Environment - simulationEnvironment:
startTime=0
stopTime=400000
tolerance=1e-06
numberOfIntervals=2500
stepSize=160
Regular simulation: ./Buildings_11_Buildings.DHC.Loads.BaseClasses.Validation.FlowDistributionPumpControl  -abortSlowSimulation -alarm=400  -emit_protected -lv LOG_STATS
LOG_STDOUT        | info    | ... loading "tab1" from "/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 11.1.1-maint.11.x/Resources/Data/DHC/Loads/Examples/SwissResidential_20190916.mos"
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_STDOUT        | warning | Non-Linear Solver try to handle a problem with a called assert.
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | debug   | Division by zero roughness / diameter in function context
LOG_ASSERT        | warning | [/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 11.1.1-maint.11.x/Fluid/Movers/BaseClasses/PowerInterface.mo:46:3-47:27:writable]
|                 | |       | The following assertion has been violated at time 0.000000
|                 | |       | ((pumCstSpe.heaDis.etaHyd >= 0.0)) --> "Variable violating min constraint: 0.0 <= pumCstSpe.heaDis.etaHyd, has value: -224.16"
LOG_ASSERT        | warning | [/home/hudson/saved_omc/libraries/.openmodelica/libraries/Buildings 11.1.1-maint.11.x/Fluid/Movers/BaseClasses/PartialFlowMachine.mo:99:3-99:89:writable]
|                 | |       | The following assertion has been violated at time 0.000000
|                 | |       | ((pumCstSpe.etaHyd >= 0.0)) --> "Variable violating min constraint: 0.0 <= pumCstSpe.etaHyd, has value: -0.00224129"
LOG_SUCCESS       | info    | The initialization finished successfully with 3 homotopy steps.
LOG_STATS         | info    | ### STATISTICS ###
|                 | |       | | timer
|                 | |       | | |     0.261246s          reading init.xml
|                 | |       | | |    0.0203004s          reading info.xml
|                 | |       | | |   0.00753343s [  0.5%] pre-initialization
|                 | |       | | |    0.0353461s [  2.3%] initialization
|                 | |       | | |   0.00107514s [  0.1%] steps
|                 | |       | | |    0.0375057s [  2.5%] solver (excl. callbacks)
|                 | |       | | |    0.0198496s [  1.3%] creating output-file
|                 | |       | | |   0.00482045s [  0.3%] event-handling
|                 | |       | | |    0.0315923s [  2.1%] overhead
|                 | |       | | |      1.36961s [ 90.9%] simulation
|                 | |       | | |      1.50733s [100.0%] total
|                 | |       | | events
|                 | |       | | |     0 state events
|                 | |       | | |     0 time events
|                 | |       | | solver: dassl
|                 | |       | | |  4633 steps taken
|                 | |       | | |  7552 calls of functionODE
|                 | |       | | |   950 evaluations of jacobian
|                 | |       | | |   524 error test failures
|                 | |       | | |     0 convergence test failures
|                 | |       | | | 0.636913s time of jacobian evaluation
LOG_SUCCESS       | info    | The simulation finished successfully.