.value,$PRE.sheetI7QMax.Unit.line.running.value,$PRE.sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDip,$PRE.sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,$PRE.sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,$PRE.sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI7QMax.Unit.wecc_regc.Qinj0PuNeg.k,sheetI7QMax.Unit.wecc_regc.QInj0PuPos.k,$PRE.sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDip,$PRE.sheetI7QMax.Unit.wecc_regc.offDelay.u,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI7QMax.Unit.line.running.value,sheetI7QMax.Unit.injector.running.value,sheetI7QMax.Unit.wecc_repc.freeze,sheetI7QMax.Unit.wecc_regc.and2.y,sheetI7QMax.Unit.wecc_regc.and1.y,sheetI7QMax.Unit.wecc_regc.and1.u[2],sheetI7QMax.Unit.wecc_regc.offDelay.tNext,sheetI7QMax.Unit.wecc_regc.offDelay.delaySignal,sheetI7QMax.Unit.wecc_regc.offDelay.u,sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,$PRE.sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEventScaled,$PRE.sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEvent,$whenCondition44,$whenCondition43,$whenCondition46,$whenCondition45,$whenCondition47,$whenCondition49,$whenCondition48,$whenCondition50,$whenCondition52,$whenCondition51,$whenCondition54,$whenCondition53,$whenCondition56,$whenCondition55,$PRE.sheetI6.Unit.wecc_regc.offDelay.delaySignal,$PRE.sheetI6.Unit.wecc_regc.offDelay.tNext,$PRE.sheetI6.Unit.injector.running.value,$PRE.sheetI6.Unit.line.running.value,$PRE.sheetI6.Unit.wecc_reec.iqInjectionLogic.vDip,$PRE.sheetI6.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,$PRE.sheetI6.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,$PRE.sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI6.Unit.wecc_regc.Qinj0PuNeg.k,sheetI6.Unit.wecc_regc.QInj0PuPos.k,$PRE.sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDip,$PRE.sheetI6.Unit.wecc_regc.offDelay.u,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI6.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI6.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI6.Unit.line.running.value,sheetI6.Unit.injector.running.value,sheetI6.Unit.wecc_repc.freeze,sheetI6.Unit.wecc_regc.and2.y,sheetI6.Unit.wecc_regc.and1.y,sheetI6.Unit.wecc_regc.and1.u[2],sheetI6.Unit.wecc_regc.offDelay.tNext,sheetI6.Unit.wecc_regc.offDelay.delaySignal,sheetI6.Unit.wecc_regc.offDelay.u,sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,$PRE.sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI6.infiniteBusFromTable.tableUPu.nextTimeEventScaled,$PRE.sheetI6.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI6.infiniteBusFromTable.tableUPu.nextTimeEvent,$whenCondition61,$whenCondition60,$whenCondition63,$whenCondition62,$whenCondition64,$whenCondition66,$whenCondition65,$whenCondition67,$whenCondition69,$whenCondition68,$whenCondition71,$whenCondition70,$whenCondition73,$whenCondition72,$PRE.sheetI5.line.running.value,$PRE.sheetI5.line21.running.value,$PRE.sheetI5.line22.running.value,$PRE.sheetI5.nodeFault.nodeFault.value,$PRE.sheetI5.Unit.wecc_regc.offDelay.delaySignal,$PRE.sheetI5.Unit.wecc_regc.offDelay.tNext,$PRE.sheetI5.Unit.injector.running.value,$PRE.sheetI5.Unit.line.running.value,$PRE.sheetI5.Unit.wecc_reec.iqInjectionLogic.vDip,$PRE.sheetI5.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,$PRE.sheetI5.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,$PRE.sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI5.Unit.wecc_regc.Qinj0PuNeg.k,sheetI5.Unit.wecc_regc.QInj0PuPos.k,$PRE.sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDip,$PRE.sheetI5.Unit.wecc_regc.offDelay.u,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI5.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI5.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI5.Unit.line.running.value,sheetI5.Unit.injector.running.value,sheetI5.Unit.wecc_repc.freeze,sheetI5.Unit.wecc_regc.and2.y,sheetI5.Unit.wecc_regc.and1.y,sheetI5.Unit.wecc_regc.and1.u[2],sheetI5.Unit.wecc_regc.offDelay.tNext,sheetI5.Unit.wecc_regc.offDelay.delaySignal,sheetI5.Unit.wecc_regc.offDelay.u,sheetI5.nodeFault.nodeFault.value,sheetI5.line22.running.value,sheetI5.line22.switchOffSignal2.value,sheetI5.line22.switchOffSignal1.value,sheetI5.line21.running.value,sheetI5.line21.switchOffSignal2.value,sheetI5.line21.switchOffSignal1.value,sheetI5.line.running.value,$whenCondition76,$whenCondition75,$whenCondition77,$whenCondition79,$whenCondition78,$whenCondition81,$whenCondition80,$whenCondition83,$whenCondition82,$whenCondition85,$whenCondition84,$whenCondition89,$whenCondition88,$whenCondition91,$whenCondition90,$whenCondition92,$whenCondition94,$whenCondition93,$whenCondition95,$whenCondition97,$whenCondition96,$whenCondition99,$whenCondition98,$whenCondition101,$whenCondition100,$PRE.sheetI2Xccb.Xcc_a.running.value,$PRE.sheetI2Xccb.Unit.wecc_regc.offDelay.delaySignal,$PRE.sheetI2Xccb.Unit.wecc_regc.offDelay.tNext,$PRE.sheetI2Xccb.Unit.injector.running.value,$PRE.sheetI2Xccb.Unit.line.running.value,$PRE.sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDip,$PRE.sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,$PRE.sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,$PRE.sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI2Xccb.Unit.wecc_regc.Qinj0PuNeg.k,sheetI2Xccb.Unit.wecc_regc.QInj0PuPos.k,$PRE.sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDip,$PRE.sheetI2Xccb.Unit.wecc_regc.offDelay.u,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI2Xccb.Unit.line.running.value,sheetI2Xccb.Unit.injector.running.value,sheetI2Xccb.Unit.wecc_repc.freeze,sheetI2Xccb.Unit.wecc_regc.and2.y,sheetI2Xccb.Unit.wecc_regc.and1.y,sheetI2Xccb.Unit.wecc_regc.and1.u[2],sheetI2Xccb.Unit.wecc_regc.offDelay.tNext,sheetI2Xccb.Unit.wecc_regc.offDelay.delaySignal,sheetI2Xccb.Unit.wecc_regc.offDelay.u,sheetI2Xccb.Xcc_a.running.value,$whenCondition103,$whenCondition102,$whenCondition104,$whenCondition106,$whenCondition105,$whenCondition108,$whenCondition107,$whenCondition109,$whenCondition111,$whenCondition110,$whenCondition112,$whenCondition114,$whenCondition113,$whenCondition116,$whenCondition115,$whenCondition118,$whenCondition117,$PRE.sheetI2Xcca.Xcc_a.running.value,$PRE.sheetI2Xcca.Unit.wecc_regc.offDelay.delaySignal,$PRE.sheetI2Xcca.Unit.wecc_regc.offDelay.tNext,$PRE.sheetI2Xcca.Unit.injector.running.value,$PRE.sheetI2Xcca.Unit.line.running.value,$PRE.sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDip,$PRE.sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,$PRE.sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,$PRE.sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI2Xcca.Unit.wecc_regc.Qinj0PuNeg.k,sheetI2Xcca.Unit.wecc_regc.QInj0PuPos.k,$PRE.sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDip,$PRE.sheetI2Xcca.Unit.wecc_regc.offDelay.u,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI2Xcca.Unit.line.running.value,sheetI2Xcca.Unit.injector.running.value,sheetI2Xcca.Unit.wecc_repc.freeze,sheetI2Xcca.Unit.wecc_regc.and2.y,sheetI2Xcca.Unit.wecc_regc.and1.y,sheetI2Xcca.Unit.wecc_regc.and1.u[2],sheetI2Xcca.Unit.wecc_regc.offDelay.tNext,sheetI2Xcca.Unit.wecc_regc.offDelay.delaySignal,sheetI2Xcca.Unit.wecc_regc.offDelay.u,sheetI2Xcca.Xcc_a.running.value,$whenCondition120,$whenCondition119,$whenCondition121,$whenCondition123,$whenCondition122,$whenCondition125,$whenCondition124,$whenCondition126,$whenCondition128,$whenCondition127,$whenCondition129,$whenCondition131,$whenCondition130,$whenCondition133,$whenCondition132,$whenCondition135,$whenCondition134,sheetI10.Unit.wecc_reec.varLimPIDFreeze.I.resetLocal,sheetI10.Unit.wecc_reec.limPIDFreeze.I.resetLocal,sheetI10.Unit.pll.limIntegrator.local_reset,sheetI10.Unit.pll.integrator.local_reset,sheetI10.Unit.wecc_repc.limPIDFreeze.I.resetLocal,sheetI10.Unit.wecc_repc.limPID.I.local_reset,sheetI10.Unit.wecc_wtgt.dOmegaGenerator.local_reset,sheetI10.Unit.wecc_wtgt.dOmegaTurbine.local_reset,sheetI10.Unit.wecc_wtgt.dPhi.local_reset,sheetI10.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.local_reset,sheetI10.inertialGrid1.integrator.local_reset,sheetI10.inertialGrid1.reducedOrderSFR.integrator.local_reset,sheetI7QMin.Unit.wecc_reec.varLimPIDFreeze.I.resetLocal,sheetI7QMin.Unit.wecc_reec.limPIDFreeze.I.resetLocal,sheetI7QMin.Unit.pll.limIntegrator.local_reset,sheetI7QMin.Unit.pll.integrator.local_reset,sheetI7QMin.Unit.wecc_repc.limPIDFreeze.I.resetLocal,sheetI7QMin.Unit.wecc_repc.limPID.I.local_reset,sheetI7QMin.Unit.wecc_wtgt.dOmegaGenerator.local_reset,sheetI7QMin.Unit.wecc_wtgt.dOmegaTurbine.local_reset,sheetI7QMin.Unit.wecc_wtgt.dPhi.local_reset,sheetI7QMin.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.local_reset,sheetI7QMax.Unit.wecc_reec.varLimPIDFreeze.I.resetLocal,sheetI7QMax.Unit.wecc_reec.limPIDFreeze.I.resetLocal,sheetI7QMax.Unit.pll.limIntegrator.local_reset,sheetI7QMax.Unit.pll.integrator.local_reset,sheetI7QMax.Unit.wecc_repc.limPIDFreeze.I.resetLocal,sheetI7QMax.Unit.wecc_repc.limPID.I.local_reset,sheetI7QMax.Unit.wecc_wtgt.dOmegaGenerator.local_reset,sheetI7QMax.Unit.wecc_wtgt.dOmegaTurbine.local_reset,sheetI7QMax.Unit.wecc_wtgt.dPhi.local_reset,sheetI7QMax.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.local_reset,sheetI6.Unit.wecc_reec.varLimPIDFreeze.I.resetLocal,sheetI6.Unit.wecc_reec.limPIDFreeze.I.resetLocal,sheetI6.Unit.pll.limIntegrator.local_reset,sheetI6.Unit.pll.integrator.local_reset,sheetI6.Unit.wecc_repc.limPIDFreeze.I.resetLocal,sheetI6.Unit.wecc_repc.limPID.I.local_reset,sheetI6.Unit.wecc_wtgt.dOmegaGenerator.local_reset,sheetI6.Unit.wecc_wtgt.dOmegaTurbine.local_reset,sheetI6.Unit.wecc_wtgt.dPhi.local_reset,sheetI6.