Error report for Modelica.Fluid.Examples.BranchingDynamicPipes

Compiler arguments:
-log=i,w|xml|stderr -opt=max_n_proc:1 -target=me -version=1.0 -platform=win32 -out=. -modelicapath=C:\JModelica.org-1.16\install\ThirdParty\MSL c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica Modelica.Fluid.Examples.BranchingDynamicPipes
Current working directory:
C:\Users\tove_021
Compiler version: 1.16
Java version: 1.7.0_15
MODELICAPATH =
JAVA_HOME = C:\JModelica.org-1.16\Java\jre7
JMODELICA_HOME = C:\JModelica.org-1.16\install
======= Compiling model =======
Parsing c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\package.mo...
Checking for errors...
MODELICAPATH = C:\JModelica.org-1.16\install\ThirdParty\MSL
extra_lib_dirs =
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\ComplexBlocks.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\ComplexMath.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Constants.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Electrical\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Icons.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Magnetic\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Math\package.mo
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Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\SIunits.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\StateGraph.mo
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Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Dissipation.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Fittings.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Icons.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Interfaces.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Machines.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Sensors.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Sources.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\System.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Types.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Utilities.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Valves.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Vessels.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\AST_BatchPlant.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\BranchingDynamicPipes.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\ControlledTankSystem.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\DrumBoiler.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\Explanatory.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\HeatExchanger.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\HeatingSystem.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\IncompressibleFluidNetwork.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\InverseParameterization.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\NonCircularPipes.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\PumpingSystem.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\Tanks.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Examples\TraceSubstances.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Continuous.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Discrete.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Icons.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Interaction.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Interfaces.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Logical.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Math.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\MathBoolean.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\MathInteger.mo
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Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Routing.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Blocks\Sources.mo
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Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Thermal\FluidHeatFlow.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Thermal\HeatTransfer.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Air\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\CompressibleLiquids.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Incompressible.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\R134a.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Water\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Air\DryAirNasa.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Air\MoistAir.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Air\ReferenceAir.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Air\ReferenceMoistAir.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\Air\SimpleAir.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\Common\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\MixtureGases.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\SingleGases.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\Common\FluidData.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\Common\Functions.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\Common\SingleGasesData.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Math\BooleanVectors.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Math\isPowerOf2.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Math\Nonlinear.mo
Reading file: C:\JModelica.org-1.16\install\ThirdParty\MSL\ModelicaServices\package.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\Examples.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\Files.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\Internal.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\Streams.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\Strings.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\System.mo
Reading file: c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\Types.mo
Warning at line 223, column 47, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Interfaces.mo':
The component allowFlowReversal is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 227, column 59, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Interfaces.mo':
The component port_a is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 234, column 28, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Interfaces.mo':
The component port_b is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 242, column 11, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Interfaces.mo':
The component port_a_exposesState is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 244, column 61, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Interfaces.mo':
The component port_b_exposesState is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 246, column 63, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Interfaces.mo':
The component showDesignFlowDirection is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 312, column 80, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The component nParallel is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 1015, column 92, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The component allowFlowReversal is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 1020, column 107, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The component momentumDynamics is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 1023, column 109, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The component m_flow_start is declared multiple times and can not be verified to be identical to other declaration(s) with the same name.
