Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow
The model has the same number of unknowns and equations: 3224
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow successful.
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Testrun ID | 20250225034436 | 20250225005809 |
| Simulator | Dymola | Dymola |
| Status | PASS | PASS |
| Run time | 8.20 | 8.22 |
| Workdir | D:/MSL_Nightly/Output/Testruns/Dymola/ModelicaTest_org\ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow\WorkDir | D:/MSL_Nightly/Output/Testruns/Dymola/ModelicaTest\ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow\WorkDir |
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Status | PASS | PASS |
| Task runtime | 1.53 s | 1.51 s |
| Warnings | 0 | 0 |
| Errors | 0 | 0 |
| Open log  | Open log  |
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Status | PASS | PASS |
| Task runtime | 4.57 s | 4.58 s |
| Warnings | 0 | 0 |
| Errors | 0 | 0 |
| Open log  | Open log  | |
| Numerical Jacobians | 0 | 0 |
| Continuous time states | 120 | 120 |
| Number NL equation systems | 0 | 0 |
| Largest NL equation system | 0 | 0 |
| ModelicaTest410 experiment tolerance | ModelicaTest410 tightend tolerance | |
|---|---|---|
| Status | PASS | PASS |
| Task runtime | 2.04 s | 2.05 s |
| Simulation time | 1.01 s | 1.01 s |
| Copy result file path  | Copy result file path  | |
| Open log  | Open log  | |
| Time Events | 0 | 0 |
| State Events | 0 | 0 |
| Jacobian evaluations | 22 | 22 |
| Integrator Steps | 23 | 23 |
| Total CPU time | 1.35 s | 1.36 s |
| CPU time Integration | 1.35 s | 1.36 s |
| CPU time Initialization | 0.00 s | 0.00 s |
check - Open log
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow
The model has the same number of unknowns and equations: 3224
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow successful.
check - Open log
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow
The model has the same number of unknowns and equations: 3224
Check of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow successful.
translate - Open log
Translation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow
The DAE has 3224 scalar unknowns and 3224 scalar equations.
Statistics
Original Model
Number of components: 292
Variables: 2271
Constants: 56 (56 scalars)
Parameters: 373 (623 scalars)
Unknowns: 1842 (3224 scalars)
Differentiated variables: 240 scalars
Equations: 963
Nontrivial: 657
Translated Model
Constants: 949 scalars
Free parameters: 51 scalars
Parameter depending: 274 scalars
Continuous time states: 120 scalars
Time-varying variables: 916 scalars
Alias variables: 1713 scalars
Number of mixed real/discrete systems of equations: 0
Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2}
Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
Sizes of nonlinear systems of equations: { }
Sizes after manipulation of the nonlinear systems: { }
Number of numerical Jacobians: 0
Initialization problem
Number of mixed real/discrete systems of equations: 3
Sizes of nonlinear systems of equations: {81, 161, 81}
Sizes after manipulation of the nonlinear systems: {20, 40, 20}
Number of numerical Jacobians: 0
Settings
Advanced.StoreProtectedVariables = true
Selected continuous time states
Statically selected continuous time states
pipeN10.flowModel.m_flows[1]