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.local_reset,sheetI5.Unit.wecc_reec.varLimPIDFreeze.I.resetLocal,sheetI5.Unit.wecc_reec.limPIDFreeze.I.resetLocal,sheetI5.Unit.pll.limIntegrator.local_reset,sheetI5.Unit.pll.integrator.local_reset,sheetI5.Unit.wecc_repc.limPIDFreeze.I.resetLocal,sheetI5.Unit.wecc_repc.limPID.I.local_reset,sheetI5.Unit.wecc_wtgt.dOmegaGenerator.local_reset,sheetI5.Unit.wecc_wtgt.dOmegaTurbine.local_reset,sheetI5.Unit.wecc_wtgt.dPhi.local_reset,sheetI5.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.local_reset,sheetI2Xccb.Unit.wecc_reec.varLimPIDFreeze.I.resetLocal,sheetI2Xccb.Unit.wecc_reec.limPIDFreeze.I.resetLocal,sheetI2Xccb.Unit.pll.limIntegrator.local_reset,sheetI2Xccb.Unit.pll.integrator.local_reset,sheetI2Xccb.Unit.wecc_repc.limPIDFreeze.I.resetLocal,sheetI2Xccb.Unit.wecc_repc.limPID.I.local_reset,sheetI2Xccb.Unit.wecc_wtgt.dOmegaGenerator.local_reset,sheetI2Xccb.Unit.wecc_wtgt.dOmegaTurbine.local_reset,sheetI2Xccb.Unit.wecc_wtgt.dPhi.local_reset,sheetI2Xccb.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.local_reset,sheetI2Xcca.Unit.wecc_reec.varLimPIDFreeze.I.resetLocal,sheetI2Xcca.Unit.wecc_reec.limPIDFreeze.I.resetLocal,sheetI2Xcca.Unit.pll.limIntegrator.local_reset,sheetI2Xcca.Unit.pll.integrator.local_reset,sheetI2Xcca.Unit.wecc_repc.limPIDFreeze.I.resetLocal,sheetI2Xcca.Unit.wecc_repc.limPID.I.local_reset,sheetI2Xcca.Unit.wecc_wtgt.dOmegaGenerator.local_reset,sheetI2Xcca.Unit.wecc_wtgt.dOmegaTurbine.local_reset,sheetI2Xcca.Unit.wecc_wtgt.dPhi.local_reset,sheetI2Xcca.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.local_reset)
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for initialization (3373):
 * Single equations (assignments): 3359
 * Array equations: 0
 * Algorithm blocks: 7
 * Record equations: 0
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 5
 * Torn equation systems: 2
 * Mixed (continuous/discrete) equation systems: 0
Notification: Equation system details (not torn):
 * Constant Jacobian (size): 0 systems
 * Linear Jacobian (size,density): 5 systems
   {(4,75.0%), (4,75.0%), (4,75.0%), (8,56.2%), (8,56.2%)}
 * 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): 1 system
   {(18,4,29.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 1 system
   {(10,4)}
Notification: Performance of prepare postOptimizeDAE: time 0.008447/2.759, allocations: 3.154 MB / 1.64 GB, free: 9.844 MB / 0.8542 GB
Notification: Performance of postOpt lateInlineFunction (simulation): time 0.007243/2.767, allocations: 2.919 MB / 1.643 GB, free: 6.906 MB / 0.8542 GB
Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.3432/3.11, allocations: 29.25 MB / 1.672 GB, free: 277.4 MB / 0.8698 GB
Notification: Performance of postOpt inlineArrayEqn (simulation): time 0.0001408/3.11, allocations: 184.4 kB / 1.672 GB, free: 277.4 MB / 0.8698 GB
Notification: Performance of postOpt constantLinearSystem (simulation): time 0.0002122/3.11, allocations: 14.91 kB / 1.672 GB, free: 277.4 MB / 0.8698 GB
Notification: Performance of postOpt simplifysemiLinear (simulation): time 0.0003374/3.111, allocations: 93.05 kB / 1.672 GB, free: 277.4 MB / 0.8698 GB
Notification: Performance of postOpt removeSimpleEquations (simulation): time 0.1051/3.216, allocations: 67.67 MB / 1.738 GB, free: 244.7 MB / 0.8698 GB
Notification: Performance of postOpt simplifyComplexFunction (simulation): time 0.0001247/3.216, allocations: 28.88 kB / 1.738 GB, free: 244.7 MB / 0.8698 GB
Notification: Performance of postOpt solveSimpleEquations (simulation): time 0.0239/3.24, allocations: 7.251 MB / 1.745 GB, free: 244.4 MB / 0.8698 GB
Notification: Performance of postOpt tearingSystem (simulation): time 0.002591/3.242, allocations: 2.635 MB / 1.748 GB, free: 242.1 MB / 0.8698 GB
Notification: Performance of postOpt inputDerivativesUsed (simulation): time 0.004626/3.247, allocations: 0.5262 MB / 1.748 GB, free: 241.7 MB / 0.8698 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (simulation): time 0.008904/3.256, allocations: 9.373 MB / 1.757 GB, free: 232.7 MB / 0.8698 GB
Notification: Performance of postOpt calculateStateSetsJacobians (simulation): time 1.25e-05/3.256, allocations: 39.91 kB / 1.757 GB, free: 232.6 MB / 0.8698 GB
Notification: Performance of postOpt symbolicJacobian (simulation): time 0.08319/3.339, allocations: 48.35 MB / 1.805 GB, free: 186.7 MB / 0.8698 GB
Notification: Performance of postOpt removeConstants (simulation): time 0.01646/3.355, allocations: 6.659 MB / 1.811 GB, free: 180 MB / 0.8698 GB
Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.009799/3.365, allocations: 0.5975 MB / 1.812 GB, free: 179.4 MB / 0.8698 GB
Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.01643/3.382, allocations: 1.777 MB / 1.813 GB, free: 177.6 MB / 0.8698 GB
Notification: Performance of postOpt findZeroCrossings (simulation): time 0.006773/3.388, allocations: 2.037 MB / 1.815 GB, free: 175.6 MB / 0.8698 GB
Notification: Performance of postOpt collapseArrayExpressions (simulation): time 0.004357/3.393, allocations: 0.613 MB / 1.816 GB, free: 175 MB / 0.8698 GB
Notification: Performance of sorting global known variables: time 0.02877/3.422, allocations: 18.28 MB / 1.834 GB, free: 156.8 MB / 0.8698 GB
Notification: Performance of sort global known variables: time 4.71e-07/3.422, allocations: 0 / 1.834 GB, free: 156.8 MB / 0.8698 GB
Notification: Performance of remove unused functions: time 0.04271/3.464, allocations: 11.86 MB / 1.846 GB, free: 144.9 MB / 0.8698 GB
Notification: Model statistics after passing the back-end for simulation:
 * Number of independent subsystems: 123
 * Number of states: 202 (sheetI10.loadAlphaBeta.deltaP,sheetI10.loadAlphaBeta.deltaQ,sheetI10.inertialGrid1.reducedOrderSFR.PspPu,sheetI10.inertialGrid1.reducedOrderSFR.integrator.y,sheetI10.inertialGrid1.reducedOrderSFR.firstOrder.y,sheetI10.inertialGrid1.integrator.y,sheetI10.Unit.wecc_wtgp.limitedIntegrator.y,sheetI10.Unit.wecc_wtgp.limitedIntegrator1.y,sheetI10.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.y,sheetI10.Unit.wecc_wtgq.firstOrder.y,sheetI10.Unit.wecc_wtgq.firstOrder1.y,sheetI10.Unit.wecc_wtgq.limitedIntegratorFreeze.y,sheetI10.Unit.wecc_wtgt.dPhi.y,sheetI10.Unit.wecc_wtgt.dOmegaTurbine.y,sheetI10.Unit.wecc_wtgt.dOmegaGenerator.y,sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze2.y,sheetI10.Unit.wecc_regc.rateLimFirstOrderFreeze1.y,sheetI10.Unit.wecc_regc.firstOrder.y,sheetI10.Unit.wecc_repc.firstOrder.y,sheetI10.Unit.wecc_repc.limPID.I.y,sheetI10.Unit.wecc_repc.firstOrder1.y,sheetI10.Unit.wecc_repc.firstOrder2.y,sheetI10.Unit.wecc_repc.firstOrder3.y,sheetI10.Unit.wecc_repc.limPIDFreeze.I.y,sheetI10.Unit.wecc_repc.leadLag.x_scaled[1],sheetI10.Unit.pll.integrator.y,sheetI10.Unit.pll.limIntegrator.y,sheetI10.Unit.wecc_reec.firstOrder.y,sheetI10.Unit.wecc_reec.firstOrder1.y,sheetI10.Unit.wecc_reec.limPIDFreeze.I.y,sheetI10.Unit.wecc_reec.varLimPIDFreeze.I.y,sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze1.y,sheetI10.Unit.wecc_reec.slewRateLimiter.y,sheetI10.Unit.wecc_reec.rateLimFirstOrderFreeze.y,sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator.y,sheetI7QMin.Unit.wecc_wtgp.limitedIntegrator1.y,sheetI7QMin.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.y,sheetI7QMin.Unit.wecc_wtgq.firstOrder.y,sheetI7QMin.Unit.wecc_wtgq.firstOrder1.y,sheetI7QMin.Unit.wecc_wtgq.limitedIntegratorFreeze.y,sheetI7QMin.Unit.wecc_wtgt.dPhi.y,sheetI7QMin.Unit.wecc_wtgt.dOmegaTurbine.y,sheetI7QMin.Unit.wecc_wtgt.dOmegaGenerator.y,sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze2.y,sheetI7QMin.Unit.wecc_regc.rateLimFirstOrderFreeze1.y,sheetI7QMin.Unit.wecc_regc.firstOrder.y,sheetI7QMin.Unit.wecc_repc.firstOrder.y,sheetI7QMin.Unit.wecc_repc.limPID.I.y,sheetI7QMin.Unit.wecc_repc.firstOrder1.y,sheetI7QMin.Unit.wecc_repc.firstOrder2.y,sheetI7QMin.Unit.wecc_repc.firstOrder3.y,sheetI7QMin.Unit.wecc_repc.limPIDFreeze.I.y,sheetI7QMin.Unit.wecc_repc.leadLag.x_scaled[1],sheetI7QMin.Unit.pll.integrator.y,sheetI7QMin.Unit.pll.limIntegrator.y,sheetI7QMin.Unit.wecc_reec.firstOrder.y,sheetI7QMin.Unit.wecc_reec.firstOrder1.y,sheetI7QMin.Unit.wecc_reec.limPIDFreeze.I.y,sheetI7QMin.Unit.wecc_reec.varLimPIDFreeze.I.y,sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze1.y,sheetI7QMin.Unit.wecc_reec.slewRateLimiter.y,sheetI7QMin.Unit.wecc_reec.rateLimFirstOrderFreeze.y,sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator.y,sheetI7QMax.Unit.wecc_wtgp.limitedIntegrator1.y,sheetI7QMax.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.y,sheetI7QMax.Unit.wecc_wtgq.firstOrder.y,sheetI7QMax.Unit.wecc_wtgq.firstOrder1.y,sheetI7QMax.Unit.wecc_wtgq.limitedIntegratorFreeze.y,sheetI7QMax.Unit.wecc_wtgt.dPhi.y,sheetI7QMax.Unit.wecc_wtgt.dOmegaTurbine.y,sheetI7QMax.Unit.wecc_wtgt.dOmegaGenerator.y,sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze2.y,sheetI7QMax.Unit.wecc_regc.rateLimFirstOrderFreeze1.y,sheetI7QMax.Unit.wecc_regc.firstOrder.y,sheetI7QMax.Unit.wecc_repc.firstOrder.y,sheetI7QMax.Unit.wecc_repc.limPID.I.y,sheetI7QMax.Unit.wecc_repc.firstOrder1.y,sheetI7QMax.Unit.wecc_repc.firstOrder2.y,sheetI7QMax.Unit.wecc_repc.firstOrder3.y,sheetI7QMax.Unit.wecc_repc.limPIDFreeze.I.y,sheetI7QMax.Unit.wecc_repc.leadLag.x_scaled[1],sheetI7QMax.Unit.pll.integrator.y,sheetI7QMax.Unit.pll.limIntegrator.y,sheetI7QMax.Unit.wecc_reec.firstOrder.y,sheetI7QMax.Unit.wecc_reec.firstOrder1.y,sheetI7QMax.Unit.wecc_reec.limPIDFreeze.I.y,sheetI7QMax.Unit.wecc_reec.varLimPIDFreeze.I.y,sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze1.y,sheetI7QMax.Unit.wecc_reec.slewRateLimiter.y,sheetI7QMax.Unit.wecc_reec.rateLimFirstOrderFreeze.y,sheetI6.Unit.wecc_wtgp.limitedIntegrator.y,sheetI6.Unit.wecc_wtgp.limitedIntegrator1.y,sheetI6.