Error report for Modelica.Mechanics.Translational.Examples.HeatLosses

Compiler arguments:
-log=i,w|xml|stderr -opt=max_n_proc:1,c_compiler:gcc -target=me -version=1.0 -platform=win32 -out=. -modelicapath=C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL Modelica.Mechanics.Translational.Examples.HeatLosses
Current working directory:
C:\Users\tove_021
Compiler version: 1.17.x
Java version: 1.7.0_15
MODELICAPATH =
JAVA_HOME = C:\JModelica.org-SDK-1.11\Java\jdk1.7.0_15
JMODELICA_HOME = C:\JModelica.org-SDK-1.11\install
======= Compiling model =======
Checking for errors...
MODELICAPATH = C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL
extra_lib_dirs =
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\ComplexBlocks.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\ComplexMath.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Constants.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Electrical\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Fluid\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Icons.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Magnetic\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Math\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Mechanics\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Media\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\SIunits.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\StateGraph.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Thermal\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Utilities\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Mechanics\MultiBody\package.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Mechanics\Rotational.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Mechanics\Translational.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Continuous.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Discrete.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Icons.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Interaction.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Interfaces.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Logical.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Math.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\MathBoolean.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\MathInteger.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Nonlinear.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Routing.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Sources.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Tables.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Blocks\Types.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Thermal\FluidHeatFlow.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Thermal\HeatTransfer.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Math\BooleanVectors.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Math\isPowerOf2.mo
Reading file: C:\JModelica.org-SDK-1.11\install\ThirdParty\MSL\Modelica\Math\Nonlinear.mo
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: enableExpandedInStreamRewrite...
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.SIunits.Length springDamper.s_rel(fixed = true,start = 0,stateSelect = springDamper.stateSelect,nominal = springDamper.s_nominal) "Relative distance (= flange_b.s - flange_a.s)"
Modelica.SIunits.Length elastoGap.s_rel(start = 0,stateSelect = elastoGap.stateSelect,nominal = elastoGap.s_nominal) "Relative distance (= flange_b.s - flange_a.s)"
Modelica.SIunits.Length massWithStopAndFriction.s(start = 0,stateSelect = StateSelect.always,stateSelect = StateSelect.always) "Absolute position of center of component (s = flange_a.s + L/2 = flange_b.s - L/2)"
Modelica.SIunits.Velocity massWithStopAndFriction.v(fixed = true,start = 0,stateSelect = StateSelect.always) "Absolute velocity of flange_a and flange_b"
Modelica.SIunits.Length springDamper1.s_rel(fixed = true,start = 0,stateSelect = springDamper1.stateSelect,nominal = springDamper1.s_nominal) "Relative distance (= flange_b.s - flange_a.s)"
Modelica.SIunits.Velocity elastoGap.v_rel(start = 0,stateSelect = elastoGap.stateSelect) "Relative velocity (= der(s_rel))"
Modelica.SIunits.Velocity springDamper.v_rel(fixed = true,start = 0,stateSelect = springDamper.stateSelect) "Relative velocity (= der(s_rel))"
Real springDamper1._der_s_rel

Applying transformation: LateFunctionInliningIfSet...
Applying transformation: commonSubexpressionEliminationIfSet...
Applying transformation: addFPreVariables...
Applying transformation: aliasEliminationIfSet...
Applying transformation: sortDependentParameters...
Applying transformation: addRuntimeOptionParameters...
Applying transformation: computeMatchingsAndBLT...
Generating code...
====== Model compiled successfully =======

Compiling...
... elapsed time: 7.46s
Loading...
States: ['springDamper.s_rel', 'elastoGap.s_rel', 'massWithStopAndFriction.s', 'massWithStopAndFriction.v', 'springDamper1.s_rel', 'elastoGap.v_rel', 'springDamper.v_rel', 'springDamper1._der_s_rel']
Nominals: [0.0001, 0.0001, 1.0, 1.0, 0.0001, 1.0, 1.0, 1.0]
... elapsed time: 0.15s
Found solver method None...
... ncp = 2000
... using CVode
Initializing...
Start Time: 0.0
Stop Time: 2.0
Tolerance: 1e-06
... elapsed time: 0.00s
Simulating...
Final Run Statistics: Modelica.Mechanics.Translational.Examples.HeatLosses

Number of steps : 2413
Number of function evaluations : 2825
Number of Jacobian evaluations : 73
Number of function eval. due to Jacobian eval. : 584
Number of error test failures : 29
Number of nonlinear iterations : 2637
Number of nonlinear convergence failures : 0
Number of state function evaluations : 2850
Number of state events : 46

Solver options:

Solver : CVode
Linear multistep method : BDF
Nonlinear solver : Newton
Linear solver type : DENSE
Maximal order : 5
Tolerances (absolute) : [ 1.00000000e-10 1.00000000e-10 1.00000000e-06 1.00000000e-06
1.00000000e-10 1.00000000e-06 1.00000000e-06 1.00000000e-06]
Tolerances (relative) : 1e-06

Simulation interval : 0.0 - 2.0 seconds.
Elapsed simulation time: 1.47640554474 seconds.
... elapsed time: 1.85s