pipeN10.flowModel.m_flows[2]
pipeN10.flowModel.m_flows[3]
pipeN10.flowModel.m_flows[4]
pipeN10.flowModel.m_flows[5]
pipeN10.flowModel.m_flows[6]
pipeN10.flowModel.m_flows[7]
pipeN10.flowModel.m_flows[8]
pipeN10.flowModel.m_flows[9]
pipeN10.flowModel.m_flows[10]
pipeN10.mediums[1].h
pipeN10.mediums[1].p
pipeN10.mediums[2].h
pipeN10.mediums[2].p
pipeN10.mediums[3].h
pipeN10.mediums[3].p
pipeN10.mediums[4].h
pipeN10.mediums[4].p
pipeN10.mediums[5].h
pipeN10.mediums[5].p
pipeN10.mediums[6].h
pipeN10.mediums[6].p
pipeN10.mediums[7].h
pipeN10.mediums[7].p
pipeN10.mediums[8].h
pipeN10.mediums[8].p
pipeN10.mediums[9].h
pipeN10.mediums[9].p
pipeN10.mediums[10].h
pipeN10.mediums[10].p
pipeN10nParallel10.flowModel.m_flows[1]
pipeN10nParallel10.flowModel.m_flows[2]
pipeN10nParallel10.flowModel.m_flows[3]
pipeN10nParallel10.flowModel.m_flows[4]
pipeN10nParallel10.flowModel.m_flows[5]
pipeN10nParallel10.flowModel.m_flows[6]
pipeN10nParallel10.flowModel.m_flows[7]
pipeN10nParallel10.flowModel.m_flows[8]
pipeN10nParallel10.flowModel.m_flows[9]
pipeN10nParallel10.flowModel.m_flows[10]
pipeN10nParallel10.mediums[1].h
pipeN10nParallel10.mediums[1].p
pipeN10nParallel10.mediums[2].h
pipeN10nParallel10.mediums[2].p
pipeN10nParallel10.mediums[3].h
pipeN10nParallel10.mediums[3].p
pipeN10nParallel10.mediums[4].h
pipeN10nParallel10.mediums[4].p
pipeN10nParallel10.mediums[5].h
pipeN10nParallel10.mediums[5].p
pipeN10nParallel10.mediums[6].h
pipeN10nParallel10.mediums[6].p
pipeN10nParallel10.mediums[7].h
pipeN10nParallel10.mediums[7].p
pipeN10nParallel10.mediums[8].h
pipeN10nParallel10.mediums[8].p
pipeN10nParallel10.mediums[9].h
pipeN10nParallel10.mediums[9].p
pipeN10nParallel10.mediums[10].h
pipeN10nParallel10.mediums[10].p
pipeN20.flowModel.m_flows[1]
pipeN20.flowModel.m_flows[2]
pipeN20.flowModel.m_flows[3]
pipeN20.flowModel.m_flows[4]
pipeN20.flowModel.m_flows[5]
pipeN20.flowModel.m_flows[6]
pipeN20.flowModel.m_flows[7]
pipeN20.flowModel.m_flows[8]
pipeN20.flowModel.m_flows[9]
pipeN20.flowModel.m_flows[10]
pipeN20.flowModel.m_flows[11]
pipeN20.flowModel.m_flows[12]
pipeN20.flowModel.m_flows[13]
pipeN20.flowModel.m_flows[14]
pipeN20.flowModel.m_flows[15]
pipeN20.flowModel.m_flows[16]
pipeN20.flowModel.m_flows[17]
pipeN20.flowModel.m_flows[18]
pipeN20.flowModel.m_flows[19]
pipeN20.flowModel.m_flows[20]
pipeN20.mediums[1].h
pipeN20.mediums[1].p
pipeN20.mediums[2].h
pipeN20.mediums[2].p
pipeN20.mediums[3].h
pipeN20.mediums[3].p
pipeN20.mediums[4].h
pipeN20.mediums[4].p
pipeN20.mediums[5].h
pipeN20.mediums[5].p
pipeN20.mediums[6].h
pipeN20.mediums[6].p
pipeN20.mediums[7].h
pipeN20.mediums[7].p
pipeN20.mediums[8].h
pipeN20.mediums[8].p
pipeN20.mediums[9].h
pipeN20.mediums[9].p
pipeN20.mediums[10].h
pipeN20.mediums[10].p
pipeN20.mediums[11].h
pipeN20.mediums[11].p
pipeN20.mediums[12].h
pipeN20.mediums[12].p
pipeN20.mediums[13].h
pipeN20.mediums[13].p
pipeN20.mediums[14].h
pipeN20.mediums[14].p
pipeN20.mediums[15].h
pipeN20.mediums[15].p
pipeN20.mediums[16].h
pipeN20.mediums[16].p
pipeN20.mediums[17].h
pipeN20.mediums[17].p
pipeN20.mediums[18].h
pipeN20.mediums[18].p
pipeN20.mediums[19].h
pipeN20.mediums[19].p
pipeN20.mediums[20].h
pipeN20.mediums[20].p
Finished
translate - Open log
Translation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow
The DAE has 3224 scalar unknowns and 3224 scalar equations.