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.y,sheetI6.Unit.wecc_wtgq.firstOrder.y,sheetI6.Unit.wecc_wtgq.firstOrder1.y,sheetI6.Unit.wecc_wtgq.limitedIntegratorFreeze.y,sheetI6.Unit.wecc_wtgt.dPhi.y,sheetI6.Unit.wecc_wtgt.dOmegaTurbine.y,sheetI6.Unit.wecc_wtgt.dOmegaGenerator.y,sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze2.y,sheetI6.Unit.wecc_regc.rateLimFirstOrderFreeze1.y,sheetI6.Unit.wecc_regc.firstOrder.y,sheetI6.Unit.wecc_repc.firstOrder.y,sheetI6.Unit.wecc_repc.limPID.I.y,sheetI6.Unit.wecc_repc.firstOrder1.y,sheetI6.Unit.wecc_repc.firstOrder2.y,sheetI6.Unit.wecc_repc.firstOrder3.y,sheetI6.Unit.wecc_repc.limPIDFreeze.I.y,sheetI6.Unit.wecc_repc.leadLag.x_scaled[1],sheetI6.Unit.pll.integrator.y,sheetI6.Unit.pll.limIntegrator.y,sheetI6.Unit.wecc_reec.firstOrder.y,sheetI6.Unit.wecc_reec.firstOrder1.y,sheetI6.Unit.wecc_reec.limPIDFreeze.I.y,sheetI6.Unit.wecc_reec.varLimPIDFreeze.I.y,sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze1.y,sheetI6.Unit.wecc_reec.slewRateLimiter.y,sheetI6.Unit.wecc_reec.rateLimFirstOrderFreeze.y,sheetI5.Unit.wecc_wtgp.limitedIntegrator.y,sheetI5.Unit.wecc_wtgp.limitedIntegrator1.y,sheetI5.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.y,sheetI5.Unit.wecc_wtgq.firstOrder.y,sheetI5.Unit.wecc_wtgq.firstOrder1.y,sheetI5.Unit.wecc_wtgq.limitedIntegratorFreeze.y,sheetI5.Unit.wecc_wtgt.dPhi.y,sheetI5.Unit.wecc_wtgt.dOmegaTurbine.y,sheetI5.Unit.wecc_wtgt.dOmegaGenerator.y,sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze2.y,sheetI5.Unit.wecc_regc.rateLimFirstOrderFreeze1.y,sheetI5.Unit.wecc_regc.firstOrder.y,sheetI5.Unit.wecc_repc.firstOrder.y,sheetI5.Unit.wecc_repc.limPID.I.y,sheetI5.Unit.wecc_repc.firstOrder1.y,sheetI5.Unit.wecc_repc.firstOrder2.y,sheetI5.Unit.wecc_repc.firstOrder3.y,sheetI5.Unit.wecc_repc.limPIDFreeze.I.y,sheetI5.Unit.wecc_repc.leadLag.x_scaled[1],sheetI5.Unit.pll.integrator.y,sheetI5.Unit.pll.limIntegrator.y,sheetI5.Unit.wecc_reec.firstOrder.y,sheetI5.Unit.wecc_reec.firstOrder1.y,sheetI5.Unit.wecc_reec.limPIDFreeze.I.y,sheetI5.Unit.wecc_reec.varLimPIDFreeze.I.y,sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze1.y,sheetI5.Unit.wecc_reec.slewRateLimiter.y,sheetI5.Unit.wecc_reec.rateLimFirstOrderFreeze.y,sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator.y,sheetI2Xccb.Unit.wecc_wtgp.limitedIntegrator1.y,sheetI2Xccb.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.y,sheetI2Xccb.Unit.wecc_wtgq.firstOrder.y,sheetI2Xccb.Unit.wecc_wtgq.firstOrder1.y,sheetI2Xccb.Unit.wecc_wtgq.limitedIntegratorFreeze.y,sheetI2Xccb.Unit.wecc_wtgt.dPhi.y,sheetI2Xccb.Unit.wecc_wtgt.dOmegaTurbine.y,sheetI2Xccb.Unit.wecc_wtgt.dOmegaGenerator.y,sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze2.y,sheetI2Xccb.Unit.wecc_regc.rateLimFirstOrderFreeze1.y,sheetI2Xccb.Unit.wecc_regc.firstOrder.y,sheetI2Xccb.Unit.wecc_repc.firstOrder.y,sheetI2Xccb.Unit.wecc_repc.limPID.I.y,sheetI2Xccb.Unit.wecc_repc.firstOrder1.y,sheetI2Xccb.Unit.wecc_repc.firstOrder2.y,sheetI2Xccb.Unit.wecc_repc.firstOrder3.y,sheetI2Xccb.Unit.wecc_repc.limPIDFreeze.I.y,sheetI2Xccb.Unit.wecc_repc.leadLag.x_scaled[1],sheetI2Xccb.Unit.pll.integrator.y,sheetI2Xccb.Unit.pll.limIntegrator.y,sheetI2Xccb.Unit.wecc_reec.firstOrder.y,sheetI2Xccb.Unit.wecc_reec.firstOrder1.y,sheetI2Xccb.Unit.wecc_reec.limPIDFreeze.I.y,sheetI2Xccb.Unit.wecc_reec.varLimPIDFreeze.I.y,sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze1.y,sheetI2Xccb.Unit.wecc_reec.slewRateLimiter.y,sheetI2Xccb.Unit.wecc_reec.rateLimFirstOrderFreeze.y,sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator.y,sheetI2Xcca.Unit.wecc_wtgp.limitedIntegrator1.y,sheetI2Xcca.Unit.wecc_wtgp.absLimRateLimFirstOrderFreeze.integrator.y,sheetI2Xcca.Unit.wecc_wtgq.firstOrder.y,sheetI2Xcca.Unit.wecc_wtgq.firstOrder1.y,sheetI2Xcca.Unit.wecc_wtgq.limitedIntegratorFreeze.y,sheetI2Xcca.Unit.wecc_wtgt.dPhi.y,sheetI2Xcca.Unit.wecc_wtgt.dOmegaTurbine.y,sheetI2Xcca.Unit.wecc_wtgt.dOmegaGenerator.y,sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze2.y,sheetI2Xcca.Unit.wecc_regc.rateLimFirstOrderFreeze1.y,sheetI2Xcca.Unit.wecc_regc.firstOrder.y,sheetI2Xcca.Unit.wecc_repc.firstOrder.y,sheetI2Xcca.Unit.wecc_repc.limPID.I.y,sheetI2Xcca.Unit.wecc_repc.firstOrder1.y,sheetI2Xcca.Unit.wecc_repc.firstOrder2.y,sheetI2Xcca.Unit.wecc_repc.firstOrder3.y,sheetI2Xcca.Unit.wecc_repc.limPIDFreeze.I.y,sheetI2Xcca.Unit.wecc_repc.leadLag.x_scaled[1],sheetI2Xcca.Unit.pll.integrator.y,sheetI2Xcca.Unit.pll.limIntegrator.y,sheetI2Xcca.Unit.wecc_reec.firstOrder.y,sheetI2Xcca.Unit.wecc_reec.firstOrder1.y,sheetI2Xcca.Unit.wecc_reec.limPIDFreeze.I.y,sheetI2Xcca.Unit.wecc_reec.varLimPIDFreeze.I.y,sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze1.y,sheetI2Xcca.Unit.wecc_reec.slewRateLimiter.y,sheetI2Xcca.Unit.wecc_reec.rateLimFirstOrderFreeze.y)