Warning at line 1219, column 75, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe1.flowModel.dp_nominal does not have a binding expression
Warning at line 1219, column 75, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe2.flowModel.dp_nominal does not have a binding expression
Warning at line 1219, column 75, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe3.flowModel.dp_nominal does not have a binding expression
Warning at line 1219, column 75, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe4.flowModel.dp_nominal does not have a binding expression
Warning at line 1229, column 15, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe1.flowModel.dp_small does not have a binding expression
Warning at line 1229, column 15, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe2.flowModel.dp_small does not have a binding expression
Warning at line 1229, column 15, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe3.flowModel.dp_small does not have a binding expression
Warning at line 1229, column 15, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Pipes.mo':
The parameter pipe4.flowModel.dp_small does not have a binding expression
Warning at line 794, column 14, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Sources.mo':
The cardinality() function-like operator is deprecated, and will be removed in a future version of Modelica
Warning at line 7, column 36, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Utilities.mo':
String arguments in functions are only partially supported
Warning at line 8, column 28, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Utilities.mo':
String arguments in functions are only partially supported
Warning at line 12, column 29, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Utilities.mo':
String arguments in functions are only partially supported
Warning at line 15, column 36, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Fluid\Utilities.mo':
String arguments in functions are only partially supported
Warning at line 8, column 32, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\Common\package.mo':
String arguments in functions are only partially supported
Warning at line 8, column 32, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\IdealGases\Common\package.mo':
String parameters are only partially supported
Warning at line 4426, column 64, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\package.mo':
String parameters are only partially supported
Warning at line 4427, column 76, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\package.mo':
String parameters are only partially supported
Warning at line 4429, column 96, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Media\package.mo':
String parameters are only partially supported
Warning at line 126, column 36, in file 'c:\JModelica.org-1.16\install\ThirdParty\MSL\Modelica\Utilities\Streams.mo':
String arguments in functions are only partially supported
Flattening model...
Applying transformation: enableIfEquationElimination...
Applying transformation: genBindingAssignments...
Applying transformation: scalarize...
Applying transformation: MakeReinitedVarsStates...
Applying transformation: enableIfEquationElimination...
Applying transformation: enableStreamsRewrite...
Applying transformation: extractEventGeneratingExps...
Applying transformation: transformAlgorithms...
Applying transformation: enableWhenClauseRewrite...
Applying transformation: extractSampleExpressions...
Applying transformation: genInitArrayStatements...
Applying transformation: FunctionInliningIfSet...
Applying transformation: setFDerivativeVariables...
Applying transformation: addFPreVariables...
Applying transformation: enableIfEquationRewrite...
Applying transformation: aliasEliminationIfSet...
Applying transformation: variabilityPropagationIfSet...
Applying transformation: aliasEliminationIfSet...
Applying transformation: evaluateAsserts...
Applying transformation: enableSemiLinearRewrite...
Applying transformation: eliminateEqualSwitches...
Applying transformation: genInitialEquations...
Applying transformation: setFDerivativeVariablesPreBLT...
Applying transformation: propagateNonFixedParameters...
Applying transformation: indexReduction...
Applying transformation: aliasEliminationIfSet...
Applying transformation: setFDerivativeVariables...
States:
Modelica.Media.Air.MoistAir.MassFlowRate pipe1.flowModel.m_flows[1](min = -1.0E60,max = 1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe1.flowModel.m_flows[2](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe1.flowModel.m_flows[3](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe1.flowModel.m_flows[4](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe1.flowModel.m_flows[5](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe1.flowModel.m_flows[6](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.Temperature pipe1.mediums[1].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe1.mediums[2].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe1.mediums[3].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe1.mediums[4].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe1.mediums[5].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputAbsolutePressure pipe1.mediums[1].p(start = pipe1.ps_start[1],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputAbsolutePressure pipe1.mediums[2].p(start = pipe1.ps_start[2],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputAbsolutePressure pipe1.mediums[3].p(start = pipe1.ps_start[3],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputAbsolutePressure pipe1.mediums[4].p(start = pipe1.ps_start[4],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputAbsolutePressure pipe1.mediums[5].p(start = pipe1.ps_start[5],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputMassFraction pipe1.mediums[1].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputMassFraction pipe1.mediums[2].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputMassFraction pipe1.mediums[3].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputMassFraction pipe1.mediums[4].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe1.mediums.mediums.InputMassFraction pipe1.mediums[5].