Statistics
Original Model
Number of components: 292
Variables: 2271
Constants: 56 (56 scalars)
Parameters: 373 (623 scalars)
Unknowns: 1842 (3224 scalars)
Differentiated variables: 240 scalars
Equations: 963
Nontrivial: 657
Translated Model
Constants: 949 scalars
Free parameters: 51 scalars
Parameter depending: 274 scalars
Continuous time states: 120 scalars
Time-varying variables: 916 scalars
Alias variables: 1713 scalars
Number of mixed real/discrete systems of equations: 0
Sizes of linear systems of equations: {2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2}
Sizes after manipulation of the linear systems: {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
Sizes of nonlinear systems of equations: { }
Sizes after manipulation of the nonlinear systems: { }
Number of numerical Jacobians: 0
Initialization problem
Number of mixed real/discrete systems of equations: 3
Sizes of nonlinear systems of equations: {81, 161, 81}
Sizes after manipulation of the nonlinear systems: {20, 40, 20}
Number of numerical Jacobians: 0
Settings
Advanced.StoreProtectedVariables = true
Selected continuous time states
Statically selected continuous time states
pipeN10.flowModel.m_flows[1]
pipeN10.flowModel.m_flows[2]
pipeN10.flowModel.m_flows[3]
pipeN10.flowModel.m_flows[4]
pipeN10.flowModel.m_flows[5]
pipeN10.flowModel.m_flows[6]
pipeN10.flowModel.m_flows[7]
pipeN10.flowModel.m_flows[8]
pipeN10.flowModel.m_flows[9]
pipeN10.flowModel.m_flows[10]
pipeN10.mediums[1].h
pipeN10.mediums[1].p
pipeN10.mediums[2].h
pipeN10.mediums[2].p
pipeN10.mediums[3].h
pipeN10.mediums[3].p
pipeN10.mediums[4].h
pipeN10.mediums[4].p
pipeN10.mediums[5].h
pipeN10.mediums[5].p
pipeN10.mediums[6].h
pipeN10.mediums[6].p
pipeN10.mediums[7].h
pipeN10.mediums[7].p
pipeN10.mediums[8].h
pipeN10.mediums[8].p
pipeN10.mediums[9].h
pipeN10.mediums[9].p
pipeN10.mediums[10].h
pipeN10.mediums[10].p
pipeN10nParallel10.flowModel.m_flows[1]
pipeN10nParallel10.flowModel.m_flows[2]
pipeN10nParallel10.flowModel.m_flows[3]
pipeN10nParallel10.flowModel.m_flows[4]
pipeN10nParallel10.flowModel.m_flows[5]
pipeN10nParallel10.flowModel.m_flows[6]
pipeN10nParallel10.flowModel.m_flows[7]
pipeN10nParallel10.flowModel.m_flows[8]
pipeN10nParallel10.flowModel.m_flows[9]
pipeN10nParallel10.flowModel.m_flows[10]
pipeN10nParallel10.mediums[1].h
pipeN10nParallel10.mediums[1].p
pipeN10nParallel10.mediums[2].h
pipeN10nParallel10.mediums[2].p
pipeN10nParallel10.mediums[3].h
pipeN10nParallel10.mediums[3].p
pipeN10nParallel10.mediums[4].h
pipeN10nParallel10.mediums[4].p
pipeN10nParallel10.mediums[5].h
pipeN10nParallel10.mediums[5].p
pipeN10nParallel10.mediums[6].h
pipeN10nParallel10.mediums[6].p
pipeN10nParallel10.mediums[7].h
pipeN10nParallel10.mediums[7].p
pipeN10nParallel10.mediums[8].h