 * Number of discrete variables: 286 ($whenCondition3,$whenCondition1,$whenCondition2,sheetI10.inertialGrid1.injectorURI.running.value,sheetI10.inertialGrid1.injectorURI.state,$whenCondition22,$whenCondition23,$whenCondition20,$whenCondition21,$whenCondition18,$whenCondition19,$whenCondition17,$whenCondition15,$whenCondition16,$whenCondition14,$whenCondition12,$whenCondition13,$whenCondition10,$whenCondition11,$whenCondition9,$whenCondition7,$whenCondition8,$whenCondition6,$whenCondition4,$whenCondition5,sheetI10.loadAlphaBeta.running.value,sheetI10.loadAlphaBeta.state,sheetI10.line.running.value,sheetI10.line.state,sheetI10.Unit.wecc_regc.offDelay.u,sheetI10.Unit.wecc_regc.offDelay.delaySignal,sheetI10.Unit.wecc_regc.offDelay.tNext,sheetI10.Unit.wecc_regc.and1.u[2],sheetI10.Unit.wecc_regc.and1.y,sheetI10.Unit.wecc_regc.and2.y,sheetI10.Unit.wecc_repc.freeze,sheetI10.Unit.injector.running.value,sheetI10.Unit.injector.state,sheetI10.Unit.line.running.value,sheetI10.Unit.line.state,sheetI10.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI10.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,$whenCondition38,$whenCondition39,$whenCondition36,$whenCondition37,$whenCondition34,$whenCondition35,$whenCondition33,$whenCondition31,$whenCondition32,$whenCondition30,$whenCondition28,$whenCondition29,$whenCondition26,$whenCondition27,$whenCondition25,$whenCondition24,sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEvent,sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI7QMin.Unit.wecc_regc.offDelay.u,sheetI7QMin.Unit.wecc_regc.offDelay.delaySignal,sheetI7QMin.Unit.wecc_regc.offDelay.tNext,sheetI7QMin.Unit.wecc_regc.and1.u[2],sheetI7QMin.Unit.wecc_regc.and1.y,sheetI7QMin.Unit.wecc_regc.and2.y,sheetI7QMin.Unit.wecc_repc.freeze,sheetI7QMin.Unit.injector.running.value,sheetI7QMin.Unit.injector.state,sheetI7QMin.Unit.line.running.value,sheetI7QMin.Unit.line.state,sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,$whenCondition40,sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,$whenCondition55,$whenCondition56,$whenCondition53,$whenCondition54,$whenCondition51,$whenCondition52,$whenCondition50,$whenCondition48,$whenCondition49,$whenCondition47,$whenCondition45,$whenCondition46,$whenCondition43,$whenCondition44,$whenCondition42,$whenCondition41,sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEvent,sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI7QMax.Unit.wecc_regc.offDelay.u,sheetI7QMax.Unit.wecc_regc.offDelay.delaySignal,sheetI7QMax.Unit.wecc_regc.offDelay.tNext,sheetI7QMax.Unit.wecc_regc.and1.u[2],sheetI7QMax.Unit.wecc_regc.and1.y,sheetI7QMax.Unit.wecc_regc.and2.y,sheetI7QMax.Unit.wecc_repc.freeze,sheetI7QMax.Unit.injector.running.value,sheetI7QMax.Unit.injector.state,sheetI7QMax.Unit.line.running.value,sheetI7QMax.Unit.line.state,sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,$whenCondition57,sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,$whenCondition72,$whenCondition73,$whenCondition70,$whenCondition71,$whenCondition68,$whenCondition69,$whenCondition67,$whenCondition65,$whenCondition66,$whenCondition64,$whenCondition62,$whenCondition63,$whenCondition60,$whenCondition61,$whenCondition59,$whenCondition58,sheetI6.infiniteBusFromTable.tableUPu.nextTimeEvent,sheetI6.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI6.Unit.wecc_regc.offDelay.u,sheetI6.Unit.wecc_regc.offDelay.delaySignal,sheetI6.Unit.wecc_regc.offDelay.tNext,sheetI6.Unit.wecc_regc.and1.u[2],sheetI6.Unit.wecc_regc.and1.y,sheetI6.Unit.wecc_regc.and2.y,sheetI6.Unit.wecc_repc.freeze,sheetI6.Unit.injector.running.value,sheetI6.Unit.injector.state,sheetI6.Unit.line.running.value,sheetI6.Unit.line.state,sheetI6.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI6.