Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ModelicaTest_4.1.0_ModelicaTest.Fluid.Dissipation.Verifications.HeatTransfer.StraightPipe.kc_laminar_KC.conf.json loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo): time 0.001531/0.001531, allocations: 107.6 kB / 21.2 MB, free: 0.6641 MB / 14.72 MB " [Timeout remaining time 180] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo): time 0.001982/0.001982, allocations: 205.2 kB / 24.49 MB, free: 3.961 MB / 14.72 MB " [Timeout remaining time 180] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo): time 1.613/1.613, allocations: 230.6 MB / 258.3 MB, free: 7.793 MB / 206.1 MB " [Timeout remaining time 178] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaTest 4.1.0+maint.om/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaTest 4.1.0+maint.om/package.mo): time 0.296/0.296, allocations: 46.97 MB / 361.6 MB, free: 4.031 MB / 286.1 MB " [Timeout remaining time 179] Using package ModelicaTest with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaTest 4.1.0+maint.om/package.mo) Using package Modelica with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Modelica 4.1.0+maint.om/package.mo) Using package Complex with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/Complex 4.1.0+maint.om/package.mo) Using package ModelicaServices with version 4.1.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ModelicaServices 4.1.0+maint.om/package.mo) Running command: translateModel(ModelicaTest.Fluid.Dissipation.Verifications.HeatTransfer.StraightPipe.kc_laminar_KC,tolerance=1e-05,outputFormat="mat",numberOfIntervals=5004,variableFilter="time|cp.1.|cp.2.|cp.3.|eta.1.|eta.2.|eta.3.|lambda.1.|lambda.2.|lambda.3.|rho.1.|rho.2.|rho.3.|Nu.1.|Nu.2.|Nu.3.|m_flow_1.1.|m_flow_1.2.|m_flow_1.3.|m_flow_2.1.|m_flow_2.2.|m_flow_2.3.|m_flow_3.1.|m_flow_3.2.|m_flow_3.3.|m_flow_4.1.|m_flow_4.2.|m_flow_4.3.|kc_1.1.|kc_1.2.|kc_1.3.|kc_2.1.|kc_2.2.|kc_2.3.|kc_3.1.|kc_3.2.|kc_3.3.|kc_4.1.|kc_4.2.|kc_4.3.|Re_1.1.|Re_1.2.|Re_1.3.|Re_2.1.|Re_2.2.|Re_2.3.|Re_3.1.|Re_3.2.|Re_3.3.|Re_4.1.|Re_4.2.|Re_4.3.|input_Nu.y",fileNamePrefix="ModelicaTest_4.1.0_ModelicaTest.Fluid.Dissipation.Verifications.HeatTransfer.StraightPipe.kc_laminar_KC") translateModel(ModelicaTest.Fluid.Dissipation.Verifications.HeatTransfer.StraightPipe.kc_laminar_KC,tolerance=1e-05,outputFormat="mat",numberOfIntervals=5004,variableFilter="time|cp.1.|cp.2.|cp.3.|eta.1.|eta.2.|eta.3.|lambda.1.|lambda.2.|lambda.3.|rho.1.|rho.2.|rho.3.|Nu.1.|Nu.2.|Nu.3.|m_flow_1.1.|m_flow_1.2.|m_flow_1.3.|m_flow_2.1.|m_flow_2.2.|m_flow_2.3.|m_flow_3.1.|m_flow_3.2.|m_flow_3.3.|m_flow_4.1.|m_flow_4.2.|m_flow_4.3.|kc_1.1.|kc_1.2.|kc_1.3.|kc_2.1.|kc_2.2.|kc_2.3.|kc_3.1.|kc_3.2.|kc_3.3.|kc_4.1.|kc_4.2.|kc_4.3.|Re_1.1.|Re_1.2.|Re_1.3.|Re_2.1.|Re_2.2.|Re_2.3.|Re_3.1.|Re_3.2.|Re_3.3.|Re_4.1.|Re_4.2.|Re_4.3.|input_Nu.y",fileNamePrefix="ModelicaTest_4.1.0_ModelicaTest.Fluid.Dissipation.Verifications.HeatTransfer.StraightPipe.kc_laminar_KC") [Timeout 660] "Notification: Performance of FrontEnd - Absyn->SCode: time 2.926e-05/2.926e-05, allocations: 10.16 kB / 0.4973 GB, free: 7.254 MB / 366.1 MB Notification: Performance of NFInst.instantiate(ModelicaTest.Fluid.Dissipation.Verifications.HeatTransfer.StraightPipe.kc_laminar_KC): time 0.003725/0.003754, allocations: 2.077 MB / 0.4993 GB, free: 5.164 MB / 366.1 MB Notification: Performance of NFInst.instExpressions: time 0.001627/0.005381, allocations: 0.8179 MB / 0.5001 GB, free: 4.344 MB / 366.1 MB Notification: Performance of