Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr TransiEnt_TransiEnt.Grid.Electrical.EconomicDispatch.Check.TestMeritOrderDispatcher.conf.json
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 9.1.3-maint.9.1.x/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 9.1.3-maint.9.1.x/package.mo): time 2.134/2.134, allocations: 396 MB / 419.7 MB, free: 9.73 MB / 334.1 MB
"
[Timeout remaining time 178]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/DymolaCommands master/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/DymolaCommands master/package.mo): time 0.0007039/0.0007039, allocations: 30.12 kB / 0.5073 GB, free: 6.328 MB / 398.1 MB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/package.mo", uses=false) [Timeout 180]
"[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Control/PredictorModels_3508/Check/package.mo:2:1-21:10:writable] Warning: The package.order file contains a class TestReheater, which is expected to be stored in file TestReheater.mo, but seems to be named testReheater.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Control/PredictorModels_3508/Check/testReheater.mo:2:1-117:17:writable] Warning: Expected the package to have name testReheater, but got TestReheater. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/package.mo:2:1-23:10:writable] Warning: PhysicalMills was referenced in the package.order file, but was not found in package.mo, PhysicalMills/package.mo or PhysicalMills.mo.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/package.mo:2:1-22:18:writable] Warning: Expected the package to have name physicalMills, but got PhysicalMills. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/package.mo:2:1-22:18:writable] Warning: The package.order file contains a class Mill_L4_advancedInit, which is expected to be stored in file Mill_L4_advancedInit.mo, but seems to be named mill_L4_advancedInit.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/package.mo:2:1-22:18:writable] Warning: The package.order file contains a class Mill_L4, which is expected to be stored in file Mill_L4.mo, but seems to be named mill_L4.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/mill_L4_advancedInit.mo:2:1-58:25:writable] Warning: Expected the package to have name mill_L4_advancedInit, but got Mill_L4_advancedInit. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/mill_L4_advancedInit.mo:2:1-58:25:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills; but got within ClaRa.Components.Mills.PhysicalMills; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/mill_L4.mo:2:1-315:12:writable] Warning: Expected the package to have name mill_L4, but got Mill_L4. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/mill_L4.mo:2:1-315:12:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills; but got within ClaRa.Components.Mills.PhysicalMills; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/package.mo:2:1-21:10:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills; but got within ClaRa.Components.Mills.PhysicalMills; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/package.mo:2:1-21:10:writable] Warning: The package.order file contains a class TestMillBox_2, which is expected to be stored in file TestMillBox_2.mo, but seems to be named testMillBox_2.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/package.mo:2:1-21:10:writable] Warning: The package.order file contains a class TestMillBox_1_measurementInput, which is expected to be stored in file TestMillBox_1_measurementInput.mo, but seems to be named testMillBox_1_measurementInput.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/package.mo:2:1-21:10:writable] Warning: The package.order file contains a class TestMillBox_1, which is expected to be stored in file TestMillBox_1.mo, but seems to be named testMillBox_1.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/testMillBox_2.mo:2:1-297:18:writable] Warning: Expected the package to have name testMillBox_2, but got TestMillBox_2. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/testMillBox_2.mo:2:1-297:18:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Check; but got within ClaRa.Components.Mills.PhysicalMills.Check; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/testMillBox_1_measurementInput.mo:2:1-1342:35:writable] Warning: Expected the package to have name testMillBox_1_measurementInput, but got TestMillBox_1_measurementInput. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/testMillBox_1_measurementInput.mo:2:1-1342:35:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Check; but got within ClaRa.Components.Mills.PhysicalMills.Check; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/testMillBox_1.mo:2:1-465:18:writable] Warning: Expected the package to have name testMillBox_1, but got TestMillBox_1. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Check/testMillBox_1.mo:2:1-465:18:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Check; but got within ClaRa.Components.Mills.PhysicalMills.Check; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/package.mo:2:1-29:12:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills; but got within ClaRa.Components.Mills.PhysicalMills; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/FlowClassifier.mo:2:1-346:19:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes; but got within ClaRa.Components.Mills.PhysicalMills.Volumes; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/CentrifugalClassifier.mo:2:1-380:26:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes; but got within ClaRa.Components.Mills.PhysicalMills.Volumes; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/GrinderRingRoller.mo:2:1-294:22:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes; but got within ClaRa.Components.Mills.PhysicalMills.Volumes; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/FuelJoin_distributed.mo:2:1-133:25:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes; but got within ClaRa.Components.Mills.PhysicalMills.Volumes; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Dryer.mo:2:1-301:10:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes; but got within ClaRa.Components.Mills.PhysicalMills.Volumes; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/package.mo:2:1-20:17:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes; but got within ClaRa.Components.Mills.PhysicalMills.Volumes; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/package.mo:2:1-20:13:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Transport_Velocity/package.mo:2:1-20:23:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Transport_Velocity/Transport_complex.mo:2:1-71:22:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Transport_Velocity; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Transport_Velocity; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Transport_Velocity/Transport_constant.mo:2:1-49:23:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Transport_Velocity; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Transport_Velocity; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Transport_Velocity/Transport_base.mo:2:1-52:19:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Transport_Velocity; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Transport_Velocity; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Selection_Function/package.mo:2:1-20:23:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Selection_Function/Selection_Kersting.mo:2:1-80:23:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Selection_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Selection_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Selection_Function/Selection_Steinmetz.mo:2:1-104:24:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Selection_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Selection_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Selection_Function/Selection_constant.mo:2:1-45:23:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Selection_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Selection_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Selection_Function/Selection_base.mo:2:1-50:19:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Selection_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Selection_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Breakage_Function/package.mo:2:1-20:22:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Breakage_Function/Breakage_Austin.mo:2:1-109:20:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Breakage_Function/Breakage_Steinmetz.mo:2:1-106:23:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Breakage_Function/Breakage_constant.mo:2:1-45:22:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Grinding/Breakage_Function/Breakage_base.mo:2:1-51:18:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Grinding.Breakage_Function; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Drying/package.mo:2:1-20:11:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Drying/Drying_ideal.mo:2:1-58:17:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Drying; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Drying; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Drying/Drying_base.mo:2:1-44:16:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Drying; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Drying; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Classifying/package.mo:2:1-20:16:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Classifying/Classifying_flow.mo:2:1-111:21:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Classifying; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Classifying; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Classifying/Classifying_centrifugal.mo:2:1-153:28:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Classifying; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Classifying; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Classifying/Classifying_centrifugal_base.mo:2:1-45:33:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Classifying; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Classifying; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Classifying/Classifying_flow_base.mo:2:1-45:26:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Classifying; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Classifying; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/package.mo:2:1-20:12:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/iCom_Dryer.mo:2:1-57:15:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/iCom_FlowClassifier.mo:2:1-67:24:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/iCom_CentrifugalClassifier.mo:2:1-69:31:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/iCom_Grinder.mo:2:1-61:17:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/FuelClassification_example_21classes.mo:2:1-43:41:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/GeometricProgression.mo:2:1-56:25:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/FuelClassification_generic.mo:2:1-43:31:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/FuelClassification_example_05classes.mo:2:1-43:41:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/FuelClassification_example_11classes.mo:2:1-43:41:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Fundamentals/Records/FuelClassification_base.mo:2:1-61:28:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Fundamentals.Records; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Fundamentals.Records; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/package.mo:2:1-23:10:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes; but got within ClaRa.Components.Mills.PhysicalMills.Volumes; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/package.mo:2:1-23:10:writable] Warning: The package.order file contains a class TestFuelJoin, which is expected to be stored in file TestFuelJoin.mo, but seems to be named testFuelJoin.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/package.mo:2:1-23:10:writable] Warning: The package.order file contains a class TestAerosolVolume, which is expected to be stored in file TestAerosolVolume.mo, but seems to be named testAerosolVolume.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/package.mo:2:1-23:10:writable] Warning: The package.order file contains a class TestDryer, which is expected to be stored in file TestDryer.mo, but seems to be named testDryer.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/package.mo:2:1-23:10:writable] Warning: The package.order file contains a class TestGrinder, which is expected to be stored in file TestGrinder.mo, but seems to be named testGrinder.mo. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testFuelJoin.mo:2:1-93:17:writable] Warning: Expected the package to have name testFuelJoin, but got TestFuelJoin. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testFuelJoin.mo:2:1-93:17:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Check; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Check; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testAerosolVolume.mo:2:1-176:22:writable] Warning: Expected the package to have name testAerosolVolume, but got TestAerosolVolume. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testAerosolVolume.mo:2:1-176:22:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Check; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Check; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testDryer.mo:2:1-93:14:writable] Warning: Expected the package to have name testDryer, but got TestDryer. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testDryer.mo:2:1-93:14:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Check; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Check; (ignoring the potential error; the class might have been inserted at an unexpected location).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testGrinder.mo:2:1-154:16:writable] Warning: Expected the package to have name testGrinder, but got TestGrinder. Proceeding since only the case of the names are different.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/Components/Mills/physicalMills/Volumes/Check/testGrinder.mo:2:1-154:16:writable] Warning: Expected the package to have within ClaRa.Components.Mills.physicalMills.Volumes.Check; but got within ClaRa.Components.Mills.PhysicalMills.Volumes.Check; (ignoring the potential error; the class might have been inserted at an unexpected location).
Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/package.mo): time 0.8849/0.8849, allocations: 128.9 MB / 0.7305 GB, free: 7.719 MB / 0.4981 GB
"
[Timeout remaining time 179]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaReference 4.0.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaReference 4.0.0+maint.om/package.mo): time 0.01254/0.01254, allocations: 0.8947 MB / 0.856 GB, free: 7.484 MB / 0.6231 GB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_LinearSystems2 2.4.0/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_LinearSystems2 2.4.0/package.mo): time 0.2564/0.2564, allocations: 45.3 MB / 1.025 GB, free: 75.1 MB / 0.6232 GB
"
[Timeout remaining time 179]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.1.0/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.1.0/package.mo): time 0.08204/0.08204, allocations: 13.76 MB / 1.172 GB, free: 65.04 MB / 0.6232 GB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo): time 0.001299/0.001299, allocations: 103.9 kB / 1.309 GB, free: 10.25 MB / 0.7013 GB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo): time 0.001387/0.001387, allocations: 189.6 kB / 1.446 GB, free: 201.9 MB / 0.7638 GB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo): time 1.482/1.482, allocations: 225.6 MB / 1.803 GB, free: 30.66 MB / 0.7794 GB
"
[Timeout remaining time 178]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Design master/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Design master/package.mo): time 0.0006902/0.0006902, allocations: 43.89 kB / 1.991 GB, free: 6.543 MB / 0.9357 GB
"
[Timeout remaining time 179]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/DataFiles master/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/DataFiles master/package.mo): time 0.0006867/0.0006867, allocations: 37.38 kB / 2.178 GB, free: 216.3 MB / 0.9825 GB
"
[Timeout remaining time 180]
loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/package.mo", uses=false) [Timeout 180]
"Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/package.mo): time 1.572/1.572, allocations: 223.6 MB / 2.585 GB, free: 59.18 MB / 1.014 GB
"
[Timeout remaining time 178]
Using package TransiEnt with version 2.0.2 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/package.mo)
Using package DataFiles with version 0.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/DataFiles master/package.mo)
Using package Design with version 0.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Design master/package.mo)
Using package Modelica with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.0.0+maint.om/package.mo)
Using package Complex with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.0.0+maint.om/package.mo)
Using package ModelicaServices with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.0.0+maint.om/package.mo)
Using package Modelica_StateGraph2 with version 2.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_StateGraph2 2.1.0/package.mo)
Using package Modelica_LinearSystems2 with version 2.4.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica_LinearSystems2 2.4.0/package.mo)
Using package ModelicaReference with version 4.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaReference 4.0.0+maint.om/package.mo)
Using package ClaRa with version 1.8.1 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/package.mo)
Using package DymolaCommands with version 0.0.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/DymolaCommands master/package.mo)
Using package Buildings with version 9.1.3 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 9.1.3-maint.9.1.x/package.mo)
Running command: translateModel(TransiEnt.Grid.Electrical.EconomicDispatch.Check.TestMeritOrderDispatcher,tolerance=1e-06,outputFormat="empty",numberOfIntervals=1440,variableFilter="",fileNamePrefix="TransiEnt_TransiEnt.Grid.Electrical.EconomicDispatch.Check.TestMeritOrderDispatcher")
translateModel(TransiEnt.Grid.Electrical.EconomicDispatch.Check.TestMeritOrderDispatcher,tolerance=1e-06,outputFormat="empty",numberOfIntervals=1440,variableFilter="",fileNamePrefix="TransiEnt_TransiEnt.Grid.Electrical.EconomicDispatch.Check.TestMeritOrderDispatcher") [Timeout 660]
"Notification: Skipped loading package TILMedia (1.8.1 ClaRa) using MODELICAPATH /home/hudson/saved_omc/libraries/.openmodelica/libraries (uses-annotation may be wrong).
Notification: Skipped loading package TILMedia (1.8.0 ClaRa) using MODELICAPATH /home/hudson/saved_omc/libraries/.openmodelica/libraries (uses-annotation may be wrong).
Warning: TransiEnt requested package ClaRa of version 1.8.0. ClaRa 1.8.1 is used instead which states that it is only compatible with a conversion script. Use convertPackageToLibrary(TransiEnt, ClaRa, \"1.8.1\") to run the conversion script or proceed with potential issues as a result.
Notification: TransiEnt requested package Buildings of version 9.0.0. Buildings 9.1.3 is used instead which states that it is fully compatible without conversion script needed.
Notification: Performance of FrontEnd - loaded program: time 0.03359/0.03359, allocations: 20.43 MB / 3.095 GB, free: 61.2 MB / 1.264 GB
Notification: Performance of FrontEnd - Absyn->SCode: time 0.3996/0.4332, allocations: 236.7 MB / 3.326 GB, free: 104 kB / 1.436 GB
Notification: Automatically loaded package TILMedia 1.8.2 ClaRa due to usage.