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,$whenCondition74,sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,$whenCondition100,$whenCondition101,$whenCondition98,$whenCondition99,$whenCondition96,$whenCondition97,$whenCondition95,$whenCondition93,$whenCondition94,$whenCondition92,$whenCondition90,$whenCondition91,$whenCondition88,$whenCondition89,$whenCondition86,$whenCondition87,$whenCondition84,$whenCondition85,$whenCondition82,$whenCondition83,$whenCondition80,$whenCondition81,$whenCondition78,$whenCondition79,$whenCondition77,$whenCondition75,$whenCondition76,sheetI5.line.running.value,sheetI5.line.state,sheetI5.line21.switchOffSignal1.value,sheetI5.line21.switchOffSignal2.value,sheetI5.line21.running.value,sheetI5.line21.state,sheetI5.line22.switchOffSignal1.value,sheetI5.line22.switchOffSignal2.value,sheetI5.line22.running.value,sheetI5.line22.state,sheetI5.nodeFault.nodeFault.value,sheetI5.Unit.wecc_regc.offDelay.u,sheetI5.Unit.wecc_regc.offDelay.delaySignal,sheetI5.Unit.wecc_regc.offDelay.tNext,sheetI5.Unit.wecc_regc.and1.u[2],sheetI5.Unit.wecc_regc.and1.y,sheetI5.Unit.wecc_regc.and2.y,sheetI5.Unit.wecc_repc.freeze,sheetI5.Unit.injector.running.value,sheetI5.Unit.injector.state,sheetI5.Unit.line.running.value,sheetI5.Unit.line.state,sheetI5.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI5.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,$whenCondition117,$whenCondition118,$whenCondition115,$whenCondition116,$whenCondition113,$whenCondition114,$whenCondition112,$whenCondition110,$whenCondition111,$whenCondition109,$whenCondition107,$whenCondition108,$whenCondition105,$whenCondition106,$whenCondition104,$whenCondition102,$whenCondition103,sheetI2Xccb.Xcc_a.running.value,sheetI2Xccb.Xcc_a.state,sheetI2Xccb.Unit.wecc_regc.offDelay.u,sheetI2Xccb.Unit.wecc_regc.offDelay.delaySignal,sheetI2Xccb.Unit.wecc_regc.offDelay.tNext,sheetI2Xccb.Unit.wecc_regc.and1.u[2],sheetI2Xccb.Unit.wecc_regc.and1.y,sheetI2Xccb.Unit.wecc_regc.and2.y,sheetI2Xccb.Unit.wecc_repc.freeze,sheetI2Xccb.Unit.injector.running.value,sheetI2Xccb.Unit.injector.state,sheetI2Xccb.Unit.line.running.value,sheetI2Xccb.Unit.line.state,sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,$whenCondition134,$whenCondition135,$whenCondition132,$whenCondition133,$whenCondition130,$whenCondition131,$whenCondition129,$whenCondition127,$whenCondition128,$whenCondition126,$whenCondition124,$whenCondition125,$whenCondition122,$whenCondition123,$whenCondition121,$whenCondition119,$whenCondition120,sheetI2Xcca.Xcc_a.running.value,sheetI2Xcca.Xcc_a.state,sheetI2Xcca.Unit.wecc_regc.offDelay.u,sheetI2Xcca.Unit.wecc_regc.offDelay.delaySignal,sheetI2Xcca.Unit.wecc_regc.offDelay.tNext,sheetI2Xcca.Unit.wecc_regc.and1.u[2],sheetI2Xcca.Unit.wecc_regc.and1.y,sheetI2Xcca.Unit.wecc_regc.and2.y,sheetI2Xcca.Unit.wecc_repc.freeze,sheetI2Xcca.Unit.injector.running.value,sheetI2Xcca.Unit.injector.state,sheetI2Xcca.Unit.line.running.value,sheetI2Xcca.Unit.line.state,sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.ipMaxFrzPu,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime)
 * Number of discrete states: 82 (sheetI2Xcca.Unit.line.running.value,sheetI2Xcca.Unit.injector.running.value,sheetI2Xcca.Xcc_a.running.value,sheetI2Xcca.Unit.wecc_regc.offDelay.u,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI2Xcca.Unit.wecc_reec.currentLimitsCalculation1.ipMaxPu,sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI2Xcca.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI2Xccb.Unit.line.running.value,sheetI2Xccb.Unit.injector.running.value,sheetI2Xccb.Xcc_a.running.value,sheetI2Xccb.Unit.wecc_regc.offDelay.u,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI2Xccb.Unit.wecc_reec.currentLimitsCalculation1.ipMaxPu,sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI2Xccb.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI5.Unit.line.running.value,sheetI5.Unit.injector.running.value,sheetI5.line.running.value,sheetI5.line21.running.value,sheetI5.line22.running.value,sheetI5.Unit.wecc_regc.offDelay.u,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI5.Unit.wecc_reec.currentLimitsCalculation1.ipMaxPu,sheetI5.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI5.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,sheetI6.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,sheetI6.Unit.line.running.value,sheetI6.Unit.injector.running.value,sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI6.infiniteBusFromTable.tableUPu.nextTimeEvent,sheetI6.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI6.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI6.Unit.wecc_regc.offDelay.u,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI6.Unit.wecc_reec.currentLimitsCalculation1.ipMaxPu,sheetI6.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI6.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,sheetI7QMax.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,sheetI7QMax.Unit.line.running.value,sheetI7QMax.Unit.injector.running.value,sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEvent,sheetI7QMax.