pipeN10nParallel10.mediums[8].p
pipeN10nParallel10.mediums[9].h
pipeN10nParallel10.mediums[9].p
pipeN10nParallel10.mediums[10].h
pipeN10nParallel10.mediums[10].p
pipeN20.flowModel.m_flows[1]
pipeN20.flowModel.m_flows[2]
pipeN20.flowModel.m_flows[3]
pipeN20.flowModel.m_flows[4]
pipeN20.flowModel.m_flows[5]
pipeN20.flowModel.m_flows[6]
pipeN20.flowModel.m_flows[7]
pipeN20.flowModel.m_flows[8]
pipeN20.flowModel.m_flows[9]
pipeN20.flowModel.m_flows[10]
pipeN20.flowModel.m_flows[11]
pipeN20.flowModel.m_flows[12]
pipeN20.flowModel.m_flows[13]
pipeN20.flowModel.m_flows[14]
pipeN20.flowModel.m_flows[15]
pipeN20.flowModel.m_flows[16]
pipeN20.flowModel.m_flows[17]
pipeN20.flowModel.m_flows[18]
pipeN20.flowModel.m_flows[19]
pipeN20.flowModel.m_flows[20]
pipeN20.mediums[1].h
pipeN20.mediums[1].p
pipeN20.mediums[2].h
pipeN20.mediums[2].p
pipeN20.mediums[3].h
pipeN20.mediums[3].p
pipeN20.mediums[4].h
pipeN20.mediums[4].p
pipeN20.mediums[5].h
pipeN20.mediums[5].p
pipeN20.mediums[6].h
pipeN20.mediums[6].p
pipeN20.mediums[7].h
pipeN20.mediums[7].p
pipeN20.mediums[8].h
pipeN20.mediums[8].p
pipeN20.mediums[9].h
pipeN20.mediums[9].p
pipeN20.mediums[10].h
pipeN20.mediums[10].p
pipeN20.mediums[11].h
pipeN20.mediums[11].p
pipeN20.mediums[12].h
pipeN20.mediums[12].p
pipeN20.mediums[13].h
pipeN20.mediums[13].p
pipeN20.mediums[14].h
pipeN20.mediums[14].p
pipeN20.mediums[15].h
pipeN20.mediums[15].p
pipeN20.mediums[16].h
pipeN20.mediums[16].p
pipeN20.mediums[17].h
pipeN20.mediums[17].p
pipeN20.mediums[18].h
pipeN20.mediums[18].p
pipeN20.mediums[19].h
pipeN20.mediums[19].p
pipeN20.mediums[20].h
pipeN20.mediums[20].p
Finished
translate - Continuous time states
- pipeN10.flowModel.m_flows[1]
- pipeN10.flowModel.m_flows[2]
- pipeN10.flowModel.m_flows[3]
- pipeN10.flowModel.m_flows[4]
- pipeN10.flowModel.m_flows[5]
- pipeN10.flowModel.m_flows[6]
- pipeN10.flowModel.m_flows[7]
- pipeN10.flowModel.m_flows[8]
- pipeN10.flowModel.m_flows[9]
- pipeN10.flowModel.m_flows[10]
- pipeN10.mediums[1].h
- pipeN10.mediums[1].p
- pipeN10.mediums[2].h
- pipeN10.mediums[2].p
- pipeN10.mediums[3].h
- pipeN10.mediums[3].p
- pipeN10.mediums[4].h
- pipeN10.mediums[4].p
- pipeN10.mediums[5].h
- pipeN10.mediums[5].p
- pipeN10.mediums[6].h
- pipeN10.mediums[6].p
- pipeN10.mediums[7].h
- pipeN10.mediums[7].p
- pipeN10.mediums[8].h
- pipeN10.mediums[8].p
- pipeN10.mediums[9].h
- pipeN10.mediums[9].p
- pipeN10.mediums[10].h
- pipeN10.mediums[10].p
- pipeN10nParallel10.flowModel.m_flows[1]
- pipeN10nParallel10.flowModel.m_flows[2]
- pipeN10nParallel10.flowModel.m_flows[3]
- pipeN10nParallel10.flowModel.m_flows[4]
- pipeN10nParallel10.flowModel.m_flows[5]
- pipeN10nParallel10.flowModel.m_flows[6]
- pipeN10nParallel10.flowModel.m_flows[7]
- pipeN10nParallel10.flowModel.m_flows[8]