Notification: Performance of NFInst.instantiate(TransiEnt.Grid.Electrical.EconomicDispatch.Check.TestMeritOrderDispatcher): time 0.125/0.5582, allocations: 40.84 MB / 3.366 GB, free: 7.449 MB / 1.483 GB
Notification: Performance of NFInst.instExpressions: time 0.01066/0.5689, allocations: 7.238 MB / 3.373 GB, free: 196 kB / 1.483 GB
Notification: Performance of NFInst.updateImplicitVariability: time 0.0006201/0.5695, allocations: 35.81 kB / 3.373 GB, free: 160 kB / 1.483 GB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/ClaRa 1.8.1-ClaRa_1.8.1_Release/SimCenter.mo:69:5-70:35:writable] Warning: Connector cycleSumPort is not balanced: The number of potential variables (0) is not equal to the number of flow variables (4).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:85:3-85:105:writable] Warning: Connector powerCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:86:3-86:112:writable] Warning: Connector primBalPowerCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:87:3-87:102:writable] Warning: Connector primBalPowerOfferCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:88:3-88:111:writable] Warning: Connector secBalPowerCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:89:3-89:101:writable] Warning: Connector secBalPowerOfferCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:90:3-90:92:writable] Warning: Connector surroundingGridLoad is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:92:3-92:126:writable] Warning: Connector tielinePowerCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:93:3-93:130:writable] Warning: Connector tielineSetPowerCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:95:3-95:95:writable] Warning: Connector kineticEnergyCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:98:3-98:99:writable] Warning: Connector gwpCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:100:3-100:107:writable] Warning: Connector gwpCollectorHeat is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:103:3-103:82:writable] Warning: Connector heatFlowCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (1).
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:105:3-105:87:writable] Warning: Connector costsCollector is not balanced: The number of potential variables (0) is not equal to the number of flow variables (6).
Notification: Performance of NFTyping.typeComponents: time 0.002454/0.5719, allocations: 1.056 MB / 3.374 GB, free: 15.1 MB / 1.498 GB
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.BrownCoal as Integer: 1. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.BrownCoal) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.BlackCoal as Integer: 2. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.BlackCoal) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.NaturalGas as Integer: 3. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.NaturalGas) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.WindOnshore as Integer: 4. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.WindOnshore) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.WindOffshore as Integer: 5. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.WindOffshore) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Solar as Integer: 6. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Solar) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Hydro as Integer: 7. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Hydro) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Nuclear as Integer: 8. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Nuclear) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Oil as Integer: 9. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrier.Oil) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.NaturalGas as Integer: 3. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.NaturalGas) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.DistrictHeating as Integer: 4. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.DistrictHeating) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Oil as Integer: 5. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Oil) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Electricity as Integer: 6. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Electricity) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Solar as Integer: 7. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Solar) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Biomass as Integer: 8. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Biomass) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Others as Integer: 10. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfPrimaryEnergyCarrierHeat.Others) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Consumer as Integer: 1. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Consumer) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Conventional as Integer: 2. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Conventional) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Cogeneration as Integer: 3. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Cogeneration) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Renewable as Integer: 4. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Renewable) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Consumer as Integer: 1. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Consumer) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Generic as Integer: 6. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Generic) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Consumer as Integer: 1. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Consumer) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Renewable as Integer: 4. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Renewable) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Cogeneration as Integer: 3. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Cogeneration) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Conventional as Integer: 2. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Conventional) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Cogeneration as Integer: 3. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Cogeneration) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Conventional as Integer: 2. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Conventional) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Storage as Integer: 5. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Storage) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Consumer as Integer: 1. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Consumer) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Conventional as Integer: 2. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Conventional) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Cogeneration as Integer: 3. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Cogeneration) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Renewable as Integer: 4. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Renewable) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Generic as Integer: 6. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Generic) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Consumer as Integer: 1. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Consumer) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Conventional as Integer: 2. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Conventional) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Cogeneration as Integer: 3. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Cogeneration) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Renewable as Integer: 4. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Renewable) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Generic as Integer: 6. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Generic) instead!
Warning: Allowing usage of enumeration expression: TransiEnt.Basics.Types.TypeOfResource.Consumer as Integer: 1. This is non-standard Modelica, use Integer(TransiEnt.Basics.Types.TypeOfResource.Consumer) instead!
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/Basics/Functions/fullPathName.mo:2:1-78:17:writable] Warning: Pure function 'TransiEnt.Basics.Functions.fullPathName' contains a call to impure function 'Modelica.Utilities.Streams.print'.
Notification: Performance of NFTyping.typeBindings: time 0.002021/0.574, allocations: 1.224 MB / 3.375 GB, free: 13.9 MB / 1.498 GB
Notification: Performance of NFTyping.typeClassSections: time 0.001341/0.5753, allocations: 0.662 MB / 3.375 GB, free: 13.24 MB / 1.498 GB
Notification: Performance of NFFlatten.flatten: time 0.003071/0.5784, allocations: 3.174 MB / 3.379 GB, free: 10.06 MB / 1.498 GB
Notification: Performance of NFFlatten.resolveConnections: time 0.0006682/0.579, allocations: 470.9 kB / 3.379 GB, free: 9.562 MB / 1.498 GB
Notification: Performance of NFEvalConstants.evaluate: time 0.001719/0.5808, allocations: 1.686 MB / 3.381 GB, free: 7.871 MB / 1.498 GB
Notification: Performance of NFSimplifyModel.simplify: time 0.002102/0.5829, allocations: 1.721 MB / 3.382 GB, free: 6.145 MB / 1.498 GB
Notification: Performance of NFPackage.collectConstants: time 0.0004088/0.5833, allocations: 288 kB / 3.383 GB, free: 5.863 MB / 1.498 GB
Notification: Performance of NFFlatten.collectFunctions: time 0.001294/0.5846, allocations: 0.7648 MB / 3.383 GB, free: 5.098 MB / 1.498 GB
Notification: Performance of NFScalarize.scalarize: time 0.001477/0.586, allocations: 1.633 MB / 3.385 GB, free: 3.461 MB / 1.498 GB
Notification: Performance of NFVerifyModel.verify: time 0.001901/0.5879, allocations: 2.155 MB / 3.387 GB, free: 1.293 MB / 1.498 GB
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/Components/Statistics/Collectors/GlobalCollectors/GwpEmissionsStatistics.mo:79:53-79:84:writable] Error: Variable simCenter.expertMode not found in scope GwpEmissionsStatistics.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/Components/Statistics/Collectors/GlobalCollectors/GwpEmissionsStatistics.mo:83:53-83:84:writable] Error: Variable simCenter.expertMode not found in scope GwpEmissionsStatistics.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/Components/Statistics/Collectors/GlobalCollectors/EconomicStatistics.mo:42:70-42:85:writable] Error: Variable True not found in scope EconomicStatistics.
[/home/hudson/saved_omc/libraries/.openmodelica/libraries/TransiEnt 2.0.2-master/ModelStatistics.mo:105:71-105:86:writable] Error: Variable True not found in scope ModelStatistics.
Notification: Performance of NFConvertDAE.convert: time 0.0119/0.5998, allocations: 5.823 MB / 3.393 GB, free: 11.44 MB / 1.514 GB
Notification: Performance of FrontEnd - DAE generated: time 5.34e-06/0.5998, allocations: 4 kB / 3.393 GB, free: 11.44 MB / 1.514 GB
Notification: Performance of FrontEnd: time 9.32e-07/0.5998, allocations: 0 / 3.393 GB, free: 11.44 MB / 1.514 GB
Notification: Performance of Transformations before backend: time 3.65e-05/0.5999, allocations: 0 / 3.393 GB, free: 11.44 MB / 1.514 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 814
 * Number of variables: 814
Notification: Performance of Generate backend data structure: time 0.01745/0.6173, allocations: 13.43 MB / 3.406 GB, free: 13.9 MB / 1.53 GB
Notification: Performance of prepare preOptimizeDAE: time 4.146e-05/0.6174, allocations: 11.97 kB / 3.406 GB, free: 13.89 MB / 1.53 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.001075/0.6185, allocations: 0.5403 MB / 3.406 GB, free: 13.35 MB / 1.53 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.007453/0.6259, allocations: 4.706 MB / 3.411 GB, free: 8.594 MB / 1.53 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.0001822/0.6261, allocations: 181.5 kB / 3.411 GB, free: 8.41 MB / 1.53 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.0002966/0.6264, allocations: 196 kB / 3.411 GB, free: 8.219 MB / 1.53 GB
Notification: Performance of preOpt clockPartitioning (simulation): time 0.007006/0.6334, allocations: 5.893 MB / 3.417 GB, free: 2.145 MB / 1.53 GB
Notification: Performance of preOpt findStateOrder (simulation): time 3.972e-05/0.6334, allocations: 3.938 kB / 3.417 GB, free: 2.141 MB / 1.53 GB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.0001991/0.6336, allocations: 91.94 kB / 3.417 GB, free: 2.051 MB / 1.53 GB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 8.306e-05/0.6337, allocations: 65.3 kB / 3.417 GB, free: 1.988 MB / 1.53 GB
Notification: Performance of preOpt removeEqualRHS (simulation): time 0.01414/0.6479, allocations: 9.571 MB / 3.427 GB, free: 8.406 MB / 1.545 GB
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.01228/0.6601, allocations: 10.12 MB / 3.437 GB, free: 14.03 MB / 1.561 GB
Notification: Performance of preOpt comSubExp (simulation): time 0.02138/0.6815, allocations: 5.988 MB / 3.442 GB, free: 8.008 MB / 1.561 GB
Notification: Performance of preOpt resolveLoops (simulation): time 0.004129/0.6856, allocations: 3.54 MB / 3.446 GB, free: 4.453 MB / 1.561 GB
Notification: Performance of preOpt evalFunc (simulation): time 8.833e-05/0.6857, allocations: 16.64 kB / 3.446 GB, free: 4.438 MB / 1.561 GB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.005602/0.6913, allocations: 5.034 MB / 3.451 GB, free: 15.34 MB / 1.576 GB
Notification: Performance of pre-optimization done (n=423): time 4.849e-06/0.6913, allocations: 7.984 kB / 3.451 GB, free: 15.33 MB / 1.576 GB
Notification: Performance of matching and sorting (n=423): time 0.02508/0.7164, allocations: 21.55 MB / 3.472 GB, free: 9.676 MB / 1.592 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 0.001389/0.7178, allocations: 1.555 MB / 3.473 GB, free: 8.039 MB / 1.592 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.005806/0.7236, allocations: 4.104 MB / 3.477 GB, free: 3.918 MB / 1.592 GB
Notification: Performance of collectPreVariables (initialization): time 0.0004924/0.7241, allocations: 357.7 kB / 3.478 GB, free: 3.562 MB / 1.592 GB
Notification: Performance of collectInitialEqns (initialization): time 0.001825/0.7259, allocations: 1.918 MB / 3.48 GB, free: 1.629 MB / 1.592 GB
Notification: Performance of collectInitialBindings (initialization): time 0.001517/0.7274, allocations: 1.226 MB / 3.481 GB, free: 404 kB / 1.592 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.001472/0.7289, allocations: 1.266 MB / 3.482 GB, free: 15.12 MB / 1.608 GB
Notification: Performance of setup shared object (initialization): time 0.0001202/0.729, allocations: 309.1 kB / 3.482 GB, free: 14.82 MB / 1.608 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.003134/0.7322, allocations: 1.855 MB / 3.484 GB, free: 12.96 MB / 1.608 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.006421/0.7386, allocations: 5.334 MB / 3.489 GB, free: 5.941 MB / 1.608 GB
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.heatingPower.E[6] = $START.modelStatistics.heatingPower.E[6] (0.0 = $START.modelStatistics.heatingPower.E[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.heatingPower.E[4] = $START.modelStatistics.heatingPower.E[4] (0.0 = $START.modelStatistics.heatingPower.E[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.heatingPower.E[3] = $START.modelStatistics.heatingPower.E[3] (0.0 = $START.modelStatistics.heatingPower.E[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.heatingPower.E[2] = $START.modelStatistics.heatingPower.E[2] (0.0 = $START.modelStatistics.heatingPower.E[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.heatingPower.E[1] = $START.modelStatistics.heatingPower.E[1] (0.0 = $START.modelStatistics.heatingPower.E[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.heatingPower.E[5] = $START.modelStatistics.heatingPower.E[5] (0.0 = $START.modelStatistics.heatingPower.E[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negPBE[6] = $START.modelStatistics.electricPower.negPBE[6] (0.0 = $START.modelStatistics.electricPower.negPBE[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negPBE[5] = $START.modelStatistics.electricPower.negPBE[5] (0.0 = $START.modelStatistics.electricPower.negPBE[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negPBE[4] = $START.modelStatistics.electricPower.negPBE[4] (0.0 = $START.modelStatistics.electricPower.negPBE[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negPBE[3] = $START.modelStatistics.electricPower.negPBE[3] (0.0 = $START.modelStatistics.electricPower.negPBE[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negPBE[2] = $START.modelStatistics.electricPower.negPBE[2] (0.0 = $START.modelStatistics.electricPower.negPBE[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negPBE[1] = $START.modelStatistics.electricPower.negPBE[1] (0.0 = $START.modelStatistics.electricPower.negPBE[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posPBE[6] = $START.modelStatistics.electricPower.posPBE[6] (0.0 = $START.modelStatistics.electricPower.posPBE[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posPBE[5] = $START.modelStatistics.electricPower.posPBE[5] (0.0 = $START.modelStatistics.electricPower.posPBE[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posPBE[4] = $START.modelStatistics.electricPower.posPBE[4] (0.0 = $START.modelStatistics.electricPower.posPBE[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posPBE[3] = $START.modelStatistics.electricPower.posPBE[3] (0.0 = $START.modelStatistics.electricPower.posPBE[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posPBE[2] = $START.modelStatistics.electricPower.posPBE[2] (0.0 = $START.modelStatistics.electricPower.posPBE[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posPBE[1] = $START.modelStatistics.electricPower.posPBE[1] (0.0 = $START.modelStatistics.electricPower.posPBE[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E[4] = $START.modelStatistics.electricPower.E[4] (0.0 = $START.modelStatistics.electricPower.E[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E[3] = $START.modelStatistics.electricPower.E[3] (0.0 = $START.modelStatistics.electricPower.E[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E[2] = $START.modelStatistics.electricPower.E[2] (0.0 = $START.modelStatistics.electricPower.E[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E[1] = $START.modelStatistics.electricPower.E[1] (0.0 = $START.modelStatistics.electricPower.E[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E[6] = $START.modelStatistics.electricPower.E[6] (0.0 = $START.modelStatistics.electricPower.E[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E[5] = $START.modelStatistics.electricPower.E[5] (0.0 = $START.modelStatistics.electricPower.E[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[10] = $START.modelStatistics.gwpEmissions.m_CDE_heat[10] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[10])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[8] = $START.modelStatistics.gwpEmissions.m_CDE_heat[8] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[8])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[7] = $START.modelStatistics.gwpEmissions.m_CDE_heat[7] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[7])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[6] = $START.modelStatistics.gwpEmissions.m_CDE_heat[6] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[5] = $START.modelStatistics.gwpEmissions.m_CDE_heat[5] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[4] = $START.modelStatistics.gwpEmissions.m_CDE_heat[4] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[3] = $START.modelStatistics.gwpEmissions.m_CDE_heat[3] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[9] = $START.modelStatistics.gwpEmissions.m_CDE[9] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[9])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[8] = $START.modelStatistics.gwpEmissions.m_CDE[8] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[8])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[7] = $START.modelStatistics.gwpEmissions.m_CDE[7] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[7])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[6] = $START.modelStatistics.gwpEmissions.m_CDE[6] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[5] = $START.modelStatistics.gwpEmissions.m_CDE[5] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[4] = $START.modelStatistics.gwpEmissions.m_CDE[4] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[3] = $START.modelStatistics.gwpEmissions.m_CDE[3] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[2] = $START.modelStatistics.gwpEmissions.m_CDE[2] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[1] = $START.modelStatistics.gwpEmissions.m_CDE[1] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[9] = $START.modelStatistics.gwpEmissions.m_CDE_heat[9] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[9])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[2] = $START.modelStatistics.gwpEmissions.m_CDE_heat[2] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE_heat[1] = $START.modelStatistics.gwpEmissions.m_CDE_heat[1] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE_heat[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[14] = $START.modelStatistics.gwpEmissions.m_CDE[14] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[14])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[13] = $START.modelStatistics.gwpEmissions.m_CDE[13] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[13])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[12] = $START.modelStatistics.gwpEmissions.m_CDE[12] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[12])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[11] = $START.modelStatistics.gwpEmissions.m_CDE[11] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[11])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.gwpEmissions.m_CDE[10] = $START.modelStatistics.gwpEmissions.m_CDE[10] (0.0 = $START.modelStatistics.gwpEmissions.m_CDE[10])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negSBE[6] = $START.modelStatistics.electricPower.negSBE[6] (0.0 = $START.modelStatistics.electricPower.negSBE[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negSBE[5] = $START.modelStatistics.electricPower.negSBE[5] (0.0 = $START.modelStatistics.electricPower.negSBE[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negSBE[4] = $START.modelStatistics.electricPower.negSBE[4] (0.0 = $START.modelStatistics.electricPower.negSBE[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negSBE[3] = $START.modelStatistics.electricPower.negSBE[3] (0.0 = $START.modelStatistics.electricPower.negSBE[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negSBE[2] = $START.modelStatistics.electricPower.negSBE[2] (0.0 = $START.modelStatistics.electricPower.negSBE[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.negSBE[1] = $START.modelStatistics.electricPower.negSBE[1] (0.0 = $START.modelStatistics.electricPower.negSBE[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posSBE[6] = $START.modelStatistics.electricPower.posSBE[6] (0.0 = $START.modelStatistics.electricPower.posSBE[6])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posSBE[5] = $START.modelStatistics.electricPower.posSBE[5] (0.0 = $START.modelStatistics.electricPower.posSBE[5])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posSBE[4] = $START.modelStatistics.electricPower.posSBE[4] (0.0 = $START.modelStatistics.electricPower.posSBE[4])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posSBE[3] = $START.modelStatistics.electricPower.posSBE[3] (0.0 = $START.modelStatistics.electricPower.posSBE[3])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posSBE[2] = $START.modelStatistics.electricPower.posSBE[2] (0.0 = $START.modelStatistics.electricPower.posSBE[2])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.posSBE[1] = $START.modelStatistics.electricPower.posSBE[1] (0.0 = $START.modelStatistics.electricPower.posSBE[1])
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E_residual_pos = $START.modelStatistics.electricPower.E_residual_pos (0.0 = $START.modelStatistics.electricPower.E_residual_pos)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: modelStatistics.electricPower.E_residual_neg = $START.modelStatistics.electricPower.E_residual_neg (0.0 = $START.modelStatistics.electricPower.E_residual_neg)
Notification: Performance of analyzeInitialSystem (initialization): time 1.334/2.073, allocations: 17.31 MB / 3.506 GB, free: 365.1 MB / 1.608 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 0.0001941/2.073, allocations: 34.62 kB / 3.506 GB, free: 365.1 MB / 1.608 GB
Notification: Performance of matching and sorting (n=963) (initialization): time 0.01403/2.087, allocations: 9.252 MB / 3.515 GB, free: 364.1 MB / 1.608 GB
Notification: Performance of prepare postOptimizeDAE: time 0.000126/2.087, allocations: 91.91 kB / 3.515 GB, free: 364.1 MB / 1.608 GB
Notification: Performance of postOpt simplifyComplexFunction (initialization): time 0.0001574/2.087, allocations: 120.5 kB / 3.515 GB, free: 364.1 MB / 1.608 GB
Notification: Performance of postOpt tearingSystem (initialization): time 0.0002036/2.087, allocations: 169 kB / 3.516 GB, free: 364.1 MB / 1.608 GB
Notification: Performance of postOpt solveSimpleEquations (initialization): time 0.003425/2.091, allocations: 1.259 MB / 3.517 GB, free: 363.9 MB / 1.608 GB