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Media.Air.MoistAir.MassFlowRate pipe2.flowModel.m_flows[1](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe2.flowModel.m_flows[2](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe2.flowModel.m_flows[3](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe2.flowModel.m_flows[4](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.Temperature pipe2.mediums[1].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe2.mediums[2].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe2.mediums[3].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe2.mediums[4].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe2.mediums[5].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputAbsolutePressure pipe2.mediums[1].p(start = pipe2.ps_start[1],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputAbsolutePressure pipe2.mediums[2].p(start = pipe2.ps_start[2],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputAbsolutePressure pipe2.mediums[3].p(start = pipe2.ps_start[3],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputAbsolutePressure pipe2.mediums[4].p(start = pipe2.ps_start[4],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputAbsolutePressure pipe2.mediums[5].p(start = pipe2.ps_start[5],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputMassFraction pipe2.mediums[1].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputMassFraction pipe2.mediums[2].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputMassFraction pipe2.mediums[3].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputMassFraction pipe2.mediums[4].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe2.mediums.mediums.InputMassFraction pipe2.mediums[5].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Media.Air.MoistAir.MassFlowRate pipe3.flowModel.m_flows[1](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe3.flowModel.m_flows[2](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe3.flowModel.m_flows[3](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe3.flowModel.m_flows[4](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe3.flowModel.m_flows[5](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe3.flowModel.m_flows[6](min = -1.0E60,start = 0.01,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.Temperature pipe3.mediums[1].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe3.mediums[2].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe3.mediums[3].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe3.mediums[4].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe3.mediums[5].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputAbsolutePressure pipe3.mediums[1].p(start = pipe3.ps_start[1],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputAbsolutePressure pipe3.mediums[2].p(start = pipe3.ps_start[2],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputAbsolutePressure pipe3.mediums[3].p(start = pipe3.ps_start[3],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputAbsolutePressure pipe3.mediums[4].p(start = pipe3.ps_start[4],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputAbsolutePressure pipe3.mediums[5].p(start = pipe3.ps_start[5],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputMassFraction pipe3.mediums[1].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputMassFraction pipe3.mediums[2].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputMassFraction pipe3.mediums[3].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputMassFraction pipe3.mediums[4].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe3.mediums.mediums.InputMassFraction pipe3.mediums[5].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Media.Air.MoistAir.MassFlowRate pipe4.flowModel.m_flows[1](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe4.flowModel.m_flows[2](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe4.flowModel.m_flows[3](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe4.flowModel.m_flows[4](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe4.flowModel.m_flows[5](min = -1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.MassFlowRate pipe4.flowModel.m_flows[6](min = -1.0E60,max = 1.0E60,start = 0.02,stateSelect = StateSelect.prefer) "mass flow rates between states"
Modelica.Media.Air.MoistAir.Temperature pipe4.mediums[1].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe4.mediums[2].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe4.mediums[3].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe4.mediums[4].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Media.Air.MoistAir.Temperature pipe4.mediums[5].T(start = 293.15,stateSelect = StateSelect.prefer,min = 190,max = 647) "Temperature of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputAbsolutePressure pipe4.mediums[1].p(start = pipe4.ps_start[1],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputAbsolutePressure pipe4.mediums[2].p(start = pipe4.ps_start[2],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputAbsolutePressure pipe4.mediums[3].p(start = pipe4.ps_start[3],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputAbsolutePressure pipe4.mediums[4].p(start = pipe4.ps_start[4],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputAbsolutePressure pipe4.mediums[5].p(start = pipe4.ps_start[5],stateSelect = StateSelect.prefer,min = 0,max = 1.0E8) "Absolute pressure of medium"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputMassFraction pipe4.mediums[1].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputMassFraction pipe4.mediums[2].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputMassFraction pipe4.mediums[3].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputMassFraction pipe4.mediums[4].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"
Modelica.Fluid.Examples.BranchingDynamicPipes.pipe4.mediums.mediums.InputMassFraction pipe4.mediums[5].Xi[1](start = 0.01,stateSelect = StateSelect.prefer,nominal = 0.1) "Structurally independent mass fractions"

Applying transformation: LateFunctionInliningIfSet...
Applying transformation: addFPreVariables...
Applying transformation: aliasEliminationIfSet...
Applying transformation: sortDependentParameters...
Applying transformation: addRuntimeOptionParameters...
Applying transformation: computeMatchingsAndBLT...