NFInst.updateImplicitVariability: time 8.859e-05/0.00547, allocations: 4 kB / 0.5001 GB, free: 4.34 MB / 366.1 MB Notification: Performance of NFTyping.typeComponents: time 0.0003135/0.005783, allocations: 67.59 kB / 0.5002 GB, free: 4.273 MB / 366.1 MB Notification: Performance of NFTyping.typeBindings: time 0.0004664/0.00625, allocations: 155.3 kB / 0.5004 GB, free: 4.121 MB / 366.1 MB Notification: Performance of NFTyping.typeClassSections: time 0.0003114/0.006561, allocations: 91.7 kB / 0.5004 GB, free: 4.031 MB / 366.1 MB Notification: Performance of NFFlatten.flatten: time 0.0005179/0.007079, allocations: 382.8 kB / 0.5008 GB, free: 3.656 MB / 366.1 MB Notification: Performance of NFFlatten.resolveConnections: time 5.555e-05/0.007135, allocations: 5.594 kB / 0.5008 GB, free: 3.648 MB / 366.1 MB Notification: Performance of NFEvalConstants.evaluate: time 0.0003016/0.007436, allocations: 195.3 kB / 0.501 GB, free: 3.457 MB / 366.1 MB Notification: Performance of NFSimplifyModel.simplify: time 0.0002763/0.007712, allocations: 227.3 kB / 0.5012 GB, free: 3.234 MB / 366.1 MB Notification: Performance of NFPackage.collectConstants: time 2.918e-05/0.007742, allocations: 4 kB / 0.5012 GB, free: 3.23 MB / 366.1 MB Notification: Performance of NFFlatten.collectFunctions: time 0.0002409/0.007983, allocations: 99.81 kB / 0.5013 GB, free: 3.133 MB / 366.1 MB Notification: Performance of combineBinaries: time 0.0006196/0.008602, allocations: 0.5584 MB / 0.5019 GB, free: 2.57 MB / 366.1 MB Notification: Performance of replaceArrayConstructors: time 0.000308/0.00891, allocations: 356.6 kB / 0.5022 GB, free: 2.219 MB / 366.1 MB Notification: Performance of NFVerifyModel.verify: time 4.088e-05/0.008951, allocations: 12 kB / 0.5022 GB, free: 2.207 MB / 366.1 MB Notification: Performance of FrontEnd: time 1.952e-05/0.008971, allocations: 4 kB / 0.5022 GB, free: 2.203 MB / 366.1 MB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 136 (46) * Number of variables: 136 (46) Notification: Performance of [SIM] Bindings: time 0.002756/0.01173, allocations: 2.395 MB / 0.5046 GB, free: 15.67 MB / 382.1 MB Notification: Performance of [SIM] FunctionAlias: time 0.0003788/0.01211, allocations: 289 kB / 0.5048 GB, free: 15.36 MB / 382.1 MB Notification: Performance of [SIM] Early Inline: time 0.001002/0.01311, allocations: 0.9792 MB / 0.5058 GB, free: 14.35 MB / 382.1 MB Notification: Performance of [SIM] Simplify 1: time 0.000267/0.01337, allocations: 193.7 kB / 0.506 GB, free: 14.11 MB / 382.1 MB Notification: Performance of [SIM] Alias: time 0.000384/0.01376, allocations: 349.3 kB / 0.5063 GB, free: 13.73 MB / 382.1 MB Notification: Performance of [SIM] Simplify 2: time 0.000229/0.01399, allocations: 193.7 kB / 0.5065 GB, free: 13.49 MB / 382.1 MB Notification: Performance of [SIM] Remove Stream: time 0.0001334/0.01412, allocations: 116.3 kB / 0.5066 GB, free: 13.35 MB / 382.1 MB Notification: Performance of [SIM] Detect States: time 0.0002846/0.01441, allocations: 247.2 kB / 0.5068 GB, free: 13.05 MB / 382.1 MB Notification: Performance of [SIM] Events: time 0.0001272/0.01453, allocations: 55.91 kB / 0.5069 GB, free: 13 MB / 382.1 MB Notification: Performance of [SIM] Partitioning: time 0.0004882/0.01502, allocations: 385.2 kB / 0.5073 GB, free: 12.62 MB / 382.1 MB Error: Internal error NBSorting.tarjan failed to sort system: System Variables (52/150) *************************** (1|1) [ALGB] (3) Real[3] $FUN_4 (2|4) [ALGB] (3) Real[3] $FUN_3 (3|7) [ALGB] (3) Real[3] $FUN_2 (4|10) [ALGB] (3) Real[3] kc_4 = {(lambda[i] * Nu[i]) / d_hyd for i in 1:3} (5|13) [ALGB] (3) Real[3] $FUN_1 (6|16) [ALGB] (3) Real[3] kc_3 = {(lambda[i] * Nu[i]) / d_hyd for i in 1:3} (7|19) [ALGB] (3) Real[3] kc_2 = {(lambda[i] * Nu[i]) / d_hyd for i in 1:3} (8|22) [ALGB] (3) Real[3] kc_1 = {(lambda[i] * Nu[i]) / d_hyd for i in 1:3} (9|25) [ALGB] (3) Real[3] m_flow_IN_con_4.d_hyd = {d_hyd for $f1 in 1:3} (min = {0.0 for $f2 in 1:3}) (10|28) [ALGB] (1) Real input_Nu.y (11|29) [ALGB] (3) Real[3] m_flow_IN_con_3.d_hyd = {d_hyd for $f1 in 1:3} (min = {0.0 for $f2 in 1:3}) (12|32) [ALGB] (3) Real[3] m_flow_IN_con_2.d_hyd = {d_hyd for $f1 in 1:3} (min = {0.0 for $f2 in 1:3}) (13|35) [ALGB] (3) Real[3] m_flow_IN_con_1.d_hyd = {d_hyd for $f1 in 1:3} (min = {0.0 for $f2 in 1:3}) (14|38) [ALGB] (3) Real[3] m_flow_IN_var_1.cp = {cp[$m_flow_IN_var_11] for $m_flow_IN_var_11 in 1:3} (15|41) [ALGB] (3) Real[3] m_flow_IN_var_2.cp = {cp[$m_flow_IN_var_21] for $m_flow_IN_var_21 in 1:3} (16|44) [ALGB] (3) Real[3] m_flow_IN_var_3.cp = {cp[$m_flow_IN_var_31] for $m_flow_IN_var_31 in 1:3} (17|47) [ALGB] (3) Real[3] m_flow_IN_var_4.cp = {cp[$m_flow_IN_var_41] for $m_flow_IN_var_41 in 1:3} (18|50) [ALGB] (3) Real[3] m_flow_IN_var_1.m_flow = {m_flow_1[$m_flow_IN_var_11] for $m_flow_IN_var_11 in 1:3} (19|53) [ALGB] (3) Real[3] m_flow_IN_var_2.m_flow = {m_flow_2[$m_flow_IN_var_21] for $m_flow_IN_var_21 in 1:3} (20|56) [ALGB] (3) Real[3] m_flow_IN_var_3.m_flow = {m_flow_3[$m_flow_IN_var_31] for $m_flow_IN_var_31 in 1:3} (21|59) [ALGB] (3) Real[3] m_flow_IN_var_4.m_flow = {m_flow_4[$m_flow_IN_var_41] for $m_flow_IN_var_41 in 1:3} (22|62) [ALGB] (3) Real[3] Re_4 = {(4.0 * d_hyd * abs(m_flow_4[i])) / (3.141592653589793 * eta[i] * d_hyd ^ 2.0) for i in 1:3} (23|65) [DISC] (3) enumeration Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary(UWTuDFF, UHFuDFF, UWTuUFF, UHFuUFF)[3] m_flow_IN_con_4.target = {Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UHFuUFF for $f8 in 1:3} (24|68) [ALGB] (3) Real[3] Re_3 = {(4.0 * d_hyd * abs(m_flow_3[i])) / (3.141592653589793 * eta[i] * d_hyd ^ 2.0) for i in 1:3} (25|71) [DISC] (3) enumeration Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary(UWTuDFF, UHFuDFF, UWTuUFF, UHFuUFF)[3] m_flow_IN_con_3.target = {Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UWTuUFF for $f8 in 1:3} (26|74) [ALGB] (3) Real[3] Re_2 = {(4.0 * d_hyd * abs(m_flow_2[i])) / (3.141592653589793 * eta[i] * d_hyd ^ 2.0) for i in 1:3} (27|77) [DISC] (3) enumeration Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary(UWTuDFF, UHFuDFF, UWTuUFF, UHFuUFF)[3] m_flow_IN_con_2.target = {Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UHFuDFF for $f8 in 1:3} (28|80) [ALGB] (3) Real[3] Re_1 = {(4.0 * d_hyd * abs(m_flow_1[i])) / (3.141592653589793 * eta[i] * d_hyd ^ 2.0) for i in 1:3} (29|83) [DISC] (3) enumeration Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary(UWTuDFF, UHFuDFF, UWTuUFF, UHFuUFF)[3] m_flow_IN_con_1.target = {Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UWTuDFF for $f8 in 1:3} (30|86) [DISC] (1) Boolean $TEV_1 (31|87) [ALGB] (3) Real[3] m_flow_IN_var_1.lambda = {lambda[$m_flow_IN_var_11] for $m_flow_IN_var_11 in 1:3} (32|90) [DISC] (1) Boolean $TEV_0 (33|91) [ALGB] (3) Real[3] m_flow_IN_var_2.lambda = {lambda[$m_flow_IN_var_21] for $m_flow_IN_var_21 in 1:3} (34|94) [ALGB] (3) Real[3] Nu = {1.0 for $f1 in 1:3} .