- pipeN10nParallel10.flowModel.m_flows[9]
- pipeN10nParallel10.flowModel.m_flows[10]
- pipeN10nParallel10.mediums[1].h
- pipeN10nParallel10.mediums[1].p
- pipeN10nParallel10.mediums[2].h
- pipeN10nParallel10.mediums[2].p
- pipeN10nParallel10.mediums[3].h
- pipeN10nParallel10.mediums[3].p
- pipeN10nParallel10.mediums[4].h
- pipeN10nParallel10.mediums[4].p
- pipeN10nParallel10.mediums[5].h
- pipeN10nParallel10.mediums[5].p
- pipeN10nParallel10.mediums[6].h
- pipeN10nParallel10.mediums[6].p
- pipeN10nParallel10.mediums[7].h
- pipeN10nParallel10.mediums[7].p
- pipeN10nParallel10.mediums[8].h
- pipeN10nParallel10.mediums[8].p
- pipeN10nParallel10.mediums[9].h
- pipeN10nParallel10.mediums[9].p
- pipeN10nParallel10.mediums[10].h
- pipeN10nParallel10.mediums[10].p
- pipeN20.flowModel.m_flows[1]
- pipeN20.flowModel.m_flows[2]
- pipeN20.flowModel.m_flows[3]
- pipeN20.flowModel.m_flows[4]
- pipeN20.flowModel.m_flows[5]
- pipeN20.flowModel.m_flows[6]
- pipeN20.flowModel.m_flows[7]
- pipeN20.flowModel.m_flows[8]
- pipeN20.flowModel.m_flows[9]
- pipeN20.flowModel.m_flows[10]
- pipeN20.flowModel.m_flows[11]
- pipeN20.flowModel.m_flows[12]
- pipeN20.flowModel.m_flows[13]
- pipeN20.flowModel.m_flows[14]
- pipeN20.flowModel.m_flows[15]
- pipeN20.flowModel.m_flows[16]
- pipeN20.flowModel.m_flows[17]
- pipeN20.flowModel.m_flows[18]
- pipeN20.flowModel.m_flows[19]
- pipeN20.flowModel.m_flows[20]
- pipeN20.mediums[1].h
- pipeN20.mediums[1].p
- pipeN20.mediums[2].h
- pipeN20.mediums[2].p
- pipeN20.mediums[3].h
- pipeN20.mediums[3].p
- pipeN20.mediums[4].h
- pipeN20.mediums[4].p
- pipeN20.mediums[5].h
- pipeN20.mediums[5].p
- pipeN20.mediums[6].h
- pipeN20.mediums[6].p
- pipeN20.mediums[7].h
- pipeN20.mediums[7].p
- pipeN20.mediums[8].h
- pipeN20.mediums[8].p
- pipeN20.mediums[9].h
- pipeN20.mediums[9].p
- pipeN20.mediums[10].h
- pipeN20.mediums[10].p
- pipeN20.mediums[11].h
- pipeN20.mediums[11].p
- pipeN20.mediums[12].h
- pipeN20.mediums[12].p
- pipeN20.mediums[13].h
- pipeN20.mediums[13].p
- pipeN20.mediums[14].h
- pipeN20.mediums[14].p
- pipeN20.mediums[15].h
- pipeN20.mediums[15].p
- pipeN20.mediums[16].h
- pipeN20.mediums[16].p
- pipeN20.mediums[17].h
- pipeN20.mediums[17].p
- pipeN20.mediums[18].h
- pipeN20.mediums[18].p
- pipeN20.mediums[19].h
- pipeN20.mediums[19].p
- pipeN20.mediums[20].h
- pipeN20.mediums[20].p
translate - Continuous time states
- pipeN10.flowModel.m_flows[1]
- pipeN10.flowModel.m_flows[2]
- pipeN10.flowModel.m_flows[3]
- pipeN10.flowModel.m_flows[4]
- pipeN10.flowModel.m_flows[5]
- pipeN10.flowModel.m_flows[6]
- pipeN10.flowModel.m_flows[7]
- pipeN10.flowModel.m_flows[8]
- pipeN10.flowModel.m_flows[9]
- pipeN10.flowModel.m_flows[10]
- pipeN10.mediums[1].h
- pipeN10.mediums[1].p
- pipeN10.mediums[2].h