Notification: Performance of postOpt calculateStrongComponentJacobians (initialization): time 0.000243/2.091, allocations: 242.7 kB / 3.517 GB, free: 363.8 MB / 1.608 GB
Notification: Performance of postOpt simplifyAllExpressions (initialization): time 0.00337/2.094, allocations: 0.7115 MB / 3.518 GB, free: 363.7 MB / 1.608 GB
Notification: Performance of postOpt collapseArrayExpressions (initialization): time 0.0005237/2.095, allocations: 384.3 kB / 3.518 GB, free: 363.7 MB / 1.608 GB
Warning: Assuming fixed start value for the following 316 variables:
         mod.P_rcbl_max_back_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
         mod.P_rcbl_min_back_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
         mod.P_min_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
         mod.P_max_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
         mod.P_mustrun_residual:DISCRETE(unit = \"W\" fixed = true )  \"Mustrun power of plants that are more expensive than me\" type: Real
         mod.P_rcbl_min_back[2]:DISCRETE(unit = \"W\" fixed = true )  \"Min operating point to reach next timestep operating point\" type: Real [2]
         mod.P_rcbl_min_back[1]:DISCRETE(unit = \"W\" fixed = true )  \"Min operating point to reach next timestep operating point\" type: Real [2]
         mod.P_rcbl_max_back[2]:DISCRETE(unit = \"W\" fixed = true )  \"Max operating point to reach next timestep operating point\" type: Real [2]
         mod.P_rcbl_max_back[1]:DISCRETE(unit = \"W\" fixed = true )  \"Max operating point to reach next timestep operating point\" type: Real [2]
         mod.P_rcbl_min[2,61]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,60]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,59]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,58]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,57]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,56]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,55]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,54]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,53]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,52]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,51]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,50]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,49]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,48]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,47]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,46]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,45]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,44]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,43]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,42]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,41]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,40]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,39]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,38]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,37]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,36]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,35]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,34]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,33]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,32]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,31]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,30]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,29]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,28]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,27]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,26]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,25]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,24]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,23]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,22]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,21]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,20]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,19]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,18]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,17]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,16]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,15]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,14]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,13]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,12]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,11]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,10]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,9]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,8]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,7]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,6]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,5]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,4]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,3]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,2]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[2,1]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,61]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,60]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,59]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,58]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,57]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,56]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,55]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,54]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,53]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,52]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,51]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,50]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,49]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,48]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,47]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,46]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,45]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,44]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,43]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,42]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,41]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,40]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,39]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,38]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,37]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,36]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,35]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,34]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,33]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,32]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,31]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,30]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,29]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,28]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,27]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,26]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,25]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,24]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,23]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,22]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,21]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,20]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,19]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,18]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,17]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,16]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,15]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,14]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,13]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,12]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,11]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,10]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,9]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,8]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,7]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,6]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,5]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,4]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,3]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,2]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_min[1,1]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,61]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,60]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,59]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,58]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,57]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,56]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,55]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,54]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,53]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,52]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,51]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,50]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,49]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,48]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,47]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,46]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,45]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,44]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,43]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,42]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,41]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,40]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,39]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,38]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,37]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,36]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,35]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,34]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,33]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,32]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,31]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,30]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,29]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,28]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,27]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,26]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,25]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,24]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,23]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,22]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,21]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,20]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,19]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,18]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,17]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,16]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,15]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,14]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,13]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,12]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,11]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,10]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,9]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,8]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,7]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,6]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,5]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,4]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,3]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,2]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[2,1]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,61]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,60]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,59]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,58]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,57]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,56]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,55]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,54]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,53]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,52]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,51]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,50]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,49]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,48]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,47]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,46]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,45]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,44]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,43]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,42]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,41]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,40]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,39]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,38]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,37]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,36]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,35]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,34]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,33]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,32]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,31]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,30]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,29]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,28]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,27]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,26]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,25]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,24]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,23]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,22]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,21]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,20]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,19]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,18]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,17]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,16]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,15]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,14]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,13]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,12]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,11]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,10]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,9]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,8]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,7]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,6]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,5]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,4]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,3]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,2]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_rcbl_max[1,1]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
         mod.P_load[61]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[60]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[59]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[58]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[57]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[56]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[55]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[54]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[53]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[52]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[51]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[50]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[49]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[48]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[47]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[46]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[45]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[44]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[43]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[42]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[41]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[40]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[39]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[38]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[37]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[36]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[35]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[34]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[33]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[32]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[31]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[30]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[29]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[28]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[27]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[26]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[25]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[24]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[23]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[22]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[21]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[20]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[19]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[18]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[17]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[16]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[15]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[14]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[13]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[12]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[11]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[10]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[9]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[8]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[7]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[6]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[5]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[4]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[3]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[2]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_load[1]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
         mod.P_0[2]:DISCRETE(unit = \"W\" fixed = true )  \"Current operating point\" type: Real [2]
         mod.P_0[1]:DISCRETE(unit = \"W\" fixed = true )  \"Current operating point\" type: Real [2]
Warning: The initial conditions are over specified. The following 62 initial equations are redundant, so they are removed from the initialization system:
         modelStatistics.heatingPower.E[6] = $START.modelStatistics.heatingPower.E[6]
         modelStatistics.heatingPower.E[4] = $START.modelStatistics.heatingPower.E[4]
         modelStatistics.heatingPower.E[3] = $START.modelStatistics.heatingPower.E[3]
         modelStatistics.heatingPower.E[2] = $START.modelStatistics.heatingPower.E[2]
         modelStatistics.heatingPower.E[1] = $START.modelStatistics.heatingPower.E[1]
         modelStatistics.heatingPower.E[5] = $START.modelStatistics.heatingPower.E[5]
         modelStatistics.electricPower.negPBE[6] = $START.modelStatistics.electricPower.negPBE[6]
         modelStatistics.electricPower.negPBE[5] = $START.modelStatistics.electricPower.negPBE[5]
         modelStatistics.electricPower.negPBE[4] = $START.modelStatistics.electricPower.negPBE[4]
         modelStatistics.electricPower.negPBE[3] = $START.modelStatistics.electricPower.negPBE[3]
         modelStatistics.electricPower.negPBE[2] = $START.modelStatistics.electricPower.negPBE[2]
         modelStatistics.electricPower.negPBE[1] = $START.modelStatistics.electricPower.negPBE[1]
         modelStatistics.electricPower.posPBE[6] = $START.modelStatistics.electricPower.posPBE[6]
         modelStatistics.electricPower.posPBE[5] = $START.modelStatistics.electricPower.posPBE[5]
         modelStatistics.electricPower.posPBE[4] = $START.modelStatistics.electricPower.posPBE[4]
         modelStatistics.electricPower.posPBE[3] = $START.modelStatistics.electricPower.posPBE[3]
         modelStatistics.electricPower.posPBE[2] = $START.modelStatistics.electricPower.posPBE[2]
         modelStatistics.electricPower.posPBE[1] = $START.modelStatistics.electricPower.posPBE[1]
         modelStatistics.electricPower.E[4] = $START.modelStatistics.electricPower.E[4]
         modelStatistics.electricPower.E[3] = $START.modelStatistics.electricPower.E[3]
         modelStatistics.electricPower.E[2] = $START.modelStatistics.electricPower.E[2]
         modelStatistics.electricPower.E[1] = $START.modelStatistics.electricPower.E[1]
         modelStatistics.electricPower.E[6] = $START.modelStatistics.electricPower.E[6]
         modelStatistics.electricPower.E[5] = $START.modelStatistics.electricPower.E[5]
         modelStatistics.gwpEmissions.m_CDE_heat[10] = $START.modelStatistics.gwpEmissions.m_CDE_heat[10]
         modelStatistics.gwpEmissions.m_CDE_heat[8] = $START.modelStatistics.gwpEmissions.m_CDE_heat[8]
         modelStatistics.gwpEmissions.m_CDE_heat[7] = $START.modelStatistics.gwpEmissions.m_CDE_heat[7]
         modelStatistics.gwpEmissions.m_CDE_heat[6] = $START.modelStatistics.gwpEmissions.m_CDE_heat[6]
         modelStatistics.gwpEmissions.m_CDE_heat[5] = $START.modelStatistics.gwpEmissions.m_CDE_heat[5]
         modelStatistics.gwpEmissions.m_CDE_heat[4] = $START.modelStatistics.gwpEmissions.m_CDE_heat[4]
         modelStatistics.gwpEmissions.m_CDE_heat[3] = $START.modelStatistics.gwpEmissions.m_CDE_heat[3]
         modelStatistics.gwpEmissions.m_CDE[9] = $START.modelStatistics.gwpEmissions.m_CDE[9]
         modelStatistics.gwpEmissions.m_CDE[8] = $START.modelStatistics.gwpEmissions.m_CDE[8]
         modelStatistics.gwpEmissions.m_CDE[7] = $START.modelStatistics.gwpEmissions.m_CDE[7]
         modelStatistics.gwpEmissions.m_CDE[6] = $START.modelStatistics.gwpEmissions.m_CDE[6]
         modelStatistics.gwpEmissions.m_CDE[5] = $START.modelStatistics.gwpEmissions.m_CDE[5]
         modelStatistics.gwpEmissions.m_CDE[4] = $START.modelStatistics.gwpEmissions.m_CDE[4]
         modelStatistics.gwpEmissions.m_CDE[3] = $START.modelStatistics.gwpEmissions.m_CDE[3]
         modelStatistics.gwpEmissions.m_CDE[2] = $START.modelStatistics.gwpEmissions.m_CDE[2]
         modelStatistics.gwpEmissions.m_CDE[1] = $START.modelStatistics.gwpEmissions.m_CDE[1]
         modelStatistics.gwpEmissions.m_CDE_heat[9] = $START.modelStatistics.gwpEmissions.m_CDE_heat[9]
         modelStatistics.gwpEmissions.m_CDE_heat[2] = $START.modelStatistics.gwpEmissions.m_CDE_heat[2]
         modelStatistics.gwpEmissions.m_CDE_heat[1] = $START.modelStatistics.gwpEmissions.m_CDE_heat[1]
         modelStatistics.gwpEmissions.m_CDE[14] = $START.modelStatistics.gwpEmissions.m_CDE[14]
         modelStatistics.gwpEmissions.m_CDE[13] = $START.modelStatistics.gwpEmissions.m_CDE[13]
         modelStatistics.gwpEmissions.m_CDE[12] = $START.modelStatistics.gwpEmissions.m_CDE[12]
         modelStatistics.gwpEmissions.m_CDE[11] = $START.modelStatistics.gwpEmissions.m_CDE[11]
         modelStatistics.gwpEmissions.m_CDE[10] = $START.modelStatistics.gwpEmissions.m_CDE[10]
         modelStatistics.electricPower.negSBE[6] = $START.modelStatistics.electricPower.negSBE[6]
         modelStatistics.electricPower.negSBE[5] = $START.modelStatistics.electricPower.negSBE[5]
         modelStatistics.electricPower.negSBE[4] = $START.modelStatistics.electricPower.negSBE[4]
         modelStatistics.electricPower.negSBE[3] = $START.modelStatistics.electricPower.negSBE[3]
         modelStatistics.electricPower.negSBE[2] = $START.modelStatistics.electricPower.negSBE[2]
         modelStatistics.electricPower.negSBE[1] = $START.modelStatistics.electricPower.negSBE[1]
         modelStatistics.electricPower.posSBE[6] = $START.modelStatistics.electricPower.posSBE[6]
         modelStatistics.electricPower.posSBE[5] = $START.modelStatistics.electricPower.posSBE[5]
         modelStatistics.electricPower.posSBE[4] = $START.modelStatistics.electricPower.posSBE[4]
         modelStatistics.electricPower.posSBE[3] = $START.modelStatistics.electricPower.posSBE[3]
         modelStatistics.electricPower.posSBE[2] = $START.modelStatistics.electricPower.posSBE[2]
         modelStatistics.electricPower.posSBE[1] = $START.modelStatistics.electricPower.posSBE[1]
         modelStatistics.electricPower.E_residual_pos = $START.modelStatistics.electricPower.E_residual_pos
         modelStatistics.electricPower.E_residual_neg = $START.modelStatistics.electricPower.E_residual_neg.