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI7QMax.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI7QMax.Unit.wecc_regc.offDelay.u,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI7QMax.Unit.wecc_reec.currentLimitsCalculation1.ipMaxPu,sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI7QMax.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEventScaled,sheetI7QMin.infiniteBusFromTable.tableOmegaRefPu.nextTimeEvent,sheetI7QMin.Unit.line.running.value,sheetI7QMin.Unit.injector.running.value,sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEvent,sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEvent,sheetI7QMin.infiniteBusFromTable.tableUPhase.nextTimeEventScaled,sheetI7QMin.infiniteBusFromTable.tableUPu.nextTimeEventScaled,sheetI7QMin.Unit.wecc_regc.offDelay.u,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI7QMin.Unit.wecc_reec.currentLimitsCalculation1.ipMaxPu,sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI7QMin.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI10.Unit.line.running.value,sheetI10.Unit.injector.running.value,sheetI10.line.running.value,sheetI10.loadAlphaBeta.running.value,sheetI10.Unit.wecc_regc.offDelay.u,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDip,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.vDipFrzEndTime,sheetI10.Unit.wecc_reec.currentLimitsCalculation1.ipMaxPu,sheetI10.Unit.wecc_reec.iqInjectionLogic.vDip,sheetI10.Unit.wecc_reec.iqInjectionLogic.vDipInjEndTime,sheetI10.inertialGrid1.injectorURI.running.value)
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for simulation (1854):
 * Single equations (assignments): 1749
 * Array equations: 0
 * Algorithm blocks: 0
 * Record equations: 0
 * When equations: 98
 * If-equations: 0
 * Equation systems (not torn): 5
 * Torn equation systems: 2
 * Mixed (continuous/discrete) equation systems: 0
Notification: Equation system details (not torn):
 * Constant Jacobian (size): 0 systems
 * Linear Jacobian (size,density): 5 systems
   {(4,75.0%), (4,75.0%), (4,75.0%), (8,56.2%), (8,56.2%)}
 * 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): 1 system
   {(18,4,29.0%)}
 * Non-linear torn systems (#iteration vars, #inner vars): 1 system
   {(10,4)}
Notification: Performance of Backend phase and start with SimCode phase: time 0.005797/3.47, allocations: 1.827 MB / 1.847 GB, free: 143.4 MB / 0.8698 GB
Notification: Performance of simCode: created initialization part: time 0.07285/3.543, allocations: 49.33 MB / 1.895 GB, free: 93.82 MB / 0.8698 GB
Notification: Performance of simCode: created event and clocks part: time 4.754e-05/3.543, allocations: 14.31 kB / 1.895 GB, free: 93.8 MB / 0.8698 GB
Notification: Performance of simCode: created simulation system equations: time 0.04908/3.592, allocations: 39.14 MB / 1.934 GB, free: 54.65 MB / 0.8698 GB
Notification: Performance of simCode: created of all other equations (e.g. parameter, nominal, assert, etc): time 0.03276/3.625, allocations: 4.617 MB / 1.938 GB, free: 50.18 MB / 0.8698 GB
Notification: Performance of simCode: created linear, non-linear and system jacobian parts: time 0.5812/4.206, allocations: 63.45 MB / 2 GB, free: 260.4 MB / 0.8699 GB
Notification: Performance of simCode: some other stuff during SimCode phase: time 0.02527/4.231, allocations: 12.26 MB / 2.012 GB, free: 259 MB / 0.8699 GB
Notification: Performance of simCode: alias equations: time 0.02324/4.255, allocations: 3.83 MB / 2.016 GB, free: 258.6 MB / 0.8699 GB
Notification: Performance of simCode: all other stuff during SimCode phase: time 0.009846/4.264, allocations: 1.703 MB / 2.018 GB, free: 258.5 MB / 0.8699 GB
Notification: Performance of SimCode: time 1.193e-06/4.264, allocations: 0 / 2.018 GB, free: 258.5 MB / 0.8699 GB
Notification: Performance of Templates: time 0.6186/4.883, allocations: 368.4 MB / 2.377 GB, free: 246.1 MB / 0.8699 GB
"
[Timeout remaining time 655]
make -j1 -f Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations.makefile [Timeout 660]
(rm -f Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations.pipe ; mkfifo Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations.pipe ; head -c 1048576 < Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations.pipe >> ../files/Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations.sim & ./Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations  -abortSlowSimulation -alarm=480 -s cvode -lv LOG_STATS > Dynawo_dev_Dynawo.Examples.GridCodeSimulations.RunSimulations.pipe 2>&1) [Timeout 480]
[Calling sys.exit(0), Time elapsed: 16.19790806202218]
Failed to read output from testmodel.py, exit status != 0:
4.89031474897638 4.901795347 3.995548589
Calling exit ...
<OMPython.OMCSessionZMQ object at 0x71b2c91b03e0>