* input_Nu.y (35|97) [ALGB] (3) Real[3] m_flow_IN_var_3.lambda = {lambda[$m_flow_IN_var_31] for $m_flow_IN_var_31 in 1:3} (36|100) [ALGB] (3) Real[3] m_flow_IN_var_4.lambda = {lambda[$m_flow_IN_var_41] for $m_flow_IN_var_41 in 1:3} (37|103) [ALGB] (3) Real[3] m_flow_IN_var_1.eta = {eta[$m_flow_IN_var_11] for $m_flow_IN_var_11 in 1:3} (min = {0.0 for $f3 in 1:3}) (38|106) [ALGB] (3) Real[3] m_flow_IN_var_2.eta = {eta[$m_flow_IN_var_21] for $m_flow_IN_var_21 in 1:3} (min = {0.0 for $f3 in 1:3}) (39|109) [ALGB] (3) Real[3] m_flow_IN_var_3.eta = {eta[$m_flow_IN_var_31] for $m_flow_IN_var_31 in 1:3} (min = {0.0 for $f3 in 1:3}) (40|112) [ALGB] (3) Real[3] m_flow_IN_con_4.L = {L for $f5 in 1:3} (41|115) [ALGB] (3) Real[3] m_flow_IN_var_1.rho = {rho[$m_flow_IN_var_11] for $m_flow_IN_var_11 in 1:3} (min = {0.0 for $f8 in 1:3}) (42|118) [ALGB] (3) Real[3] m_flow_4 (start = {1.0 for $f1 in 1:3} .* 1e-6) (43|121) [ALGB] (3) Real[3] m_flow_IN_con_3.L = {L for $f5 in 1:3} (44|124) [ALGB] (3) Real[3] m_flow_IN_var_4.eta = {eta[$m_flow_IN_var_41] for $m_flow_IN_var_41 in 1:3} (min = {0.0 for $f3 in 1:3}) (45|127) [ALGB] (3) Real[3] m_flow_3 (start = {1.0 for $f1 in 1:3} .* 1e-6) (46|130) [ALGB] (3) Real[3] m_flow_IN_con_2.L = {L for $f5 in 1:3} (47|133) [ALGB] (3) Real[3] m_flow_IN_var_2.rho = {rho[$m_flow_IN_var_21] for $m_flow_IN_var_21 in 1:3} (min = {0.0 for $f8 in 1:3}) (48|136) [ALGB] (3) Real[3] m_flow_2 (start = {1.0 for $f1 in 1:3} .* 1e-6) (49|139) [ALGB] (3) Real[3] m_flow_IN_con_1.L = {L for $f5 in 1:3} (50|142) [ALGB] (3) Real[3] m_flow_IN_var_3.rho = {rho[$m_flow_IN_var_31] for $m_flow_IN_var_31 in 1:3} (min = {0.0 for $f8 in 1:3}) (51|145) [ALGB] (3) Real[3] m_flow_1 (start = {1.0 for $f1 in 1:3} .* 1e-6) (52|148) [ALGB] (3) Real[3] m_flow_IN_var_4.rho = {rho[$m_flow_IN_var_41] for $m_flow_IN_var_41 in 1:3} (min = {0.0 for $f8 in 1:3}) System Equations (52/150) *************************** (1|1) [FOR-] (3) ($RES_AUX_95) (1|1) [----] for $i1 in 1:3 loop (1|1) [----] [SCAL] (1) $FUN_4[$i1] = abs(m_flow_1[$i1]) ($RES_AUX_96) (1|1) [----] end for; (2|4) [FOR-] (3) ($RES_AUX_97) (2|4) [----] for $i1 in 1:3 loop (2|4) [----] [SCAL] (1) $FUN_3[$i1] = abs(m_flow_2[$i1]) ($RES_AUX_98) (2|4) [----] end for; (3|7) [FOR-] (3) ($RES_BND_21) (3|7) [----] for $i1 in 1:3 loop (3|7) [----] [SCAL] (1) m_flow_IN_var_1[$i1].cp = cp[$i1] ($RES_BND_22) (3|7) [----] end for; (4|10) [FOR-] (3) ($RES_AUX_99) (4|10) [----] for $i1 in 1:3 loop (4|10) [----] [SCAL] (1) $FUN_2[$i1] = abs(m_flow_3[$i1]) ($RES_AUX_100) (4|10) [----] end for; (5|13) [FOR-] (3) ($RES_BND_23) (5|13) [----] for $i1 in 1:3 loop (5|13) [----] [SCAL] (1) m_flow_IN_var_1[$i1].eta = eta[$i1] ($RES_BND_24) (5|13) [----] end for; (6|16) [FOR-] (3) ($RES_BND_25) (6|16) [----] for $i1 in 1:3 loop (6|16) [----] [SCAL] (1) m_flow_IN_var_1[$i1].lambda = lambda[$i1] ($RES_BND_26) (6|16) [----] end for; (7|19) [FOR-] (3) ($RES_BND_41) (7|19) [----] for $i1 in 1:3 loop (7|19) [----] [SCAL] (1) m_flow_IN_var_2[$i1].lambda = lambda[$i1] ($RES_BND_42) (7|19) [----] end for; (8|22) [FOR-] (3) ($RES_BND_27) (8|22) [----] for $i1 in 1:3 loop (8|22) [----] [SCAL] (1) m_flow_IN_var_1[$i1].rho = rho[$i1] ($RES_BND_28) (8|22) [----] end for; (9|25) [FOR-] (3) ($RES_BND_43) (9|25) [----] for $i1 in 1:3 loop (9|25) [----] [SCAL] (1) m_flow_IN_var_2[$i1].rho = rho[$i1] ($RES_BND_44) (9|25) [----] end for; (10|28) [FOR-] (3) ($RES_BND_29) (10|28) [----] for $i1 in 1:3 loop (10|28) [----] [SCAL] (1) m_flow_IN_var_1[$i1].m_flow = m_flow_1[$i1] ($RES_BND_30) (10|28) [----] end for; (11|31) [FOR-] (3) ($RES_BND_45) (11|31) [----] for $i1 in 1:3 loop (11|31) [----] [SCAL] (1) m_flow_IN_var_2[$i1].m_flow = m_flow_2[$i1] ($RES_BND_46) (11|31) [----] end for; (12|34) [FOR-] (3) ($RES_BND_61) (12|34) [----] for $i1 in 1:3 loop (12|34) [----] [SCAL] (1) m_flow_IN_var_3[$i1].m_flow = m_flow_3[$i1] ($RES_BND_62) (12|34) [----] end for; (13|37) [FOR-] (3) ($RES_BND_47) (13|37) [----] for $i1 in 1:3 loop (13|37) [----] [SCAL] (1) m_flow_IN_con_3[$i1].d_hyd = d_hyd ($RES_BND_48) (13|37) [----] end for; (14|40) [FOR-] (3) ($RES_BND_63) (14|40) [----] for $i1 in 1:3 loop (14|40) [----] [SCAL] (1) m_flow_IN_con_4[$i1].d_hyd = d_hyd ($RES_BND_64) (14|40) [----] end for; (15|43) [FOR-] (3) ($RES_BND_49) (15|43) [----] for $i1 in 1:3 loop (15|43) [----] [SCAL] (1) m_flow_IN_con_3[$i1].L = L ($RES_BND_50) (15|43) [----] end for; (16|46) [FOR-] (3) ($RES_BND_65) (16|46) [----] for $i1 in 1:3 loop (16|46) [----] [SCAL] (1) m_flow_IN_con_4[$i1].L = L ($RES_BND_66) (16|46) [----] end for; (17|49) [FOR-] (3) ($RES_BND_81) (17|49) [----] for $i1 in 1:3 loop (17|49) [----] [SCAL] (1) Re_2[$i1] = 4.0 * d_hyd * $FUN_3[$i1] / 3.141592653589793 / eta[$i1] / d_hyd ^ 2.0 ($RES_BND_82) (17|49) [----] end for; (18|52) [FOR-] (3) ($RES_SIM_91) (18|52) [----] for i in 1:3 loop (18|52) [----] [SCAL] (1) kc_3[i] = Modelica.Fluid.Dissipation.HeatTransfer.StraightPipe.kc_laminar_KC(m_flow_IN_con_3[i], m_flow_IN_var_3[i]) ($RES_SIM_92) (18|52) [----] end for; (19|55) [FOR-] (3) ($RES_BND_67) (19|55) [----] for $i1 in 1:3 loop (19|55) [----] [SCAL] (1) m_flow_IN_con_4[$i1].target = Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UHFuUFF ($RES_BND_68) (19|55) [----] end for; (20|58) [FOR-] (3) ($RES_BND_83) (20|58) [----] for $i1 in 1:3 loop (20|58) [----] [SCAL] (1) Re_3[$i1] = 4.0 * d_hyd * $FUN_2[$i1] / 3.141592653589793 / eta[$i1] / d_hyd ^ 2.0 ($RES_BND_84) (20|58) [----] end for; (21|61) [FOR-] (3) ($RES_BND_9) (21|61) [----] for $i1 in 1:3 loop (21|61) [----] [SCAL] (1) kc_2[$i1] = lambda[$i1] * Nu[$i1] / d_hyd ($RES_BND_10) (21|61) [----] end for; (22|64) [FOR-] (3) ($RES_SIM_93) (22|64) [----] for i in 1:3 loop (22|64) [----] [SCAL] (1) kc_4[i] = Modelica.Fluid.Dissipation.HeatTransfer.StraightPipe.kc_laminar_KC(m_flow_IN_con_4[i], m_flow_IN_var_4[i]) ($RES_SIM_94) (22|64) [----] end for; (23|67) [FOR-] (3) ($RES_BND_69) (23|67) [----] for $i1 in 1:3 loop (23|67) [----] [SCAL] (1) m_flow_IN_var_4[$i1].cp = cp[$i1] ($RES_BND_70) (23|67) [----] end for; (24|70) [FOR-] (3) ($RES_BND_85) (24|70) [----] for $i1 in 1:3 loop (24|70) [----] [SCAL] (1) Re_4[$i1] = 4.0 * d_hyd * $FUN_1[$i1] / 3.141592653589793 / eta[$i1] / d_hyd ^ 2.0 ($RES_BND_86) (24|70) [----] end for; (25|73) [FOR-] (3) ($RES_BND_7) (25|73) [----] for $i1 in 1:3 loop (25|73) [----] [SCAL] (1) kc_1[$i1] = lambda[$i1] * Nu[$i1] / d_hyd ($RES_BND_8) (25|73) [----] end for; (26|76) [FOR-] (3) ($RES_BND_5) (26|76) [----] for $i1 in 1:3 loop (26|76) [----] [SCAL] (1) Nu[$i1] = input_Nu.y ($RES_BND_6) (26|76) [----] end for; (27|79) [SCAL] (1) $TEV_0 = time < input_Nu.startTime ($RES_EVT_103) (28|80) [FOR-] (3) ($RES_BND_11) (28|80) [----] for $i1 in 1:3 loop (28|80) [----] [SCAL] (1) kc_3[$i1] = lambda[$i1] * Nu[$i1] / d_hyd ($RES_BND_12) (28|80) [----] end for; (29|83) [SCAL] (1) $TEV_1 = time < (input_Nu.startTime + input_Nu.duration) ($RES_EVT_104) (30|84) [FOR-] (3) ($RES_BND_13) (30|84) [----] for $i1 in 1:3 loop (30|84) [----] [SCAL] (1) kc_4[$i1] = lambda[$i1] * Nu[$i1] / d_hyd ($RES_BND_14) (30|84) [----] end for; (31|87) [FOR-] (3) ($RES_BND_15) (31|87) [----] for $i1 in 1:3 loop (31|87) [----] [SCAL] (1) m_flow_IN_con_1[$i1].d_hyd = d_hyd ($RES_BND_16) (31|87) [----] end for; (32|90) [FOR-] (3) ($RES_BND_31) (32|90) [----] for $i1 in 1:3 loop (32|90) [----] [SCAL] (1) m_flow_IN_con_2[$i1].d_hyd = d_hyd ($RES_BND_32) (32|90) [----] end for; (33|93) [FOR-] (3) ($RES_BND_17) (33|93) [----] for $i1 in 1:3 loop (33|93) [----] [SCAL] (1) m_flow_IN_con_1[$i1].L = L ($RES_BND_18) (33|93) [----] end for; (34|96) [FOR-] (3) ($RES_BND_33) (34|96) [----] for $i1 in 1:3 loop (34|96) [----] [SCAL] (1) m_flow_IN_con_2[$i1].L = L ($RES_BND_34) (34|96) [----] end for; (35|99) [FOR-] (3) ($RES_BND_19) (35|99) [----] for $i1 in 1:3 loop (35|99) [----] [SCAL] (1) m_flow_IN_con_1[$i1].target = Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UWTuDFF ($RES_BND_20) (35|99) [----] end for; (36|102) [FOR-] (3) ($RES_BND_35) (36|102) [----] for $i1 in 1:3 loop (36|102) [----] [SCAL] (1) m_flow_IN_con_2[$i1].target = Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UHFuDFF ($RES_BND_36) (36|102) [----] end for; (37|105) [FOR-] (3) ($RES_BND_51) (37|105) [----] for $i1 in 1:3 loop (37|105) [----] [SCAL] (1) m_flow_IN_con_3[$i1].target = Modelica.Fluid.Dissipation.Utilities.Types.HeatTransferBoundary.UWTuUFF ($RES_BND_52) (37|105) [----] end for; (38|108) [FOR-] (3) ($RES_BND_37) (38|108) [----] for $i1 in 1:3 loop (38|108) [----] [SCAL] (1) m_flow_IN_var_2[$i1].cp = cp[$i1] ($RES_BND_38) (38|108) [----] end for; (39|111) [FOR-] (3) ($RES_BND_53) (39|111) [----] for $i1 in 1:3 loop (39|111) [----] [SCAL] (1) m_flow_IN_var_3[$i1].cp = cp[$i1] ($RES_BND_54) (39|111) [----] end for; (40|114) [FOR-] (3) ($RES_BND_39) (40|114) [----] for $i1 in 1:3 loop (40|114) [----] [SCAL] (1) m_flow_IN_var_2[$i1].eta = eta[$i1] ($RES_BND_40) (40|114) [----] end for; (41|117) [FOR-] (3) ($RES_BND_55) (41|117) [----] for $i1 in 1:3 loop (41|117) [----] [SCAL] (1) m_flow_IN_var_3[$i1].eta = eta[$i1] ($RES_BND_56) (41|117) [----] end for; (42|120) [FOR-] (3) ($RES_BND_71) (42|120) [----] for $i1 in 1:3 loop (42|120) [----] [SCAL] (1) m_flow_IN_var_4[$i1].eta = eta[$i1] ($RES_BND_72) (42|120) [----] end for; (43|123) [FOR-] (3) ($RES_AUX_101) (43|123) [----] for $i1 in 1:3 loop (43|123) [----] [SCAL] (1) $FUN_1[$i1] = abs(m_flow_4[$i1]) ($RES_AUX_102) (43|123) [----] end for; (44|126) [FOR-] (3) ($RES_BND_57) (44|126) [----] for $i1 in 1:3 loop (44|126) [----] [SCAL] (1) m_flow_IN_var_3[$i1].lambda = lambda[$i1] ($RES_BND_58) (44|126) [----] end for; (45|129) [FOR-] (3) ($RES_BND_73) (45|129) [----] for $i1 in 1:3 loop (45|129) [----] [SCAL] (1) m_flow_IN_var_4[$i1].lambda = lambda[$i1] ($RES_BND_74) (45|129) [----] end for; (46|132) [FOR-] (3) ($RES_BND_59) (46|132) [----] for $i1 in 1:3 loop (46|132) [----] [SCAL] (1) m_flow_IN_var_3[$i1].rho = rho[$i1] ($RES_BND_60) (46|132) [----] end for; (47|135) [SCAL] (1) input_Nu.y = input_Nu.offset + (if $TEV_0 then 0.0 else if $TEV_1 then (input_Nu.height * (time - input_Nu.startTime)) / input_Nu.duration else input_Nu.height) ($RES_SIM_4) (48|136) [FOR-] (3) ($RES_BND_75) (48|136) [----] for $i1 in 1:3 loop (48|136) [----] [SCAL] (1) m_flow_IN_var_4[$i1].rho = rho[$i1] ($RES_BND_76) (48|136) [----] end for; (49|139) [FOR-] (3) ($RES_BND_77) (49|139) [----] for $i1 in 1:3 loop (49|139) [----] [SCAL] (1) m_flow_IN_var_4[$i1].m_flow = m_flow_4[$i1] ($RES_BND_78) (49|139) [----] end for; (50|142) [FOR-] (3) ($RES_SIM_87) (50|142) [----] for i in 1:3 loop (50|142) [----] [SCAL] (1) kc_1[i] = Modelica.Fluid.Dissipation.HeatTransfer.StraightPipe.kc_laminar_KC(m_flow_IN_con_1[i], m_flow_IN_var_1[i]) ($RES_SIM_88) (50|142) [----] end