Notification: Model statistics after passing the back-end for initialization:
 * Number of independent subsystems: 544
 * Number of states: 0 ()
 * Number of discrete variables: 664 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d.P_rcbl_max[1,41],mod.P_rcbl_max[1,41],$PRE.mod.P_rcbl_max[1,40],mod.P_rcbl_max[1,40],$PRE.mod.P_rcbl_max[1,39],mod.P_rcbl_max[1,39],$PRE.mod.P_rcbl_max[1,38],mod.P_rcbl_max[1,38],$PRE.mod.P_rcbl_max[1,37],mod.P_rcbl_max[1,37],$PRE.mod.P_rcbl_max[1,36],mod.P_rcbl_max[1,36],$PRE.mod.P_rcbl_max[1,35],mod.P_rcbl_max[1,35],$PRE.mod.P_rcbl_max[1,34],mod.P_rcbl_max[1,34],$PRE.mod.P_rcbl_max[1,33],mod.P_rcbl_max[1,33],$PRE.mod.P_rcbl_max[1,32],mod.P_rcbl_max[1,32],$PRE.mod.P_rcbl_max[1,31],mod.P_rcbl_max[1,31],$PRE.mod.P_rcbl_max[1,30],mod.P_rcbl_max[1,30],$PRE.mod.P_rcbl_max[1,29],mod.P_rcbl_max[1,29],$PRE.mod.P_rcbl_max[1,28],mod.P_rcbl_max[1,28],$PRE.mod.P_rcbl_max[1,27],mod.P_rcbl_max[1,27],$PRE.mod.P_rcbl_max[1,26],mod.P_rcbl_max[1,26],$PRE.mod.P_rcbl_max[1,25],mod.P_rcbl_max[1,25],$PRE.mod.P_rcbl_max[1,24],mod.P_rcbl_max[1,24],$PRE.mod.P_rcbl_max[1,23],mod.P_rcbl_max[1,23],$PRE.mod.P_rcbl_max[1,22],mod.P_rcbl_max[1,22],$PRE.mod.P_rcbl_max[1,21],mod.P_rcbl_max[1,21],$PRE.mod.P_rcbl_max[1,20],mod.P_rcbl_max[1,20],$PRE.mod.P_rcbl_max[1,19],mod.P_rcbl_max[1,19],$PRE.mod.P_rcbl_max[1,18],mod.P_rcbl_max[1,18],$PRE.mod.P_rcbl_max[1,17],mod.P_rcbl_max[1,17],$PRE.mod.P_rcbl_max[1,16],mod.P_rcbl_max[1,16],$PRE.mod.P_rcbl_max[1,15],mod.P_rcbl_max[1,15],$PRE.mod.P_rcbl_max[1,14],mod.P_rcbl_max[1,14],$PRE.mod.P_rcbl_max[1,13],mod.P_rcbl_max[1,13],$PRE.mod.P_rcbl_max[1,12],mod.P_rcbl_max[1,12],$PRE.mod.P_rcbl_max[1,11],mod.P_rcbl_max[1,11],$PRE.mod.P_rcbl_max[1,10],mod.P_rcbl_max[1,10],$PRE.mod.P_rcbl_max[1,9],mod.P_rcbl_max[1,9],$PRE.mod.P_rcbl_max[1,8],mod.P_rcbl_max[1,8],$PRE.mod.P_rcbl_max[1,7],mod.P_rcbl_max[1,7],$PRE.mod.P_rcbl_max[1,6],mod.P_rcbl_max[1,6],$PRE.mod.P_rcbl_max[1,5],mod.P_rcbl_max[1,5],$PRE.mod.P_rcbl_max[1,4],mod.P_rcbl_max[1,4],$PRE.mod.P_rcbl_max[1,3],mod.P_rcbl_max[1,3],$PRE.mod.P_rcbl_max[1,2],mod.P_rcbl_max[1,2],$PRE.mod.P_rcbl_max[1,1],mod.P_rcbl_max[1,1],$PRE.mod.P_load[61],mod.P_load[61],$PRE.mod.P_load[60],mod.P_load[60],$PRE.mod.P_load[59],mod.P_load[59],$PRE.mod.P_load[58],mod.P_load[58],$PRE.mod.P_load[57],mod.P_load[57],$PRE.mod.P_load[56],mod.P_load[56],$PRE.mod.P_load[55],mod.P_load[55],$PRE.mod.P_load[54],mod.P_load[54],$PRE.mod.P_load[53],mod.P_load[53],$PRE.mod.P_load[52],mod.P_load[52],$PRE.mod.P_load[51],mod.P_load[51],$PRE.mod.P_load[50],mod.P_load[50],$PRE.mod.P_load[49],mod.P_load[49],$PRE.mod.P_load[48],mod.P_load[48],$PRE.mod.P_load[47],mod.P_load[47],$PRE.mod.P_load[46],mod.P_load[46],$PRE.mod.P_load[45],mod.P_load[45],$PRE.mod.P_load[44],mod.P_load[44],$PRE.mod.P_load[43],mod.P_load[43],$PRE.mod.P_load[42],mod.P_load[42],$PRE.mod.P_load[41],mod.P_load[41],$PRE.mod.P_load[40],mod.P_load[40],$PRE.mod.P_load[39],mod.P_load[39],$PRE.mod.P_load[38],mod.P_load[38],$PRE.mod.P_load[37],mod.P_load[37],$PRE.mod.P_load[36],mod.P_load[36],$PRE.mod.P_load[35],mod.P_load[35],$PRE.mod.P_load[34],mod.P_load[34],$PRE.mod.P_load[33],mod.P_load[33],$PRE.mod.P_load[32],mod.P_load[32],$PRE.mod.P_load[31],mod.P_load[31],$PRE.mod.P_load[30],mod.P_load[30],$PRE.mod.P_load[29],mod.P_load[29],$PRE.mod.P_load[28],mod.P_load[28],$PRE.mod.P_load[27],mod.P_load[27],$PRE.mod.P_load[26],mod.P_load[26],$PRE.mod.P_load[25],mod.P_load[25],$PRE.mod.P_load[24],mod.P_load[24],$PRE.mod.P_load[23],mod.P_load[23],$PRE.mod.P_load[22],mod.P_load[22],$PRE.mod.P_load[21],mod.P_load[21],$PRE.mod.P_load[20],mod.P_load[20],$PRE.mod.P_load[19],mod.P_load[19],$PRE.mod.P_load[18],mod.P_load[18],$PRE.mod.P_load[17],mod.P_load[17],$PRE.mod.P_load[16],mod.P_load[16],$PRE.mod.P_load[15],mod.P_load[15],$PRE.mod.P_load[14],mod.P_load[14],$PRE.mod.P_load[13],mod.P_load[13],$PRE.mod.P_load[12],mod.P_load[12],$PRE.mod.P_load[11],mod.P_load[11],$PRE.mod.P_load[10],mod.P_load[10],$PRE.mod.P_load[9],mod.P_load[9],$PRE.mod.P_load[8],mod.P_load[8],$PRE.mod.P_load[7],mod.P_load[7],$PRE.mod.P_load[6],mod.P_load[6],$PRE.mod.P_load[5],mod.P_load[5],$PRE.mod.P_load[4],mod.P_load[4],$PRE.mod.P_load[3],mod.P_load[3],$PRE.mod.P_load[2],mod.P_load[2],$PRE.mod.P_load[1],mod.P_load[1],$PRE.mod.P_0[2],mod.P_0[2],$PRE.mod.P_0[1],mod.P_0[1],mod.firstTrigger,$PRE.mod.firstTrigger,mod.z[1],mod.z[2],mod.P_min[1],$PRE.mod.P_min[1],mod.P_max[1],$PRE.mod.P_max[1],mod.merit_order[2],mod.merit_order[1],mod.sampleTrigger,$whenCondition5,$whenCondition4,$whenCondition3,mod.y[2],$PRE.mod.y[2],mod.y[1],$PRE.mod.y[1],$PRE.simCenter.Variable_Ground_Temperature.MSL_combiTimeTable.nextTimeEvent,$whenCondition2,simCenter.Variable_Ground_Temperature.MSL_combiTimeTable.nextTimeEventScaled,$PRE.simCenter.Variable_Ground_Temperature.MSL_combiTimeTable.nextTimeEventScaled,simCenter.Variable_Ground_Temperature.MSL_combiTimeTable.nextTimeEvent,$PRE.simCenter.electricityPrice.MSL_combiTimeTable.nextTimeEvent,$whenCondition1,simCenter.electricityPrice.MSL_combiTimeTable.nextTimeEventScaled,$PRE.simCenter.electricityPrice.MSL_combiTimeTable.nextTimeEventScaled,simCenter.electricityPrice.MSL_combiTimeTable.nextTimeEvent)
 * Number of discrete states: 0 ()
 * Number of clocked states: 0 ()
 * Top-level inputs: 0
Notification: Strong component statistics for initialization (958):
 * Single equations (assignments): 957
 * Array equations: 0
 * Algorithm blocks: 1
 * Record equations: 0
 * When equations: 0
 * If-equations: 0
 * Equation systems (not torn): 0
 * Torn equation systems: 0
 * Mixed (continuous/discrete) equation systems: 0
Notification: Performance of prepare postOptimizeDAE: time 0.006242/2.101, allocations: 4.939 MB / 3.523 GB, free: 362.2 MB / 1.608 GB
Notification: Performance of postOpt lateInlineFunction (simulation): time 0.0008931/2.102, allocations: 0.5136 MB / 3.523 GB, free: 362.2 MB / 1.608 GB
Notification: Performance of postOpt wrapFunctionCalls (simulation): time 0.00109/2.103, allocations: 0.5906 MB / 3.524 GB, free: 361.9 MB / 1.608 GB
Notification: Performance of postOpt simplifysemiLinear (simulation): time 1.514e-05/2.103, allocations: 9.938 kB / 3.524 GB, free: 361.9 MB / 1.608 GB
Notification: Performance of postOpt simplifyComplexFunction (simulation): time 6.092e-06/2.103, allocations: 6.953 kB / 3.524 GB, free: 361.9 MB / 1.608 GB
Notification: Performance of postOpt removeConstants (simulation): time 0.001837/2.105, allocations: 1.178 MB / 3.525 GB, free: 361.3 MB / 1.608 GB
Notification: Performance of postOpt simplifyTimeIndepFuncCalls (simulation): time 0.001124/2.106, allocations: 0.5339 MB / 3.526 GB, free: 361.2 MB / 1.608 GB
Notification: Performance of postOpt simplifyAllExpressions (simulation): time 0.001279/2.107, allocations: 99.41 kB / 3.526 GB, free: 361.2 MB / 1.608 GB
Notification: Performance of postOpt findZeroCrossings (simulation): time 0.0003092/2.108, allocations: 120 kB / 3.526 GB, free: 361.2 MB / 1.608 GB
[/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/BackEnd/DAEMode.mo:528:7-530:90:writable] Error: Internal error DAEMode.traverserStrongComponents failed on equation:
1/1 (1): mod.P_min_var[1] = mod.P_min[1]
2/2 (1): mod.P_max_var[1] = mod.P_max[1]
3/3 (328): algorithm
  mod.P_rcbl_max_back_total := pre(mod.P_rcbl_max_back_total);
  mod.P_rcbl_min_back_total := pre(mod.P_rcbl_min_back_total);
  mod.P_min_total := pre(mod.P_min_total);
  mod.P_max_total := pre(mod.P_max_total);
  mod.P_mustrun_residual := pre(mod.P_mustrun_residual);
  mod.y[2] := pre(mod.y[2]);
  mod.y[1] := pre(mod.y[1]);
  mod.P_min[2] := pre(mod.P_min[2]);
  mod.P_min[1] := pre(mod.P_min[1]);
  mod.P_max[2] := pre(mod.P_max[2]);
  mod.P_max[1] := pre(mod.P_max[1]);
  $whenCondition5 := pre($whenCondition5);
  mod.P_rcbl_min_back[2] := pre(mod.P_rcbl_min_back[2]);
  mod.P_rcbl_min_back[1] := pre(mod.P_rcbl_min_back[1]);
  mod.P_rcbl_max_back[2] := pre(mod.P_rcbl_max_back[2]);
  mod.P_rcbl_max_back[1] := pre(mod.P_rcbl_max_back[1]);
  mod.P_rcbl_min[2,61] := pre(mod.P_rcbl_min[2,61]);
  mod.P_rcbl_min[2,60] := pre(mod.P_rcbl_min[2,60]);
  mod.P_rcbl_min[2,59] := pre(mod.P_rcbl_min[2,59]);
  mod.P_rcbl_min[2,58] := pre(mod.P_rcbl_min[2,58]);
  mod.P_rcbl_min[2,57] := pre(mod.P_rcbl_min[2,57]);
  mod.P_rcbl_min[2,56] := pre(mod.P_rcbl_min[2,56]);
  mod.P_rcbl_min[2,55] := pre(mod.P_rcbl_min[2,55]);
  mod.P_rcbl_min[2,54] := pre(mod.P_rcbl_min[2,54]);
  mod.P_rcbl_min[2,53] := pre(mod.P_rcbl_min[2,53]);
  mod.P_rcbl_min[2,52] := pre(mod.P_rcbl_min[2,52]);
  mod.P_rcbl_min[2,51] := pre(mod.P_rcbl_min[2,51]);
  mod.P_rcbl_min[2,50] := pre(mod.P_rcbl_min[2,50]);
  mod.P_rcbl_min[2,49] := pre(mod.P_rcbl_min[2,49]);
  mod.P_rcbl_min[2,48] := pre(mod.P_rcbl_min[2,48]);
  mod.P_rcbl_min[2,47] := pre(mod.P_rcbl_min[2,47]);
  mod.P_rcbl_min[2,46] := pre(mod.P_rcbl_min[2,46]);
  mod.P_rcbl_min[2,45] := pre(mod.P_rcbl_min[2,45]);
  mod.P_rcbl_min[2,44] := pre(mod.P_rcbl_min[2,44]);
  mod.P_rcbl_min[2,43] := pre(mod.P_rcbl_min[2,43]);
  mod.P_rcbl_min[2,42] := pre(mod.P_rcbl_min[2,42]);
  mod.P_rcbl_min[2,41] := pre(mod.P_rcbl_min[2,41]);
  mod.P_rcbl_min[2,40] := pre(mod.P_rcbl_min[2,40]);
  mod.P_rcbl_min[2,39] := pre(mod.P_rcbl_min[2,39]);
  mod.P_rcbl_min[2,38] := pre(mod.P_rcbl_min[2,38]);
  mod.P_rcbl_min[2,37] := pre(mod.P_rcbl_min[2,37]);
  mod.P_rcbl_min[2,36] := pre(mod.P_rcbl_min[2,36]);
  mod.P_rcbl_min[2,35] := pre(mod.P_rcbl_min[2,35]);
  mod.P_rcbl_min[2,34] := pre(mod.P_rcbl_min[2,34]);
  mod.P_rcbl_min[2,33] := pre(mod.P_rcbl_min[2,33]);
  mod.P_rcbl_min[2,32] := pre(mod.P_rcbl_min[2,32]);
  mod.P_rcbl_min[2,31] := pre(mod.P_rcbl_min[2,31]);
  mod.P_rcbl_min[2,30] := pre(mod.P_rcbl_min[2,30]);
  mod.P_rcbl_min[2,29] := pre(mod.P_rcbl_min[2,29]);
  mod.P_rcbl_min[2,28] := pre(mod.P_rcbl_min[2,28]);
  mod.P_rcbl_min[2,27] := pre(mod.P_rcbl_min[2,27]);
  mod.P_rcbl_min[2,26] := pre(mod.P_rcbl_min[2,26]);
  mod.P_rcbl_min[2,25] := pre(mod.P_rcbl_min[2,25]);
  mod.P_rcbl_min[2,24] := pre(mod.P_rcbl_min[2,24]);
  mod.P_rcbl_min[2,23] := pre(mod.P_rcbl_min[2,23]);
  mod.P_rcbl_min[2,22] := pre(mod.P_rcbl_min[2,22]);
  mod.P_rcbl_min[2,21] := pre(mod.P_rcbl_min[2,21]);
  mod.P_rcbl_min[2,20] := pre(mod.P_rcbl_min[2,20]);
  mod.P_rcbl_min[2,19] := pre(mod.P_rcbl_min[2,19]);
  mod.P_rcbl_min[2,18] := pre(mod.P_rcbl_min[2,18]);
  mod.P_rcbl_min[2,17] := pre(mod.P_rcbl_min[2,17]);
  mod.P_rcbl_min[2,16] := pre(mod.P_rcbl_min[2,16]);
  mod.P_rcbl_min[2,15] := pre(mod.P_rcbl_min[2,15]);
  mod.P_rcbl_min[2,14] := pre(mod.P_rcbl_min[2,14]);
  mod.P_rcbl_min[2,13] := pre(mod.P_rcbl_min[2,13]);
  mod.P_rcbl_min[2,12] := pre(mod.P_rcbl_min[2,12]);
  mod.P_rcbl_min[2,11] := pre(mod.P_rcbl_min[2,11]);
  mod.P_rcbl_min[2,10] := pre(mod.P_rcbl_min[2,10]);
  mod.P_rcbl_min[2,9] := pre(mod.P_rcbl_min[2,9]);
  mod.P_rcbl_min[2,8] := pre(mod.P_rcbl_min[2,8]);
  mod.P_rcbl_min[2,7] := pre(mod.P_rcbl_min[2,7]);
  mod.P_rcbl_min[2,6] := pre(mod.P_rcbl_min[2,6]);
  mod.P_rcbl_min[2,5] := pre(mod.P_rcbl_min[2,5]);
  mod.P_rcbl_min[2,4] := pre(mod.P_rcbl_min[2,4]);
  mod.P_rcbl_min[2,3] := pre(mod.P_rcbl_min[2,3]);
  mod.P_rcbl_min[2,2] := pre(mod.P_rcbl_min[2,2]);
  mod.P_rcbl_min[2,1] := pre(mod.P_rcbl_min[2,1]);
  mod.P_rcbl_min[1,61] := pre(mod.P_rcbl_min[1,61]);
  mod.P_rcbl_min[1,60] := pre(mod.P_rcbl_min[1,60]);
  mod.P_rcbl_min[1,59] := pre(mod.P_rcbl_min[1,59]);
  mod.P_rcbl_min[1,58] := pre(mod.P_rcbl_min[1,58]);
  mod.P_rcbl_min[1,57] := pre(mod.P_rcbl_min[1,57]);
  mod.P_rcbl_min[1,56] := pre(mod.P_rcbl_min[1,56]);
  mod.P_rcbl_min[1,55] := pre(mod.P_rcbl_min[1,55]);
  mod.P_rcbl_min[1,54] := pre(mod.P_rcbl_min[1,54]);
  mod.P_rcbl_min[1,53] := pre(mod.P_rcbl_min[1,53]);
  mod.P_rcbl_min[1,52] := pre(mod.P_rcbl_min[1,52]);
  mod.P_rcbl_min[1,51] := pre(mod.P_rcbl_min[1,51]);
  mod.P_rcbl_min[1,50] := pre(mod.P_rcbl_min[1,50]);
  mod.P_rcbl_min[1,49] := pre(mod.P_rcbl_min[1,49]);
  mod.P_rcbl_min[1,48] := pre(mod.P_rcbl_min[1,48]);