- pipeN10.mediums[2].p
- pipeN10.mediums[3].h
- pipeN10.mediums[3].p
- pipeN10.mediums[4].h
- pipeN10.mediums[4].p
- pipeN10.mediums[5].h
- pipeN10.mediums[5].p
- pipeN10.mediums[6].h
- pipeN10.mediums[6].p
- pipeN10.mediums[7].h
- pipeN10.mediums[7].p
- pipeN10.mediums[8].h
- pipeN10.mediums[8].p
- pipeN10.mediums[9].h
- pipeN10.mediums[9].p
- pipeN10.mediums[10].h
- pipeN10.mediums[10].p
- pipeN10nParallel10.flowModel.m_flows[1]
- pipeN10nParallel10.flowModel.m_flows[2]
- pipeN10nParallel10.flowModel.m_flows[3]
- pipeN10nParallel10.flowModel.m_flows[4]
- pipeN10nParallel10.flowModel.m_flows[5]
- pipeN10nParallel10.flowModel.m_flows[6]
- pipeN10nParallel10.flowModel.m_flows[7]
- pipeN10nParallel10.flowModel.m_flows[8]
- pipeN10nParallel10.flowModel.m_flows[9]
- pipeN10nParallel10.flowModel.m_flows[10]
- pipeN10nParallel10.mediums[1].h
- pipeN10nParallel10.mediums[1].p
- pipeN10nParallel10.mediums[2].h
- pipeN10nParallel10.mediums[2].p
- pipeN10nParallel10.mediums[3].h
- pipeN10nParallel10.mediums[3].p
- pipeN10nParallel10.mediums[4].h
- pipeN10nParallel10.mediums[4].p
- pipeN10nParallel10.mediums[5].h
- pipeN10nParallel10.mediums[5].p
- pipeN10nParallel10.mediums[6].h
- pipeN10nParallel10.mediums[6].p
- pipeN10nParallel10.mediums[7].h
- pipeN10nParallel10.mediums[7].p
- pipeN10nParallel10.mediums[8].h
- pipeN10nParallel10.mediums[8].p
- pipeN10nParallel10.mediums[9].h
- pipeN10nParallel10.mediums[9].p
- pipeN10nParallel10.mediums[10].h
- pipeN10nParallel10.mediums[10].p
- pipeN20.flowModel.m_flows[1]
- pipeN20.flowModel.m_flows[2]
- pipeN20.flowModel.m_flows[3]
- pipeN20.flowModel.m_flows[4]
- pipeN20.flowModel.m_flows[5]
- pipeN20.flowModel.m_flows[6]
- pipeN20.flowModel.m_flows[7]
- pipeN20.flowModel.m_flows[8]
- pipeN20.flowModel.m_flows[9]
- pipeN20.flowModel.m_flows[10]
- pipeN20.flowModel.m_flows[11]
- pipeN20.flowModel.m_flows[12]
- pipeN20.flowModel.m_flows[13]
- pipeN20.flowModel.m_flows[14]
- pipeN20.flowModel.m_flows[15]
- pipeN20.flowModel.m_flows[16]
- pipeN20.flowModel.m_flows[17]
- pipeN20.flowModel.m_flows[18]
- pipeN20.flowModel.m_flows[19]
- pipeN20.flowModel.m_flows[20]
- pipeN20.mediums[1].h
- pipeN20.mediums[1].p
- pipeN20.mediums[2].h
- pipeN20.mediums[2].p
- pipeN20.mediums[3].h
- pipeN20.mediums[3].p
- pipeN20.mediums[4].h
- pipeN20.mediums[4].p
- pipeN20.mediums[5].h
- pipeN20.mediums[5].p
- pipeN20.mediums[6].h
- pipeN20.mediums[6].p
- pipeN20.mediums[7].h
- pipeN20.mediums[7].p
- pipeN20.mediums[8].h
- pipeN20.mediums[8].p
- pipeN20.mediums[9].h
- pipeN20.mediums[9].p
- pipeN20.mediums[10].h
- pipeN20.mediums[10].p
- pipeN20.mediums[11].h
- pipeN20.mediums[11].p
- pipeN20.mediums[12].h
- pipeN20.mediums[12].p
- pipeN20.mediums[13].h
- pipeN20.mediums[13].p
- pipeN20.mediums[14].h