for; (51|145) [FOR-] (3) ($RES_BND_79) (51|145) [----] for $i1 in 1:3 loop (51|145) [----] [SCAL] (1) Re_1[$i1] = 4.0 * d_hyd * $FUN_4[$i1] / 3.141592653589793 / eta[$i1] / d_hyd ^ 2.0 ($RES_BND_80) (51|145) [----] end for; (52|148) [FOR-] (3) ($RES_SIM_89) (52|148) [----] for i in 1:3 loop (52|148) [----] [SCAL] (1) kc_2[i] = Modelica.Fluid.Dissipation.HeatTransfer.StraightPipe.kc_laminar_KC(m_flow_IN_con_2[i], m_flow_IN_var_2[i]) ($RES_SIM_90) (52|148) [----] end for; =================== Scalar Matching =================== variable to equation ********************** var 1 --> eqn 1 var 2 --> eqn 2 var 3 --> eqn 3 var 4 --> eqn 4 var 5 --> eqn 5 var 6 --> eqn 6 var 7 --> eqn 10 var 8 --> eqn 11 var 9 --> eqn 12 var 10 --> eqn 84 var 11 --> eqn 85 var 12 --> eqn 86 var 13 --> eqn 123 var 14 --> eqn 124 var 15 --> eqn 125 var 16 --> eqn 80 var 17 --> eqn 81 var 18 --> eqn 82 var 19 --> eqn 61 var 20 --> eqn 62 var 21 --> eqn 63 var 22 --> eqn 73 var 23 --> eqn 74 var 24 --> eqn 75 var 25 --> eqn 40 var 26 --> eqn 41 var 27 --> eqn 42 var 28 --> eqn 135 var 29 --> eqn 37 var 30 --> eqn 38 var 31 --> eqn 39 var 32 --> eqn 90 var 33 --> eqn 91 var 34 --> eqn 92 var 35 --> eqn 87 var 36 --> eqn 88 var 37 --> eqn 89 var 38 --> eqn 7 var 39 --> eqn 8 var 40 --> eqn 9 var 41 --> eqn 108 var 42 --> eqn 109 var 43 --> eqn 110 var 44 --> eqn 111 var 45 --> eqn 112 var 46 --> eqn 113 var 47 --> eqn 67 var 48 --> eqn 68 var 49 --> eqn 69 var 50 --> eqn 142 var 51 --> eqn 143 var 52 --> eqn 144 var 53 --> eqn 148 var 54 --> eqn 149 var 55 --> eqn 150 var 56 --> eqn 52 var 57 --> eqn 53 var 58 --> eqn 54 var 59 --> eqn 64 var 60 --> eqn 65 var 61 --> eqn 66 var 62 --> eqn 70 var 63 --> eqn 71 var 64 --> eqn 72 var 65 --> eqn 55 var 66 --> eqn 56 var 67 --> eqn 57 var 68 --> eqn 58 var 69 --> eqn 59 var 70 --> eqn 60 var 71 --> eqn 105 var 72 --> eqn 106 var 73 --> eqn 107 var 74 --> eqn 49 var 75 --> eqn 50 var 76 --> eqn 51 var 77 --> eqn 102 var 78 --> eqn 103 var 79 --> eqn 104 var 80 --> eqn 145 var 81 --> eqn 146 var 82 --> eqn 147 var 83 --> eqn 99 var 84 --> eqn 100 var 85 --> eqn 101 var 86 --> eqn 83 var 87 --> eqn 16 var 88 --> eqn 17 var 89 --> eqn 18 var 90 --> eqn 79 var 91 --> eqn 19 var 92 --> eqn 20 var 93 --> eqn 21 var 94 --> eqn 76 var 95 --> eqn 77 var 96 --> eqn 78 var 97 --> eqn 126 var 98 --> eqn 127 var 99 --> eqn 128 var 100 --> eqn 129 var 101 --> eqn 130 var 102 --> eqn 131 var 103 --> eqn 13 var 104 --> eqn 14 var 105 --> eqn 15 var 106 --> eqn 114 var 107 --> eqn 115 var 108 --> eqn 116 var 109 --> eqn 117 var 110 --> eqn 118 var 111 --> eqn 119 var 112 --> eqn 46 var 113 --> eqn 47 var 114 --> eqn 48 var 115 --> eqn 22 var 116 --> eqn 23 var 117 --> eqn 24 var 118 --> eqn 139 var 119 --> eqn 140 var 120 --> eqn 141 var 121 --> eqn 43 var 122 --> eqn 44 var 123 --> eqn 45 var 124 --> eqn 120 var 125 --> eqn 121 var 126 --> eqn 122 var 127 --> eqn 34 var 128 --> eqn 35 var 129 --> eqn 36 var 130 --> eqn 96 var 131 --> eqn 97 var 132 --> eqn 98 var 133 --> eqn 25 var 134 --> eqn 26 var 135 --> eqn 27 var 136 --> eqn 31 var 137 --> eqn 32 var 138 --> eqn 33 var 139 --> eqn 93 var 140 --> eqn 94 var 141 --> eqn 95 var 142 --> eqn 132 var 143 --> eqn 133 var 144 --> eqn 134 var 145 --> eqn 28 var 146 --> eqn 29 var 147 --> eqn 30 var 148 --> eqn 136 var 149 --> eqn 137 var 150 --> eqn 138 equation to variable ********************** eqn 1 --> var 1 eqn 2 --> var 2 eqn 3 --> var 3 eqn 4 --> var 4 eqn 5 --> var 5 eqn 6 --> var 6 