OpenModelica oldInst from 2021-08-18 20:25:14 to 2021-08-19 20:29:34

Summary

OMC Commits4
Libraries Changed0
Number of Improvements101
Number of Regressions2
Number of Performance Improvements8
Number of Performance Regressions9

OpenModelica Changes

CommitAuthorSummary
c805cd56e6Mahder GebremedhinLink to libOpenModelicaRuntimeC (#7782)
ec5d97160fMahder GebremedhinAllow repetition of simulation flags. (#7784)
78435df840perostImprove handling of conditional components (#7783)
db83ff0e27arun3688improve error message for computing boundary condition (#7781)

Library Changes

LibraryChange

Models Affected

AESAES.Coursework.ElecSys_PwrFreq_control.BO_rigid_Islanded_generator (sim)Compile → Simulate
AESAES.Coursework.ElecSys_PwrFreq_control.BO_rigid_two_generators_PriSec (sim)Compile → Simulate
AESAES.Coursework.ElecSys_PwrFreq_control.PA_islanded_generator_loadDroop (sim)Compile → Simulate
AESAES.Coursework.ElecSys_PwrFreq_control.PA_two_generators_loadDroop (sim)Compile → Simulate
AESAES.Coursework.ElecSys_generator_models.BoilerFollows (sim)Compile → Simulate
AESAES.Coursework.ElecSys_generator_models.SlidingPressure (sim)Compile → Simulate
AESAES.Coursework.ElecSys_generator_models.TurbineFollows (sim)Compile → Simulate
AESAES.Coursework.Modelling_principles.M1_TimeDomain (sim)Compile → Simulate
AESAES.Coursework.Modelling_principles.M2_PhasorDomain (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.AHU_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.AHU_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.AHU_control_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.AHU_control_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.AHU_control_case_003 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.HP_heater_DaisyChain_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.HP_test_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.HP_test_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.HP_test_case_003 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.Hcentral_control_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.Hcentral_control_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.Heater_control_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.Heater_control_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.Heater_control_case_003 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Generation.Heater_control_case_004 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.HE_simple_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.HE_simple_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.HE_simple_case_003 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.Stratified_storage_tank_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.Stratified_storage_tank_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.Stratified_storage_tank_case_003 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.Valve_linearisation_case_001 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.Valve_linearisation_case_002 (sim)Compile → Simulate
AESAES.Coursework.ThermSys_Transport.Valve_linearisation_case_003 (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.Exploiting_2dof (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.IMC_scheme_1dof (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.IMC_scheme_2dof (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.MSL_electrical_thermal_OpenLoop (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.MSL_electrical_thermal_control (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.MSL_loop_2dof_noise (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.MSL_loop_SPtimeTable (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.MSL_loop_base (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.PI_loop_analogue_compare2 (sim)Compile → Simulate
AESAES.Coursework.Tuning_brushup.PI_loop_analogue_digital (sim)Compile → Simulate
AESAES.Coursework.Typical_actuation_schemes.DaisyChain (sim)Compile → Simulate
AESAES.Coursework.Typical_actuation_schemes.SplitRange_cascadeLoops (sim)Compile → Simulate
AESAES.Coursework.Typical_actuation_schemes.SplitRange_equalising (sim)Compile → Simulate
AESAES.Coursework.Typical_actuation_schemes.SplitRange_standard (sim)Compile → Simulate
AESAES.Coursework.Typical_actuation_schemes.TimeDivisionOutput (sim)Compile → Simulate
AESAES.Coursework.Typical_control_structures.Cascade_with_locks (sim)Compile → Simulate
AESAES.Coursework.Typical_control_structures.Decoupling (sim)Compile → Simulate
AESAES.Coursework.Typical_control_structures.FF_compensation (sim)Compile → Simulate
AESAES.Coursework.Typical_control_structures.FF_compensation_with_delay (sim)Compile → Simulate
AESAES.Coursework.Typical_control_structures.Keep_below_limit (sim)Compile → Simulate
AESAES.Coursework.Typical_control_structures.Keep_within_two_limits (sim)Compile → Simulate
AESAES.Coursework.Typical_control_structures.Main_dynamics_in_FB_path (sim)Compile → Simulate