  mod.P_rcbl_min[1,47] := pre(mod.P_rcbl_min[1,47]);
  mod.P_rcbl_min[1,46] := pre(mod.P_rcbl_min[1,46]);
  mod.P_rcbl_min[1,45] := pre(mod.P_rcbl_min[1,45]);
  mod.P_rcbl_min[1,44] := pre(mod.P_rcbl_min[1,44]);
  mod.P_rcbl_min[1,43] := pre(mod.P_rcbl_min[1,43]);
  mod.P_rcbl_min[1,42] := pre(mod.P_rcbl_min[1,42]);
  mod.P_rcbl_min[1,41] := pre(mod.P_rcbl_min[1,41]);
  mod.P_rcbl_min[1,40] := pre(mod.P_rcbl_min[1,40]);
  mod.P_rcbl_min[1,39] := pre(mod.P_rcbl_min[1,39]);
  mod.P_rcbl_min[1,38] := pre(mod.P_rcbl_min[1,38]);
  mod.P_rcbl_min[1,37] := pre(mod.P_rcbl_min[1,37]);
  mod.P_rcbl_min[1,36] := pre(mod.P_rcbl_min[1,36]);
  mod.P_rcbl_min[1,35] := pre(mod.P_rcbl_min[1,35]);
  mod.P_rcbl_min[1,34] := pre(mod.P_rcbl_min[1,34]);
  mod.P_rcbl_min[1,33] := pre(mod.P_rcbl_min[1,33]);
  mod.P_rcbl_min[1,32] := pre(mod.P_rcbl_min[1,32]);
  mod.P_rcbl_min[1,31] := pre(mod.P_rcbl_min[1,31]);
  mod.P_rcbl_min[1,30] := pre(mod.P_rcbl_min[1,30]);
  mod.P_rcbl_min[1,29] := pre(mod.P_rcbl_min[1,29]);
  mod.P_rcbl_min[1,28] := pre(mod.P_rcbl_min[1,28]);
  mod.P_rcbl_min[1,27] := pre(mod.P_rcbl_min[1,27]);
  mod.P_rcbl_min[1,26] := pre(mod.P_rcbl_min[1,26]);
  mod.P_rcbl_min[1,25] := pre(mod.P_rcbl_min[1,25]);
  mod.P_rcbl_min[1,24] := pre(mod.P_rcbl_min[1,24]);
  mod.P_rcbl_min[1,23] := pre(mod.P_rcbl_min[1,23]);
  mod.P_rcbl_min[1,22] := pre(mod.P_rcbl_min[1,22]);
  mod.P_rcbl_min[1,21] := pre(mod.P_rcbl_min[1,21]);
  mod.P_rcbl_min[1,20] := pre(mod.P_rcbl_min[1,20]);
  mod.P_rcbl_min[1,19] := pre(mod.P_rcbl_min[1,19]);
  mod.P_rcbl_min[1,18] := pre(mod.P_rcbl_min[1,18]);
  mod.P_rcbl_min[1,17] := pre(mod.P_rcbl_min[1,17]);
  mod.P_rcbl_min[1,16] := pre(mod.P_rcbl_min[1,16]);
  mod.P_rcbl_min[1,15] := pre(mod.P_rcbl_min[1,15]);
  mod.P_rcbl_min[1,14] := pre(mod.P_rcbl_min[1,14]);
  mod.P_rcbl_min[1,13] := pre(mod.P_rcbl_min[1,13]);
  mod.P_rcbl_min[1,12] := pre(mod.P_rcbl_min[1,12]);
  mod.P_rcbl_min[1,11] := pre(mod.P_rcbl_min[1,11]);
  mod.P_rcbl_min[1,10] := pre(mod.P_rcbl_min[1,10]);
  mod.P_rcbl_min[1,9] := pre(mod.P_rcbl_min[1,9]);
  mod.P_rcbl_min[1,8] := pre(mod.P_rcbl_min[1,8]);
  mod.P_rcbl_min[1,7] := pre(mod.P_rcbl_min[1,7]);
  mod.P_rcbl_min[1,6] := pre(mod.P_rcbl_min[1,6]);
  mod.P_rcbl_min[1,5] := pre(mod.P_rcbl_min[1,5]);
  mod.P_rcbl_min[1,4] := pre(mod.P_rcbl_min[1,4]);
  mod.P_rcbl_min[1,3] := pre(mod.P_rcbl_min[1,3]);
  mod.P_rcbl_min[1,2] := pre(mod.P_rcbl_min[1,2]);
  mod.P_rcbl_min[1,1] := pre(mod.P_rcbl_min[1,1]);
  mod.P_rcbl_max[2,61] := pre(mod.P_rcbl_max[2,61]);
  mod.P_rcbl_max[2,60] := pre(mod.P_rcbl_max[2,60]);
  mod.P_rcbl_max[2,59] := pre(mod.P_rcbl_max[2,59]);
  mod.P_rcbl_max[2,58] := pre(mod.P_rcbl_max[2,58]);
  mod.P_rcbl_max[2,57] := pre(mod.P_rcbl_max[2,57]);
  mod.P_rcbl_max[2,56] := pre(mod.P_rcbl_max[2,56]);
  mod.P_rcbl_max[2,55] := pre(mod.P_rcbl_max[2,55]);
  mod.P_rcbl_max[2,54] := pre(mod.P_rcbl_max[2,54]);
  mod.P_rcbl_max[2,53] := pre(mod.P_rcbl_max[2,53]);
  mod.P_rcbl_max[2,52] := pre(mod.P_rcbl_max[2,52]);
  mod.P_rcbl_max[2,51] := pre(mod.P_rcbl_max[2,51]);
  mod.P_rcbl_max[2,50] := pre(mod.P_rcbl_max[2,50]);
  mod.P_rcbl_max[2,49] := pre(mod.P_rcbl_max[2,49]);
  mod.P_rcbl_max[2,48] := pre(mod.P_rcbl_max[2,48]);
  mod.P_rcbl_max[2,47] := pre(mod.P_rcbl_max[2,47]);
  mod.P_rcbl_max[2,46] := pre(mod.P_rcbl_max[2,46]);
  mod.P_rcbl_max[2,45] := pre(mod.P_rcbl_max[2,45]);
  mod.P_rcbl_max[2,44] := pre(mod.P_rcbl_max[2,44]);
  mod.P_rcbl_max[2,43] := pre(mod.P_rcbl_max[2,43]);
  mod.P_rcbl_max[2,42] := pre(mod.P_rcbl_max[2,42]);
  mod.P_rcbl_max[2,41] := pre(mod.P_rcbl_max[2,41]);
  mod.P_rcbl_max[2,40] := pre(mod.P_rcbl_max[2,40]);
  mod.P_rcbl_max[2,39] := pre(mod.P_rcbl_max[2,39]);
  mod.P_rcbl_max[2,38] := pre(mod.P_rcbl_max[2,38]);
  mod.P_rcbl_max[2,37] := pre(mod.P_rcbl_max[2,37]);
  mod.P_rcbl_max[2,36] := pre(mod.P_rcbl_max[2,36]);
  mod.P_rcbl_max[2,35] := pre(mod.P_rcbl_max[2,35]);
  mod.P_rcbl_max[2,34] := pre(mod.P_rcbl_max[2,34]);
  mod.P_rcbl_max[2,33] := pre(mod.P_rcbl_max[2,33]);
  mod.P_rcbl_max[2,32] := pre(mod.P_rcbl_max[2,32]);
  mod.P_rcbl_max[2,31] := pre(mod.P_rcbl_max[2,31]);
  mod.P_rcbl_max[2,30] := pre(mod.P_rcbl_max[2,30]);
  mod.P_rcbl_max[2,29] := pre(mod.P_rcbl_max[2,29]);
  mod.P_rcbl_max[2,28] := pre(mod.P_rcbl_max[2,28]);
  mod.P_rcbl_max[2,27] := pre(mod.P_rcbl_max[2,27]);
  mod.P_rcbl_max[2,26] := pre(mod.P_rcbl_max[2,26]);
  mod.P_rcbl_max[2,25] := pre(mod.P_rcbl_max[2,25]);
  mod.P_rcbl_max[2,24] := pre(mod.P_rcbl_max[2,24]);
  mod.P_rcbl_max[2,23] := pre(mod.P_rcbl_max[2,23]);
  mod.P_rcbl_max[2,22] := pre(mod.P_rcbl_max[2,22]);
  mod.P_rcbl_max[2,21] := pre(mod.P_rcbl_max[2,21]);
  mod.P_rcbl_max[2,20] := pre(mod.P_rcbl_max[2,20]);
  mod.P_rcbl_max[2,19] := pre(mod.P_rcbl_max[2,19]);
  mod.P_rcbl_max[2,18] := pre(mod.P_rcbl_max[2,18]);
  mod.P_rcbl_max[2,17] := pre(mod.P_rcbl_max[2,17]);
  mod.P_rcbl_max[2,16] := pre(mod.P_rcbl_max[2,16]);
  mod.P_rcbl_max[2,15] := pre(mod.P_rcbl_max[2,15]);
  mod.P_rcbl_max[2,14] := pre(mod.P_rcbl_max[2,14]);
  mod.P_rcbl_max[2,13] := pre(mod.P_rcbl_max[2,13]);
  mod.P_rcbl_max[2,12] := pre(mod.P_rcbl_max[2,12]);
  mod.P_rcbl_max[2,11] := pre(mod.P_rcbl_max[2,11]);
  mod.P_rcbl_max[2,10] := pre(mod.P_rcbl_max[2,10]);
  mod.P_rcbl_max[2,9] := pre(mod.P_rcbl_max[2,9]);
  mod.P_rcbl_max[2,8] := pre(mod.P_rcbl_max[2,8]);
  mod.P_rcbl_max[2,7] := pre(mod.P_rcbl_max[2,7]);
  mod.P_rcbl_max[2,6] := pre(mod.P_rcbl_max[2,6]);
  mod.P_rcbl_max[2,5] := pre(mod.P_rcbl_max[2,5]);
  mod.P_rcbl_max[2,4] := pre(mod.P_rcbl_max[2,4]);
  mod.P_rcbl_max[2,3] := pre(mod.P_rcbl_max[2,3]);
  mod.P_rcbl_max[2,2] := pre(mod.P_rcbl_max[2,2]);
  mod.P_rcbl_max[2,1] := pre(mod.P_rcbl_max[2,1]);
  mod.P_rcbl_max[1,61] := pre(mod.P_rcbl_max[1,61]);
  mod.P_rcbl_max[1,60] := pre(mod.P_rcbl_max[1,60]);
  mod.P_rcbl_max[1,59] := pre(mod.P_rcbl_max[1,59]);
  mod.P_rcbl_max[1,58] := pre(mod.P_rcbl_max[1,58]);
  mod.P_rcbl_max[1,57] := pre(mod.P_rcbl_max[1,57]);
  mod.P_rcbl_max[1,56] := pre(mod.P_rcbl_max[1,56]);
  mod.P_rcbl_max[1,55] := pre(mod.P_rcbl_max[1,55]);
  mod.P_rcbl_max[1,54] := pre(mod.P_rcbl_max[1,54]);
  mod.P_rcbl_max[1,53] := pre(mod.P_rcbl_max[1,53]);
  mod.P_rcbl_max[1,52] := pre(mod.P_rcbl_max[1,52]);
  mod.P_rcbl_max[1,51] := pre(mod.P_rcbl_max[1,51]);
  mod.P_rcbl_max[1,50] := pre(mod.P_rcbl_max[1,50]);
  mod.P_rcbl_max[1,49] := pre(mod.P_rcbl_max[1,49]);
  mod.P_rcbl_max[1,48] := pre(mod.P_rcbl_max[1,48]);
  mod.P_rcbl_max[1,47] := pre(mod.P_rcbl_max[1,47]);
  mod.P_rcbl_max[1,46] := pre(mod.P_rcbl_max[1,46]);
  mod.P_rcbl_max[1,45] := pre(mod.P_rcbl_max[1,45]);
  mod.P_rcbl_max[1,44] := pre(mod.P_rcbl_max[1,44]);
  mod.P_rcbl_max[1,43] := pre(mod.P_rcbl_max[1,43]);
  mod.P_rcbl_max[1,42] := pre(mod.P_rcbl_max[1,42]);
  mod.P_rcbl_max[1,41] := pre(mod.P_rcbl_max[1,41]);
  mod.P_rcbl_max[1,40] := pre(mod.P_rcbl_max[1,40]);
  mod.P_rcbl_max[1,39] := pre(mod.P_rcbl_max[1,39]);
  mod.P_rcbl_max[1,38] := pre(mod.P_rcbl_max[1,38]);
  mod.P_rcbl_max[1,37] := pre(mod.P_rcbl_max[1,37]);
  mod.P_rcbl_max[1,36] := pre(mod.P_rcbl_max[1,36]);
  mod.P_rcbl_max[1,35] := pre(mod.P_rcbl_max[1,35]);
  mod.P_rcbl_max[1,34] := pre(mod.P_rcbl_max[1,34]);
  mod.P_rcbl_max[1,33] := pre(mod.P_rcbl_max[1,33]);
  mod.P_rcbl_max[1,32] := pre(mod.P_rcbl_max[1,32]);
  mod.P_rcbl_max[1,31] := pre(mod.P_rcbl_max[1,31]);
  mod.P_rcbl_max[1,30] := pre(mod.P_rcbl_max[1,30]);
  mod.P_rcbl_max[1,29] := pre(mod.P_rcbl_max[1,29]);
  mod.P_rcbl_max[1,28] := pre(mod.P_rcbl_max[1,28]);
  mod.P_rcbl_max[1,27] := pre(mod.P_rcbl_max[1,27]);
  mod.P_rcbl_max[1,26] := pre(mod.P_rcbl_max[1,26]);
  mod.P_rcbl_max[1,25] := pre(mod.P_rcbl_max[1,25]);
  mod.P_rcbl_max[1,24] := pre(mod.P_rcbl_max[1,24]);
  mod.P_rcbl_max[1,23] := pre(mod.P_rcbl_max[1,23]);
  mod.P_rcbl_max[1,22] := pre(mod.P_rcbl_max[1,22]);
  mod.P_rcbl_max[1,21] := pre(mod.P_rcbl_max[1,21]);
  mod.P_rcbl_max[1,20] := pre(mod.P_rcbl_max[1,20]);
  mod.P_rcbl_max[1,19] := pre(mod.P_rcbl_max[1,19]);
  mod.P_rcbl_max[1,18] := pre(mod.P_rcbl_max[1,18]);
  mod.P_rcbl_max[1,17] := pre(mod.P_rcbl_max[1,17]);
  mod.P_rcbl_max[1,16] := pre(mod.P_rcbl_max[1,16]);
  mod.P_rcbl_max[1,15] := pre(mod.P_rcbl_max[1,15]);
  mod.P_rcbl_max[1,14] := pre(mod.P_rcbl_max[1,14]);
  mod.P_rcbl_max[1,13] := pre(mod.P_rcbl_max[1,13]);
  mod.P_rcbl_max[1,12] := pre(mod.P_rcbl_max[1,12]);
  mod.P_rcbl_max[1,11] := pre(mod.P_rcbl_max[1,11]);
  mod.P_rcbl_max[1,10] := pre(mod.P_rcbl_max[1,10]);
  mod.P_rcbl_max[1,9] := pre(mod.P_rcbl_max[1,9]);
  mod.P_rcbl_max[1,8] := pre(mod.P_rcbl_max[1,8]);
  mod.P_rcbl_max[1,7] := pre(mod.P_rcbl_max[1,7]);
  mod.P_rcbl_max[1,6] := pre(mod.P_rcbl_max[1,6]);
  mod.P_rcbl_max[1,5] := pre(mod.P_rcbl_max[1,5]);
  mod.P_rcbl_max[1,4] := pre(mod.P_rcbl_max[1,4]);
  mod.P_rcbl_max[1,3] := pre(mod.P_rcbl_max[1,3]);
  mod.P_rcbl_max[1,2] := pre(mod.P_rcbl_max[1,2]);
  mod.P_rcbl_max[1,1] := pre(mod.P_rcbl_max[1,1]);
  mod.P_load[61] := pre(mod.P_load[61]);
  mod.P_load[60] := pre(mod.P_load[60]);
  mod.P_load[59] := pre(mod.P_load[59]);
  mod.P_load[58] := pre(mod.P_load[58]);
  mod.P_load[57] := pre(mod.P_load[57]);
  mod.P_load[56] := pre(mod.P_load[56]);
  mod.P_load[55] := pre(mod.P_load[55]);
  mod.P_load[54] := pre(mod.P_load[54]);
  mod.P_load[53] := pre(mod.P_load[53]);
  mod.P_load[52] := pre(mod.P_load[52]);
  mod.P_load[51] := pre(mod.P_load[51]);
  mod.P_load[50] := pre(mod.P_load[50]);
  mod.P_load[49] := pre(mod.P_load[49]);
  mod.P_load[48] := pre(mod.P_load[48]);
  mod.P_load[47] := pre(mod.P_load[47]);
  mod.P_load[46] := pre(mod.P_load[46]);
  mod.P_load[45] := pre(mod.P_load[45]);
  mod.P_load[44] := pre(mod.P_load[44]);
  mod.P_load[43] := pre(mod.P_load[43]);
  mod.P_load[42] := pre(mod.P_load[42]);
  mod.P_load[41] := pre(mod.P_load[41]);
  mod.P_load[40] := pre(mod.P_load[40]);
  mod.P_load[39] := pre(mod.P_load[39]);
  mod.P_load[38] := pre(mod.P_load[38]);
  mod.P_load[37] := pre(mod.P_load[37]);
  mod.P_load[36] := pre(mod.P_load[36]);
  mod.P_load[35] := pre(mod.P_load[35]);
  mod.P_load[34] := pre(mod.P_load[34]);
  mod.P_load[33] := pre(mod.P_load[33]);
  mod.P_load[32] := pre(mod.P_load[32]);
  mod.P_load[31] := pre(mod.P_load[31]);
  mod.P_load[30] := pre(mod.P_load[30]);
  mod.P_load[29] := pre(mod.P_load[29]);
  mod.P_load[28] := pre(mod.P_load[28]);
  mod.P_load[27] := pre(mod.P_load[27]);
  mod.P_load[26] := pre(mod.P_load[26]);
  mod.P_load[25] := pre(mod.P_load[25]);
  mod.P_load[24] := pre(mod.P_load[24]);
  mod.P_load[23] := pre(mod.P_load[23]);
  mod.P_load[22] := pre(mod.P_load[22]);
  mod.P_load[21] := pre(mod.P_load[21]);
  mod.P_load[20] := pre(mod.P_load[20]);
  mod.P_load[19] := pre(mod.P_load[19]);
  mod.P_load[18] := pre(mod.P_load[18]);
  mod.P_load[17] := pre(mod.P_load[17]);
  mod.P_load[16] := pre(mod.P_load[16]);
  mod.P_load[15] := pre(mod.P_load[15]);
  mod.P_load[14] := pre(mod.P_load[14]);
  mod.P_load[13] := pre(mod.P_load[13]);
  mod.P_load[12] := pre(mod.P_load[12]);
  mod.P_load[11] := pre(mod.P_load[11]);
  mod.P_load[10] := pre(mod.P_load[10]);
  mod.P_load[9] := pre(mod.P_load[9]);
  mod.P_load[8] := pre(mod.P_load[8]);
  mod.P_load[7] := pre(mod.P_load[7]);
  mod.P_load[6] := pre(mod.P_load[6]);
  mod.P_load[5] := pre(mod.P_load[5]);
  mod.P_load[4] := pre(mod.P_load[4]);
  mod.P_load[3] := pre(mod.P_load[3]);
  mod.P_load[2] := pre(mod.P_load[2]);
  mod.P_load[1] := pre(mod.P_load[1]);
  mod.P_0[2] := pre(mod.P_0[2]);
  mod.P_0[1] := pre(mod.P_0[1]);
  $whenCondition4 := pre($whenCondition4);
  mod.merit_order[2] := pre(mod.merit_order[2]);
  mod.merit_order[1] := pre(mod.merit_order[1]);
  mod.C_varsorted[2] := $START.mod.C_varsorted[2];
  mod.C_varsorted[1] := $START.mod.C_varsorted[1];
  (mod.C_varsorted, mod.merit_order) := Modelica.Math.Vectors.sort(mod.C_var, true);
  $whenCondition4 := false;
  when $whenCondition4 then
    mod.P_0 := mod.P_init;