Warning in flattened model:
Iteration variable "der(pipe1.mediums[1].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[1].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[2].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[2].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[3].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[3].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[4].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[4].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[5].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe1.mediums[5].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[1].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[1].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[2].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[2].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[3].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[3].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[4].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[4].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[5].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe2.mediums[5].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[1].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[1].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[2].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[2].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[3].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[3].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[4].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[4].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[5].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe3.mediums[5].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[1].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[1].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[2].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[2].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[3].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[3].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[4].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[4].p)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[5].T)" is missing start value!
Warning in flattened model:
Iteration variable "der(pipe4.mediums[5].p)" is missing start value!
Warning in flattened model:
Unable to use dynamic states since there are too big sets. Using static states instead
Generating code...
====== Model compiled successfully =======

Compiling...
... elapsed time: 27.91s
Loading...
States: ['pipe1.flowModel.m_flows[1]', 'pipe1.flowModel.m_flows[2]', 'pipe1.flowModel.m_flows[3]', 'pipe1.flowModel.m_flows[4]', 'pipe1.flowModel.m_flows[5]', 'pipe1.flowModel.m_flows[6]', 'pipe1.mediums[1].T', 'pipe1.mediums[2].T', 'pipe1.mediums[3].T', 'pipe1.mediums[4].T', 'pipe1.mediums[5].T', 'pipe1.mediums[1].p', 'pipe1.mediums[2].p', 'pipe1.mediums[3].p', 'pipe1.mediums[4].p', 'pipe1.mediums[5].p', 'pipe1.mediums[1].Xi[1]', 'pipe1.mediums[2].Xi[1]', 'pipe1.mediums[3].Xi[1]', 'pipe1.mediums[4].Xi[1]', 'pipe1.mediums[5].Xi[1]', 'pipe2.flowModel.m_flows[1]', 'pipe2.flowModel.m_flows[2]', 'pipe2.flowModel.m_flows[3]', 'pipe2.flowModel.m_flows[4]', 'pipe2.mediums[1].T', 'pipe2.mediums[2].T', 'pipe2.mediums[3].T', 'pipe2.mediums[4].T', 'pipe2.mediums[5].T', 'pipe2.mediums[1].p', 'pipe2.mediums[2].p', 'pipe2.mediums[3].p', 'pipe2.mediums[4].p', 'pipe2.mediums[5].p', 'pipe2.mediums[1].Xi[1]', 'pipe2.mediums[2].Xi[1]', 'pipe2.mediums[3].Xi[1]', 'pipe2.mediums[4].Xi[1]', 'pipe2.mediums[5].Xi[1]', 'pipe3.flowModel.m_flows[1]', 'pipe3.flowModel.m_flows[2]', 'pipe3.flowModel.m_flows[3]', 'pipe3.flowModel.m_flows[4]', 'pipe3.flowModel.m_flows[5]', 'pipe3.flowModel.m_flows[6]', 'pipe3.mediums[1].T', 'pipe3.mediums[2].T', 'pipe3.mediums[3].T', 'pipe3.mediums[4].T', 'pipe3.mediums[5].T', 'pipe3.mediums[1].p', 'pipe3.mediums[2].p', 'pipe3.mediums[3].p', 'pipe3.mediums[4].p', 'pipe3.mediums[5].p', 'pipe3.mediums[1].Xi[1]', 'pipe3.mediums[2].Xi[1]', 'pipe3.mediums[3].Xi[1]', 'pipe3.mediums[4].Xi[1]', 'pipe3.mediums[5].Xi[1]', 'pipe4.flowModel.m_flows[1]', 'pipe4.flowModel.m_flows[2]', 'pipe4.flowModel.m_flows[3]', 'pipe4.flowModel.m_flows[4]', 'pipe4.flowModel.m_flows[5]', 'pipe4.flowModel.m_flows[6]', 'pipe4.mediums[1].T', 'pipe4.mediums[2].T', 'pipe4.mediums[3].T', 'pipe4.mediums[4].T', 'pipe4.mediums[5].T', 'pipe4.mediums[1].p', 'pipe4.mediums[2].p', 'pipe4.mediums[3].p', 'pipe4.mediums[4].p', 'pipe4.mediums[5].p', 'pipe4.mediums[1].Xi[1]', 'pipe4.mediums[2].Xi[1]', 'pipe4.mediums[3].Xi[1]', 'pipe4.mediums[4].Xi[1]', 'pipe4.mediums[5].Xi[1]']
Nominals: [1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 300.0, 300.0, 300.0, 300.0, 300.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 0.1, 0.1, 0.1, 0.1, 0.1, 1.0, 1.0, 1.0, 1.0, 300.0, 300.0, 300.0, 300.0, 300.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 0.1, 0.1, 0.1, 0.1, 0.1, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 300.0, 300.0, 300.0, 300.0, 300.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 0.1, 0.1, 0.1, 0.1, 0.1, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 300.0, 300.0, 300.0, 300.0, 300.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 0.1, 0.1, 0.1, 0.1, 0.1]
... elapsed time: 0.26s
Found solver method None...