- pipeN20.mediums[14].p
- pipeN20.mediums[15].h
- pipeN20.mediums[15].p
- pipeN20.mediums[16].h
- pipeN20.mediums[16].p
- pipeN20.mediums[17].h
- pipeN20.mediums[17].p
- pipeN20.mediums[18].h
- pipeN20.mediums[18].p
- pipeN20.mediums[19].h
- pipeN20.mediums[19].p
- pipeN20.mediums[20].h
- pipeN20.mediums[20].p
translate - Largest NL equation system
translate - Largest NL equation system
simulate - Open log
Log-file of program ./dymosim
(generated: Tue Feb 25 03:49:23 2025)
dymosim started
... "ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow" simulating
... "dsin.txt" loading (dymosim input file)
... "result.mat" creating (simulation result file)
Integration started at T = 0 using integration method DASSL
(DAE multi-step solver (dassl/dasslrt of Petzold modified by Dassault Systemes))
Integration terminated successfully at T = 1.01
CPU-time for integration : 1.35 seconds
CPU-time for one grid interval : 0.269 milliseconds
CPU-time for initialization : 0.003 seconds
Number of result points : 5002
Number of grid points : 5001
Number of accepted steps : 23
Number of f-evaluations (dynamics) : 23
Number of crossing function evaluations : 5023
Number of Jacobian-evaluations : 22
Number of model time events : 0
Number of input time events : 0
Number of state events : 0
Number of step events : 0
Minimum integration stepsize : 2.02e-07
Maximum integration stepsize : 0.424
Maximum integration order : 1
Calling terminal section
... "dsfinal.txt" creating (final states)
SUCCESSFUL simulation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow
simulate - Open log
Log-file of program ./dymosim
(generated: Tue Feb 25 01:02:57 2025)
dymosim started
... "ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow" simulating
... "dsin.txt" loading (dymosim input file)
... "result.mat" creating (simulation result file)
Integration started at T = 0 using integration method DASSL
(DAE multi-step solver (dassl/dasslrt of Petzold modified by Dassault Systemes))
Integration terminated successfully at T = 1.01
CPU-time for integration : 1.36 seconds
CPU-time for one grid interval : 0.272 milliseconds
CPU-time for initialization : 0.004 seconds
Number of result points : 5002
Number of grid points : 5001
Number of accepted steps : 23
Number of f-evaluations (dynamics) : 23
Number of crossing function evaluations : 5023
Number of Jacobian-evaluations : 22
Number of model time events : 0
Number of input time events : 0
Number of state events : 0
Number of step events : 0
Minimum integration stepsize : 2.02e-07
Maximum integration stepsize : 0.424
Maximum integration order : 1
Calling terminal section
... "dsfinal.txt" creating (final states)
SUCCESSFUL simulation of ModelicaTest.Fluid.TestComponents.Pipes.DynamicPipeWithNominalLaminarFlow