    mod.P_load := {discretizePrediction.P_predictions[1], discretizePrediction.P_predictions[2], discretizePrediction.P_predictions[3], discretizePrediction.P_predictions[4], discretizePrediction.P_predictions[5], discretizePrediction.P_predictions[6], discretizePrediction.P_predictions[7], discretizePrediction.P_predictions[8], discretizePrediction.P_predictions[9], discretizePrediction.P_predictions[10], discretizePrediction.P_predictions[11], discretizePrediction.P_predictions[12], discretizePrediction.P_predictions[13], discretizePrediction.P_predictions[14], discretizePrediction.P_predictions[15], discretizePrediction.P_predictions[16], discretizePrediction.P_predictions[17], discretizePrediction.P_predictions[18], discretizePrediction.P_predictions[19], discretizePrediction.P_predictions[20], discretizePrediction.P_predictions[21], discretizePrediction.P_predictions[22], discretizePrediction.P_predictions[23], discretizePrediction.P_predictions[24], discretizePrediction.P_predictions[25], discretizePrediction.P_predictions[26], discretizePrediction.P_predictions[27], discretizePrediction.P_predictions[28], discretizePrediction.P_predictions[29], discretizePrediction.P_predictions[30], discretizePrediction.P_predictions[31], discretizePrediction.P_predictions[32], discretizePrediction.P_predictions[33], discretizePrediction.P_predictions[34], discretizePrediction.P_predictions[35], discretizePrediction.P_predictions[36], discretizePrediction.P_predictions[37], discretizePrediction.P_predictions[38], discretizePrediction.P_predictions[39], discretizePrediction.P_predictions[40], discretizePrediction.P_predictions[41], discretizePrediction.P_predictions[42], discretizePrediction.P_predictions[43], discretizePrediction.P_predictions[44], discretizePrediction.P_predictions[45], discretizePrediction.P_predictions[46], discretizePrediction.P_predictions[47], discretizePrediction.P_predictions[48], discretizePrediction.P_predictions[49], discretizePrediction.P_predictions[50], discretizePrediction.P_predictions[51], discretizePrediction.P_predictions[52], discretizePrediction.P_predictions[53], discretizePrediction.P_predictions[54], discretizePrediction.P_predictions[55], discretizePrediction.P_predictions[56], discretizePrediction.P_predictions[57], discretizePrediction.P_predictions[58], discretizePrediction.P_predictions[59], discretizePrediction.P_predictions[60], discretizePrediction.P_predictions[61]};
    for j in 1:61 loop
      for i in 1:2 loop
        if mod.z[i] then
          assert(mod.P_0[i] <= mod.P_max_const[i], \"Error in MeritOrderDispatcher at init: Plant \" + String(i, 0, true) + \" has inital power above maximum power limit\");
          assert(mod.P_0[i] >= mod.P_min_const[i], \"Error in MeritOrderDispatcher at init: Plant \" + String(i, 0, true) + \" has inital power below minimum power limit\");
          mod.P_rcbl_max[i,j] := mod.P_0[i];
          mod.P_rcbl_min[i,j] := mod.P_0[i];
          mod.P_rcbl_max_back[i] := mod.P_0[i];
          mod.P_rcbl_min_back[i] := mod.P_0[i];
        else
          mod.P_rcbl_max[i,j] := 0.0;
          mod.P_rcbl_min[i,j] := 0.0;
        end if;
      end for;
    end for;
  end when;
  $whenCondition5 := mod.sampleTrigger;
  when $whenCondition5 then
    for i in 1:2 loop
      mod.P_max[i] := mod.P_max_const[i] - abs(mod.P_R_pos[i]);
      mod.P_min[i] := mod.P_min_const[i] + abs(mod.P_R_neg[i]);
    end for;
    for i in 1:1 loop
      mod.P_max[1] := mod.P_max_var[i] - abs(mod.P_R_pos[i]);
      mod.P_min[1] := mod.P_min_var[i] + abs(mod.P_R_neg[i]);
    end for;
    for i in 1:2 loop
      if mod.z[i] then
        mod.y[i] := mod.P_min[i];
      else
        mod.y[i] := 0.0;
      end if;
    end for;
    mod.P_0 := pre(mod.y);
    mod.P_load := {discretizePrediction.P_predictions[1], discretizePrediction.P_predictions[2], discretizePrediction.P_predictions[3], discretizePrediction.P_predictions[4], discretizePrediction.P_predictions[5], discretizePrediction.P_predictions[6], discretizePrediction.P_predictions[7], discretizePrediction.P_predictions[8], discretizePrediction.P_predictions[9], discretizePrediction.P_predictions[10], discretizePrediction.P_predictions[11], discretizePrediction.P_predictions[12], discretizePrediction.P_predictions[13], discretizePrediction.P_predictions[14], discretizePrediction.P_predictions[15], discretizePrediction.P_predictions[16], discretizePrediction.P_predictions[17], discretizePrediction.P_predictions[18], discretizePrediction.P_predictions[19], discretizePrediction.P_predictions[20], discretizePrediction.P_predictions[21], discretizePrediction.P_predictions[22], discretizePrediction.P_predictions[23], discretizePrediction.P_predictions[24], discretizePrediction.P_predictions[25], discretizePrediction.P_predictions[26], discretizePrediction.P_predictions[27], discretizePrediction.P_predictions[28], discretizePrediction.P_predictions[29], discretizePrediction.P_predictions[30], discretizePrediction.P_predictions[31], discretizePrediction.P_predictions[32], discretizePrediction.P_predictions[33], discretizePrediction.P_predictions[34], discretizePrediction.P_predictions[35], discretizePrediction.P_predictions[36], discretizePrediction.P_predictions[37], discretizePrediction.P_predictions[38], discretizePrediction.P_predictions[39], discretizePrediction.P_predictions[40], discretizePrediction.P_predictions[41], discretizePrediction.P_predictions[42], discretizePrediction.P_predictions[43], discretizePrediction.P_predictions[44], discretizePrediction.P_predictions[45], discretizePrediction.P_predictions[46], discretizePrediction.P_predictions[47], discretizePrediction.P_predictions[48], discretizePrediction.P_predictions[49], discretizePrediction.P_predictions[50], discretizePrediction.P_predictions[51], discretizePrediction.P_predictions[52], discretizePrediction.P_predictions[53], discretizePrediction.P_predictions[54], discretizePrediction.P_predictions[55], discretizePrediction.P_predictions[56], discretizePrediction.P_predictions[57], discretizePrediction.P_predictions[58], discretizePrediction.P_predictions[59], discretizePrediction.P_predictions[60], discretizePrediction.P_predictions[61]};
    for j in 1:61 loop
      for i in 1:2 loop
        if mod.z[i] then
          mod.P_rcbl_max[i,j] := min(mod.P_max[i], mod.P_0[i] + mod.P_grad_max_star[i] * mod.P_n[i] * 60.0 * /*Real*/(j));
          mod.P_rcbl_min[i,j] := max(mod.P_min[i], mod.P_0[i] - mod.P_grad_max_star[i] * mod.P_n[i] * 60.0 * /*Real*/(j));
        else
          mod.P_rcbl_max[i,j] := 0.0;
          mod.P_rcbl_min[i,j] := 0.0;
        end if;
      end for;
    end for;
    for i in 1:2 loop
      mod.P_mustrun_residual := 0.0;
      if mod.P_load[61] >= 0.0 and mod.z[mod.merit_order[i]] then
        for k in 1:2 loop
          if k <> mod.merit_order[i] and mod.z[k] and mod.C_var[k] >= mod.C_var[mod.merit_order[i]] then
            mod.P_mustrun_residual := mod.P_mustrun_residual + mod.P_rcbl_min[k,61];
          end if;
        end for;
        mod.y[mod.merit_order[i]] := max(min(mod.P_rcbl_max[mod.merit_order[i],61], mod.P_load[61] - mod.P_mustrun_residual), mod.P_rcbl_min[mod.merit_order[i],61]);
        mod.P_load[61] := mod.P_load[61] - mod.y[mod.merit_order[i]];
      end if;
    end for;
    for j in 1:60 loop
      for i in 1:2 loop
        mod.P_rcbl_max_back[i] := min(mod.P_max[i], mod.y[i] + mod.P_grad_max_star[i] * mod.P_n[i] * 60.0);
        mod.P_rcbl_min_back[i] := max(mod.P_min[i], mod.y[i] - mod.P_grad_max_star[i] * mod.P_n[i] * 60.0);
      end for;
      for i in 1:2 loop
        if mod.z[i] then
          mod.y[i] := mod.P_min[i];
        else
          mod.y[i] := 0.0;
        end if;
      end for;
      for i in 1:2 loop
        mod.P_mustrun_residual := 0.0;
        if mod.P_load[61 - j] >= 0.0 and mod.z[mod.merit_order[i]] then
          for k in 1:2 loop
            if k <> mod.merit_order[i] and mod.z[k] and mod.C_var[k] >= mod.C_var[mod.merit_order[i]] then
              mod.P_mustrun_residual := mod.P_mustrun_residual + max(mod.P_rcbl_min[k,61 - j], mod.P_rcbl_min_back[k]);
            end if;
          end for;
          mod.y[mod.merit_order[i]] := max({min({mod.P_rcbl_max[mod.merit_order[i],61 - j], mod.P_rcbl_max_back[mod.merit_order[i]], mod.P_load[61 - j] - mod.P_mustrun_residual}), mod.P_rcbl_min_back[mod.merit_order[i]], mod.P_rcbl_min[mod.merit_order[i],61 - j]});
          mod.P_load[61 - j] := mod.P_load[61 - j] - mod.y[mod.merit_order[i]];
        end if;
      end for;
    end for;
    mod.P_max_total := mod.P_rcbl_max[1,1] + mod.P_rcbl_max[2,1];
    mod.P_min_total := mod.P_rcbl_min[1,1] + mod.P_rcbl_min[2,1];
    mod.P_rcbl_min_back_total := mod.P_rcbl_min_back[1] + mod.P_rcbl_min_back[2];
    mod.P_rcbl_max_back_total := mod.P_rcbl_max_back[1] + mod.P_rcbl_max_back[2];
  end when;


Variables:
1: mod.P_rcbl_max[2,56]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
2: mod.P_min[2]:DISCRETE(start = mod.P_min_const[2] unit = \"W\" fixed = true )  type: Real [2]
3: mod.P_rcbl_min[2,60]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
4: mod.P_rcbl_min[2,53]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
5: mod.P_rcbl_max[1,60]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
6: mod.P_rcbl_max[1,1]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
7: mod.P_rcbl_min[1,44]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
8: mod.P_rcbl_max[2,5]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
9: mod.P_rcbl_max[1,18]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
10: mod.P_rcbl_max[2,49]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
11: mod.P_rcbl_min[1,38]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
12: mod.P_rcbl_max[1,9]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
13: mod.P_max[1]:DISCRETE(start = mod.P_max_const[1] unit = \"W\" fixed = true )  type: Real [2]
14: mod.P_max_var[1]:VARIABLE(unit = \"W\" )  type: Real [1]
15: mod.P_rcbl_max[2,42]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
16: mod.P_rcbl_max_back[1]:DISCRETE(unit = \"W\" fixed = true )  \"Max operating point to reach next timestep operating point\" type: Real [2]
17: mod.P_rcbl_max[2,35]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
18: mod.P_rcbl_min[1,41]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
19: mod.P_rcbl_min[2,25]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
20: mod.P_rcbl_min[2,35]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
21: mod.P_load[43]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
22: mod.P_load[31]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
23: mod.P_rcbl_max[2,53]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
24: mod.P_rcbl_max[1,26]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
25: mod.P_rcbl_min[2,23]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
26: mod.P_rcbl_min[2,19]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
27: mod.P_load[15]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
28: mod.P_rcbl_max[1,20]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
29: mod.P_rcbl_min[1,31]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
30: mod.P_rcbl_max[2,30]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
31: mod.P_rcbl_min[1,17]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
32: mod.P_rcbl_max[2,57]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
33: mod.P_rcbl_min[1,7]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
34: mod.P_rcbl_max[1,10]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
35: mod.P_rcbl_min[2,1]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
36: mod.P_rcbl_min[1,56]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
37: mod.P_rcbl_max[2,16]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
38: mod.P_rcbl_min[1,10]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
39: mod.P_rcbl_max[1,42]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