AESAES.Devel_test_models.Test_AHU_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_HE_LiquidLiquid_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_HP_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_HP_002 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_HSrecycle_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_SR01 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_air_circ_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_air_circ_002 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_air_circ_003 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_expansion_vessel_isoT_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_header_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_header_002 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_002 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_003 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_004 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_005 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_006 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_008_net02 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_liquid_circuit_009_net03 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_stank_001 (sim)Compile → Simulate
AESAES.Devel_test_models.Test_stank_002 (sim)Compile → Simulate
AESAES.ProcessComponents.Thermal.Liquid.LumpedPlanarWall (sim)Compile → Simulate
AESAES.ProcessComponents.Thermal.Liquid.TubeWall (sim)Compile → Simulate
BuildingSystemsBuildingSystems.Fluid.Geothermal.Borefields.BaseClasses.HeatTransfer.ThermalResponseFactors.Validation.CylindricalHeatSource (sim)Compile → Simulate
Buildings_7.0.0Buildings.Obsolete.Utilities.IO.Python27.Functions.Examples.Exchange (sim)Simulate → Compile
Buildings_8.0.0Buildings.Obsolete.Utilities.IO.Python27.Functions.Examples.Exchange (sim)Simulate → Compile
HanserModelicaHanserModelica.InductionMachines.IMC_Transformer (sim)Compile → Simulate
HanserModelicaHanserModelica.InductionMachines.IMC_YD (sim)Compile → Simulate
Modelica_3.2.3_cppModelica.Electrical.Machines.Examples.Transformers.AIMC_Transformer (sim)Simulate performance 23.25 → 4.60
Modelica_3.2.3_cppModelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2Pulse.ThyristorBridge2Pulse_DC_Drive (sim)Simulate performance 34.56 → 11.44
Modelica_3.2.3_cppModelica.Electrical.PowerConverters.Examples.ACDC.RectifierBridge2mPulse.ThyristorBridge2mPulse_RLV_Characteristic (sim)Simulate performance 0:01:11 → 16.71
Modelica_3.2.3_cppModelica.Electrical.PowerConverters.Examples.ACDC.RectifierCenterTap2mPulse.ThyristorCenterTap2mPulse_RLV_Characteristic (sim)Simulate performance 0:01:03 → 14.26
Modelica_3.2.3_cppModelica.Electrical.PowerConverters.Examples.ACDC.RectifierCenterTapmPulse.ThyristorCenterTapmPulse_RLV_Characteristic (sim)Simulate performance 37.48 → 6.49
Modelica_3.2.3_cppModelica.Electrical.PowerConverters.Examples.DCAC.MultiPhaseTwoLevel.MultiPhaseTwoLevel_RL (sim)Simulate performance 10.89 → 3.35
Modelica_3.2.3_cppModelica.Magnetic.FundamentalWave.Examples.BasicMachines.SMEE_DOL (sim)Simulate performance 49.15 → 12.55
Modelica_3.2.3_cppModelica.Magnetic.FundamentalWave.Examples.BasicMachines.SMEE_Rectifier (sim)Simulate performance 37.21 → 18.99
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.InductionMachines.IMC_Conveyor (sim)Simulate performance 0:02:05 → 0:04:20
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.InductionMachines.IMC_Initialize (sim)Simulate performance 0:01:29 → 0:04:03
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.InductionMachines.IMC_withLosses (sim)Simulate performance 0:01:31 → 0:03:54
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.InductionMachines.IMS_Start (sim)Simulate performance 10.25 → 0:02:05
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.SynchronousMachines.SMEE_Generator (sim)Simulate performance 13.08 → 0:01:20
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.SynchronousMachines.SMPM_CurrentSource (sim)Simulate performance 5.32 → 0:01:44
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.SynchronousMachines.SMPM_Mains (sim)Simulate performance 2.30 → 55.60
Modelica_3.2.3_cppModelica.Magnetic.QuasiStatic.FundamentalWave.Examples.BasicMachines.SynchronousMachines.SMR_CurrentSource (sim)Simulate performance 9.71 → 0:01:16
Modelica_DeviceDriversModelica_DeviceDrivers.Blocks.Examples.TestSerialPackager_UDPWithoutReceiveThread (sim)Compile → Simulate
OpenIPSLOpenIPSL.Examples.ThreePhase.IEEE13 (sim)Simulate performance 39.70 → 0:01:14
PhotoVoltaicsPhotoVoltaics.Examples.SimpleCell (sim)Compile → Simulate
PhotoVoltaicsPhotoVoltaics.Examples.SimpleCellIrradianceCharacteristic (sim)Compile → Simulate
PhotoVoltaicsPhotoVoltaics.Examples.SimpleCellTemperatureCharacteristic (sim)Compile → Simulate
PhotoVoltaicsPhotoVoltaics.Examples.SimpleCellVoltageSource (sim)Compile → Simulate
PhotoVoltaicsPhotoVoltaics.Examples.SimpleModule (sim)Compile → Simulate
PhotoVoltaicsPhotoVoltaics.Examples.SimpleModuleSymmetric (sim)Compile → Simulate
PhotoVoltaicsPhotoVoltaics.Examples.SimplePlantSymmetric (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestDerivativeLag (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestFirstOrderWithNonWindupLimiter (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestIntegratorWithNonWindupLimiter (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestLeadLag (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestLeadLagWithNonWindupLimiter (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestLeadMOrderLag (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestPIWithNonWindupLimiter (sim)Compile → Simulate
PowerGridsPowerGrids.Controls.Test.TestRampTrackingFilter (sim)Compile → Simulate
PowerGridsPowerGrids.Electrical.Test.TestExciterRectifierRegulationCharacteristicIEEE (sim)Compile → Simulate
PowerGridsPowerGrids.Electrical.Test.TestExciterVoltageTransducerIEEE (sim)Compile → Simulate
PowerGridsPowerGrids.Electrical.Test.TestTerminalVoltageTransducerIEEE (sim)Compile → Simulate