... ncp = 2000
... using CVode
Initializing...
Start Time: 0.0
Stop Time: 10.0
Tolerance: 1e-06
... elapsed time: 0.19s
Simulating...
Integrator time: 2.126564e+00 Integrator time: 2.217268e+00 Integrator time: 2.336716e+00 Integrator time: 2.456173e+00 Integrator time: 2.741534e+00 Integrator time: 3.913036e+00 Integrator time: 5.252636e+00 Integrator time: 6.577636e+00 Integrator time: 8.067636e+00 Integrator time: 9.612636e+00 Final Run Statistics: Modelica.Fluid.Examples.BranchingDynamicPipes

Number of steps : 2763
Number of function evaluations : 3502
Number of Jacobian evaluations : 120
Number of function eval. due to Jacobian eval. : 9840
Number of error test failures : 49
Number of nonlinear iterations : 3174
Number of nonlinear convergence failures : 2
Number of state function evaluations : 3601
Number of state events : 80
Number of time events : 1

Solver options:

Solver : CVode
Linear multistep method : BDF
Nonlinear solver : Newton
Linear solver type : DENSE
Maximal order : 5
Tolerances (absolute) : [ 1.00000000e-06 1.00000000e-06 1.00000000e-06 1.00000000e-06
1.00000000e-06 1.00000000e-06 3.00000000e-04 3.00000000e-04
3.00000000e-04 3.00000000e-04 3.00000000e-04 1.00000000e-01
1.00000000e-01 1.00000000e-01 1.00000000e-01 1.00000000e-01
1.00000000e-07 1.00000000e-07 1.00000000e-07 1.00000000e-07
1.00000000e-07 1.00000000e-06 1.00000000e-06 1.00000000e-06
1.00000000e-06 3.00000000e-04 3.00000000e-04 3.00000000e-04
3.00000000e-04 3.00000000e-04 1.00000000e-01 1.00000000e-01
1.00000000e-01 1.00000000e-01 1.00000000e-01 1.00000000e-07
1.00000000e-07 1.00000000e-07 1.00000000e-07 1.00000000e-07
1.00000000e-06 1.00000000e-06 1.00000000e-06 1.00000000e-06
1.00000000e-06 1.00000000e-06 3.00000000e-04 3.00000000e-04
3.00000000e-04 3.00000000e-04 3.00000000e-04 1.00000000e-01
1.00000000e-01 1.00000000e-01 1.00000000e-01 1.00000000e-01
1.00000000e-07 1.00000000e-07 1.00000000e-07 1.00000000e-07
1.00000000e-07 1.00000000e-06 1.00000000e-06 1.00000000e-06
1.00000000e-06 1.00000000e-06 1.00000000e-06 3.00000000e-04
3.00000000e-04 3.00000000e-04 3.00000000e-04 3.00000000e-04
1.00000000e-01 1.00000000e-01 1.00000000e-01 1.00000000e-01
1.00000000e-01 1.00000000e-07 1.00000000e-07 1.00000000e-07
1.00000000e-07 1.00000000e-07]
Tolerances (relative) : 1e-06

Simulation interval : 0.0 - 10.0 seconds.
Elapsed simulation time: 102.342566468 seconds.
... elapsed time: 104.90s