40: mod.P_rcbl_min[1,2]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
41: mod.P_load[21]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
42: mod.P_rcbl_min[2,40]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
43: mod.P_rcbl_min[1,21]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
44: mod.P_load[60]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
45: mod.P_rcbl_max[1,19]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
46: mod.P_rcbl_max[1,43]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
47: mod.P_rcbl_min_back[2]:DISCRETE(unit = \"W\" fixed = true )  \"Min operating point to reach next timestep operating point\" type: Real [2]
48: mod.P_load[45]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
49: mod.P_rcbl_max[1,22]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
50: mod.P_rcbl_max[2,44]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
51: mod.P_rcbl_min[1,27]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
52: mod.P_load[37]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
53: mod.P_rcbl_max[1,8]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
54: mod.P_rcbl_min[1,49]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
55: mod.P_rcbl_max[2,1]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
56: mod.P_rcbl_max[2,9]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
57: mod.P_load[40]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
58: mod.P_rcbl_max[1,40]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
59: mod.P_rcbl_max[2,11]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
60: mod.P_rcbl_min[2,11]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
61: mod.P_load[14]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
62: mod.P_rcbl_max_back[2]:DISCRETE(unit = \"W\" fixed = true )  \"Max operating point to reach next timestep operating point\" type: Real [2]
63: mod.P_rcbl_min[2,28]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
64: mod.P_load[29]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
65: mod.P_rcbl_max[1,23]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
66: mod.P_load[19]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
67: mod.y[2]:DISCRETE(flow=false start = mod.P_init[2] fixed = true )  type: Real [2]
68: mod.P_load[23]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
69: mod.P_rcbl_max[2,46]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
70: mod.P_max_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
71: mod.P_rcbl_max[1,29]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
72: mod.P_load[22]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
73: mod.P_rcbl_min[2,4]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
74: mod.P_load[30]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
75: mod.P_rcbl_min[2,10]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
76: mod.P_rcbl_min[1,24]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
77: mod.P_min[1]:DISCRETE(start = mod.P_min_const[1] unit = \"W\" fixed = true )  type: Real [2]
78: mod.P_min_var[1]:VARIABLE(unit = \"W\" )  type: Real [1]
79: mod.P_load[1]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
80: mod.P_mustrun_residual:DISCRETE(unit = \"W\" fixed = true )  \"Mustrun power of plants that are more expensive than me\" type: Real
81: mod.P_load[49]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
82: mod.P_rcbl_min[2,14]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
83: mod.P_rcbl_min[1,22]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
84: mod.P_rcbl_max[1,14]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
85: mod.P_load[61]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
86: mod.P_rcbl_max[1,48]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
87: mod.P_rcbl_max[1,4]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
88: mod.P_rcbl_max[2,17]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
89: mod.P_rcbl_max[2,20]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
90: mod.P_rcbl_min[2,26]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
91: mod.P_rcbl_min[1,25]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
92: mod.P_rcbl_max[2,2]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
93: mod.P_rcbl_max[1,44]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
94: mod.P_load[6]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
95: mod.P_rcbl_max[1,2]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
96: mod.C_varsorted[1]:VARIABLE()  type: Real [2]
97: $whenCondition5:DISCRETE(fixed = true protected = true )  \"{mod.sampleTrigger}\" type: Boolean unreplaceable
98: mod.P_rcbl_min[1,53]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
99: mod.P_rcbl_min[2,15]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
100: mod.P_rcbl_max[2,23]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
101: mod.P_rcbl_min[2,46]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
102: mod.P_rcbl_max[2,41]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
103: mod.P_rcbl_min[2,30]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
104: mod.P_rcbl_min[1,58]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
105: mod.P_rcbl_max[2,10]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
106: mod.P_rcbl_max[2,31]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
107: mod.P_load[7]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
108: mod.P_min_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
109: mod.P_load[41]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
110: mod.P_rcbl_min[1,42]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
111: mod.P_rcbl_max[1,52]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
112: mod.P_rcbl_max[2,43]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
113: mod.P_0[2]:DISCRETE(unit = \"W\" fixed = true )  \"Current operating point\" type: Real [2]
114: mod.P_rcbl_min_back_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
115: mod.P_rcbl_max[1,30]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
116: mod.P_load[27]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
117: mod.P_rcbl_min[2,6]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
118: mod.P_rcbl_min[1,28]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
119: mod.P_rcbl_min[1,20]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
120: mod.P_rcbl_min[1,50]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
121: mod.P_rcbl_min[1,29]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
122: mod.P_rcbl_max[1,34]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
123: mod.P_rcbl_max[1,11]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
124: mod.P_rcbl_max[1,7]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
125: mod.P_rcbl_min[2,57]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
126: mod.P_rcbl_min[2,59]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
127: mod.P_rcbl_min[1,48]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
128: mod.P_rcbl_min_back[1]:DISCRETE(unit = \"W\" fixed = true )  \"Min operating point to reach next timestep operating point\" type: Real [2]
129: mod.P_rcbl_min[1,30]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
130: mod.P_rcbl_max[2,15]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
131: mod.P_rcbl_max[1,51]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
132: mod.P_rcbl_min[1,5]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
133: mod.P_rcbl_min[1,14]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
134: mod.P_rcbl_min[1,32]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
135: mod.P_rcbl_min[2,47]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
136: mod.P_rcbl_min[1,23]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
137: mod.P_rcbl_min[1,51]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
138: mod.P_rcbl_max[2,45]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
139: mod.P_rcbl_max[2,28]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
140: mod.P_rcbl_max[1,61]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
141: mod.P_0[1]:DISCRETE(unit = \"W\" fixed = true )  \"Current operating point\" type: Real [2]
142: mod.P_load[55]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
143: mod.P_load[3]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
144: mod.P_load[18]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
145: mod.P_rcbl_max[2,58]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
146: mod.P_load[5]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
147: mod.P_rcbl_min[1,3]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
148: mod.y[1]:DISCRETE(flow=false start = mod.P_init[1] fixed = true )  type: Real [2]
149: mod.P_load[24]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
150: mod.P_rcbl_min[1,39]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
151: mod.P_rcbl_min[1,59]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
152: mod.P_rcbl_min[1,6]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
153: mod.P_load[2]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
154: mod.P_load[11]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
155: mod.P_rcbl_max[2,34]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
156: mod.P_rcbl_max[2,48]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
157: mod.P_rcbl_max[2,25]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
158: mod.P_rcbl_max[1,35]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
159: mod.P_rcbl_max[1,21]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
160: mod.P_rcbl_max[2,47]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
161: mod.P_rcbl_max[1,17]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
162: mod.P_load[53]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
163: mod.P_rcbl_min[1,54]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
164: mod.P_rcbl_max[2,12]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
165: mod.P_load[10]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
166: mod.P_rcbl_max[2,4]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
167: mod.P_rcbl_max[1,6]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
168: mod.P_rcbl_min[2,51]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
169: mod.P_rcbl_max[1,57]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
170: mod.P_rcbl_max[2,3]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
171: mod.P_rcbl_max[1,54]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
172: mod.P_rcbl_min[2,36]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
173: mod.P_load[44]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
174: mod.P_load[34]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
175: mod.P_rcbl_max[1,12]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
176: mod.P_max[2]:DISCRETE(start = mod.P_max_const[2] unit = \"W\" fixed = true )  type: Real [2]
177: mod.P_rcbl_min[1,4]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
178: mod.P_rcbl_min[2,55]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
179: mod.P_rcbl_min[2,2]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
180: mod.P_load[26]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
181: mod.P_rcbl_min[2,58]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
182: mod.P_load[17]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
183: mod.P_rcbl_max[1,31]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
184: mod.P_rcbl_min[2,16]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
185: mod.P_rcbl_max[2,37]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
186: mod.P_rcbl_max[1,24]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
187: mod.P_rcbl_max[1,27]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
188: mod.P_load[35]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
189: mod.P_rcbl_min[1,16]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