eqn 7 --> var 38 eqn 8 --> var 39 eqn 9 --> var 40 eqn 10 --> var 7 eqn 11 --> var 8 eqn 12 --> var 9 eqn 13 --> var 103 eqn 14 --> var 104 eqn 15 --> var 105 eqn 16 --> var 87 eqn 17 --> var 88 eqn 18 --> var 89 eqn 19 --> var 91 eqn 20 --> var 92 eqn 21 --> var 93 eqn 22 --> var 115 eqn 23 --> var 116 eqn 24 --> var 117 eqn 25 --> var 133 eqn 26 --> var 134 eqn 27 --> var 135 eqn 28 --> var 145 eqn 29 --> var 146 eqn 30 --> var 147 eqn 31 --> var 136 eqn 32 --> var 137 eqn 33 --> var 138 eqn 34 --> var 127 eqn 35 --> var 128 eqn 36 --> var 129 eqn 37 --> var 29 eqn 38 --> var 30 eqn 39 --> var 31 eqn 40 --> var 25 eqn 41 --> var 26 eqn 42 --> var 27 eqn 43 --> var 121 eqn 44 --> var 122 eqn 45 --> var 123 eqn 46 --> var 112 eqn 47 --> var 113 eqn 48 --> var 114 eqn 49 --> var 74 eqn 50 --> var 75 eqn 51 --> var 76 eqn 52 --> var 56 eqn 53 --> var 57 eqn 54 --> var 58 eqn 55 --> var 65 eqn 56 --> var 66 eqn 57 --> var 67 eqn 58 --> var 68 eqn 59 --> var 69 eqn 60 --> var 70 eqn 61 --> var 19 eqn 62 --> var 20 eqn 63 --> var 21 eqn 64 --> var 59 eqn 65 --> var 60 eqn 66 --> var 61 eqn 67 --> var 47 eqn 68 --> var 48 eqn 69 --> var 49 eqn 70 --> var 62 eqn 71 --> var 63 eqn 72 --> var 64 eqn 73 --> var 22 eqn 74 --> var 23 eqn 75 --> var 24 eqn 76 --> var 94 eqn 77 --> var 95 eqn 78 --> var 96 eqn 79 --> var 90 eqn 80 --> var 16 eqn 81 --> var 17 eqn 82 --> var 18 eqn 83 --> var 86 eqn 84 --> var 10 eqn 85 --> var 11 eqn 86 --> var 12 eqn 87 --> var 35 eqn 88 --> var 36 eqn 89 --> var 37 eqn 90 --> var 32 eqn 91 --> var 33 eqn 92 --> var 34 eqn 93 --> var 139 eqn 94 --> var 140 eqn 95 --> var 141 eqn 96 --> var 130 eqn 97 --> var 131 eqn 98 --> var 132 eqn 99 --> var 83 eqn 100 --> var 84 eqn 101 --> var 85 eqn 102 --> var 77 eqn 103 --> var 78 eqn 104 --> var 79 eqn 105 --> var 71 eqn 106 --> var 72 eqn 107 --> var 73 eqn 108 --> var 41 eqn 109 --> var 42 eqn 110 --> var 43 eqn 111 --> var 44 eqn 112 --> var 45 eqn 113 --> var 46 eqn 114 --> var 106 eqn 115 --> var 107 eqn 116 --> var 108 eqn 117 --> var 109 eqn 118 --> var 110 eqn 119 --> var 111 eqn 120 --> var 124 eqn 121 --> var 125 eqn 122 --> var 126 eqn 123 --> var 13 eqn 124 --> var 14 eqn 125 --> var 15 eqn 126 --> var 97 eqn 127 --> var 98 eqn 128 --> var 99 eqn 129 --> var 100 eqn 130 --> var 101 eqn 131 --> var 102 eqn 132 --> var 142 eqn 133 --> var 143 eqn 134 --> var 144 eqn 135 --> var 28 eqn 136 --> var 148 eqn 137 --> var 149 eqn 138 --> var 150 eqn 139 --> var 118 eqn 140 --> var 119 eqn 141 --> var 120 eqn 142 --> var 50 eqn 143 --> var 51 eqn 144 --> var 52 eqn 145 --> var 80 eqn 146 --> var 81 eqn 147 --> var 82 eqn 148 --> var 53 eqn 149 --> var 54 eqn 150 --> var 55 " [Timeout remaining time 660] [Calling sys.exit(0), Time elapsed: 3.4125420819036663] Failed to read output from testmodel.py, exit status != 0: ['time', 'cp[1]', 'cp[2]', 'cp[3]', 'eta[1]', 'eta[2]', 'eta[3]', 'lambda[1]', 'lambda[2]', 'lambda[3]', 'rho[1]', 'rho[2]', 'rho[3]', 'Nu[1]', 'Nu[2]', 'Nu[3]', 'm_flow_1[1]', 'm_flow_1[2]', 'm_flow_1[3]', 'm_flow_2[1]', 'm_flow_2[2]', 'm_flow_2[3]', 'm_flow_3[1]', 'm_flow_3[2]', 'm_flow_3[3]', 'm_flow_4[1]', 'm_flow_4[2]', 'm_flow_4[3]', 'kc_1[1]', 'kc_1[2]', 'kc_1[3]', 'kc_2[1]', 'kc_2[2]', 'kc_2[3]', 'kc_3[1]', 'kc_3[2]', 'kc_3[3]', 'kc_4[1]', 'kc_4[2]', 'kc_4[3]', 'Re_1[1]', 'Re_1[2]', 'Re_1[3]', 'Re_2[1]', 'Re_2[2]', 'Re_2[3]', 'Re_3[1]', 'Re_3[2]', 'Re_3[3]', 'Re_4[1]', 'Re_4[2]', 'Re_4[3]', 'input_Nu.y'] 0.03028217377141118 0.31048240399999993 0.29776682499999996 Calling exit ...