190: mod.P_rcbl_min[1,34]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
191: mod.P_rcbl_min[1,8]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
192: mod.P_rcbl_max[2,32]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
193: mod.P_rcbl_min[2,8]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
194: mod.P_rcbl_min[2,61]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
195: mod.P_rcbl_min[1,57]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
196: mod.P_load[28]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
197: mod.P_rcbl_min[2,54]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
198: mod.P_rcbl_max[1,15]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
199: mod.P_rcbl_min[1,52]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
200: mod.P_rcbl_min[1,45]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
201: mod.P_load[58]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
202: mod.C_varsorted[2]:VARIABLE()  type: Real [2]
203: mod.P_rcbl_max[1,13]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
204: mod.P_rcbl_max[1,3]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
205: mod.P_rcbl_min[1,15]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
206: mod.P_rcbl_max[1,49]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
207: mod.P_load[42]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
208: mod.P_rcbl_max[2,40]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
209: mod.P_rcbl_max[2,61]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
210: mod.P_rcbl_max[1,38]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
211: mod.P_load[9]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
212: mod.P_rcbl_max[2,29]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
213: mod.P_rcbl_min[2,33]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
214: mod.P_load[56]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
215: mod.P_load[4]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
216: mod.P_rcbl_max[2,54]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
217: mod.P_load[47]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
218: mod.P_rcbl_min[2,39]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
219: mod.P_rcbl_min[2,24]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
220: mod.P_rcbl_max[2,50]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
221: mod.P_rcbl_max[2,33]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
222: mod.P_rcbl_max[2,14]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
223: mod.P_rcbl_min[2,44]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
224: mod.P_rcbl_max[1,46]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
225: mod.P_rcbl_max[1,39]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
226: mod.P_rcbl_min[1,43]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
227: mod.P_rcbl_max[1,16]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
228: mod.P_rcbl_min[1,36]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
229: mod.P_rcbl_max[2,55]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
230: mod.P_rcbl_min[2,3]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
231: mod.P_rcbl_min[2,49]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
232: mod.P_load[39]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
233: mod.P_rcbl_max[1,47]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
234: mod.P_rcbl_min[1,37]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
235: mod.P_rcbl_max[1,5]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
236: mod.P_rcbl_min[1,26]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
237: mod.P_rcbl_min[1,33]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
238: mod.P_rcbl_min[1,19]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
239: mod.P_rcbl_max[1,50]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
240: mod.P_rcbl_max[2,8]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
241: mod.P_load[36]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
242: mod.P_rcbl_max[1,33]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
243: mod.P_load[54]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
244: mod.P_rcbl_min[2,32]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
245: mod.P_load[59]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
246: mod.P_rcbl_min[1,47]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
247: $whenCondition4:DISCRETE(fixed = true protected = true )  \"{initial()}\" type: Boolean unreplaceable
248: mod.P_rcbl_max[1,37]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
249: mod.P_rcbl_min[1,11]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
250: mod.P_load[8]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
251: mod.P_rcbl_max[2,24]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
252: mod.P_rcbl_max[2,22]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
253: mod.P_rcbl_min[2,48]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
254: mod.P_rcbl_min[1,12]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
255: mod.P_rcbl_min[1,13]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
256: mod.P_rcbl_min[2,41]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
257: mod.P_load[51]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
258: mod.P_rcbl_min[1,55]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
259: mod.P_rcbl_min[1,46]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
260: mod.P_rcbl_min[1,35]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
261: mod.P_rcbl_max[2,7]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
262: mod.P_rcbl_min[2,27]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
263: mod.P_rcbl_min[2,56]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
264: mod.merit_order[1]:DISCRETE()  type: Integer [2]
265: mod.P_rcbl_min[1,40]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
266: mod.P_rcbl_max[1,41]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
267: mod.P_rcbl_max[2,52]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
268: mod.P_load[48]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
269: mod.P_rcbl_max[2,36]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
270: mod.P_rcbl_min[2,17]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
271: mod.P_rcbl_min[2,31]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
272: mod.P_rcbl_max_back_total:DISCRETE(unit = \"W\" fixed = true )  type: Real
273: mod.P_rcbl_min[2,37]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
274: mod.P_rcbl_min[1,61]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
275: mod.P_rcbl_max[2,21]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
276: mod.P_rcbl_min[1,18]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
277: mod.P_rcbl_max[2,60]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
278: mod.P_rcbl_min[2,18]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
279: mod.P_rcbl_min[2,7]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
280: mod.P_load[12]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
281: mod.P_rcbl_min[1,1]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
282: mod.P_rcbl_min[2,22]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
283: mod.P_rcbl_min[1,60]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
284: mod.P_rcbl_max[2,51]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
285: mod.P_rcbl_max[2,26]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
286: mod.P_rcbl_max[2,59]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
287: mod.P_load[57]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
288: mod.P_rcbl_max[1,36]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
289: mod.P_rcbl_min[2,50]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
290: mod.P_rcbl_max[2,19]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
291: mod.P_rcbl_min[2,12]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
292: mod.P_rcbl_max[1,59]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
293: mod.P_load[50]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
294: mod.P_load[46]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
295: mod.P_load[13]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
296: mod.P_rcbl_max[2,13]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
297: mod.P_rcbl_max[1,28]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
298: mod.P_rcbl_max[1,25]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
299: mod.P_load[25]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
300: mod.P_rcbl_max[2,38]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
301: mod.P_rcbl_min[2,34]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
302: mod.P_rcbl_max[1,58]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
303: mod.P_rcbl_min[2,42]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
304: mod.merit_order[2]:DISCRETE()  type: Integer [2]
305: mod.P_rcbl_max[1,56]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
306: mod.P_rcbl_max[2,27]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
307: mod.P_rcbl_min[2,52]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
308: mod.P_load[38]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
309: mod.P_rcbl_min[2,9]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
310: mod.P_rcbl_min[2,43]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
311: mod.P_rcbl_max[1,45]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
312: mod.P_rcbl_max[1,32]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
313: mod.P_load[52]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
314: mod.P_rcbl_min[2,21]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
315: mod.P_rcbl_min[1,9]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
316: mod.P_rcbl_max[2,18]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
317: mod.P_rcbl_min[2,5]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
318: mod.P_rcbl_min[2,13]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
319: mod.P_load[33]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
320: mod.P_load[16]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
321: mod.P_rcbl_max[2,39]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
322: mod.P_rcbl_max[1,53]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
323: mod.P_load[32]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
324: mod.P_rcbl_min[2,20]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
325: mod.P_load[20]:DISCRETE(unit = \"W\" fixed = true )  type: Real [61]
326: mod.P_rcbl_min[2,45]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
327: mod.P_rcbl_max[2,6]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
328: mod.P_rcbl_min[2,29]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
329: mod.P_rcbl_min[2,38]:DISCRETE(unit = \"W\" fixed = true )  \"Min reachable operating point\" type: Real [2,61]
330: mod.P_rcbl_max[1,55]:DISCRETE(unit = \"W\" fixed = true )  \"Max reachable operating point\" type: Real [2,61]
[/var/lib/jenkins1/ws/OpenModelicaLibraryTestingWork/OpenModelica/OMCompiler/Compiler/BackEnd/BackendDAEUtil.mo:9824:5-9825:77:writable] Error: Internal error BackendDAEUtil.traverseEqSystemStrongComponents failed with function:
omc_DAEMode_traverserStrongComponents
Notification: Performance of <failed> postOpt createDAEmodeBDAE (simulation): time 0.01135/2.119, allocations: 29.84 MB / 3.555 GB, free: 334.9 MB / 1.608 GB
Error: post-optimization module createDAEmodeBDAE (simulation) failed.
Error: Internal error SimCode DAEmode: The model TransiEnt.Grid.Electrical.EconomicDispatch.Check.TestMeritOrderDispatcher could not be translated
"
[Timeout remaining time 658]
[Calling sys.exit(0), Time elapsed: 14.537685507093556]
Failed to read output from testmodel.py, exit status != 0:
2.4572572798933834 2.4660626469999998 1.864132554
Calling exit ...
<OMPython.OMCSessionZMQ object at 0x7f2c96ba9810>