Running: ./testmodel.py --libraries=/home/hudson/saved_omc/libraries/.openmodelica/libraries --ompython_omhome=/usr ThermofluidStream_dev_ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.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 0.001388/0.001388, allocations: 104.3 kB / 19.77 MB, free: 2.051 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 0.001604/0.001604, allocations: 213.2 kB / 23.07 MB, free: 4.844 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 1.461/1.461, allocations: 230.7 MB / 256.9 MB, free: 7.766 MB / 206.1 MB " [Timeout remaining time 178] loadFile("/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo", uses=false) [Timeout 180] "Notification: Performance of loadFile(/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/package.mo): time 0.8328/0.8328, allocations: 100.9 MB / 414.2 MB, free: 2.832 MB / 318.1 MB " [Timeout remaining time 179] Using package ThermofluidStream with version 1.2.0 (/home/hudson/saved_omc/libraries/.openmodelica/libraries/ThermofluidStream main/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(ThermofluidStream.Undirected.Boundaries.Tests.Reservoir,tolerance=1e-06,outputFormat="mat",numberOfIntervals=1000,variableFilter="Time|reservoir.M|reservoir.U_med|reservoir.m_flow_fore|reservoir.m_flow_rear|reservoir2.M|reservoir2.U_med|reservoir2.m_flow_in|reservoir2.m_flow_out",fileNamePrefix="ThermofluidStream_dev_ThermofluidStream.Undirected.Boundaries.Tests.Reservoir") translateModel(ThermofluidStream.Undirected.Boundaries.Tests.Reservoir,tolerance=1e-06,outputFormat="mat",numberOfIntervals=1000,variableFilter="Time|reservoir.M|reservoir.U_med|reservoir.m_flow_fore|reservoir.m_flow_rear|reservoir2.M|reservoir2.U_med|reservoir2.m_flow_in|reservoir2.m_flow_out",fileNamePrefix="ThermofluidStream_dev_ThermofluidStream.Undirected.Boundaries.Tests.Reservoir") [Timeout 660] "Notification: Performance of FrontEnd - Absyn->SCode: time 2.516e-05/2.516e-05, allocations: 8.109 kB / 0.5654 GB, free: 35.36 MB / 446.1 MB Notification: Performance of NFInst.instantiate(ThermofluidStream.Undirected.Boundaries.Tests.Reservoir): time 0.03934/0.03936, allocations: 37.6 MB / 0.6021 GB, free: 9.797 MB / 446.1 MB Notification: Performance of NFInst.instExpressions: time 0.007889/0.04725, allocations: 4.964 MB / 0.6069 GB, free: 5.844 MB / 446.1 MB Notification: Performance of NFInst.updateImplicitVariability: time 0.001721/0.04897, allocations: 60.22 kB / 0.607 GB, free: 5.809 MB / 446.1 MB Notification: Performance of NFTyping.typeComponents: time 0.001476/0.05045, allocations: 0.4955 MB / 0.6075 GB, free: 5.398 MB / 446.1 MB Notification: Performance of NFTyping.typeBindings: time 0.003765/0.05422, allocations: 1.378 MB / 0.6088 GB, free: 4.027 MB / 446.1 MB Notification: Performance of NFTyping.typeClassSections: time 0.002452/0.05667, allocations: 0.903 MB / 0.6097 GB, free: 3.125 MB / 446.1 MB Notification: Performance of NFFlatten.flatten: time 0.003751/0.06042, allocations: 2.499 MB / 0.6121 GB, free: 0.6172 MB / 446.1 MB Notification: Performance of NFFlatten.resolveConnections: time 0.0006924/0.06111, allocations: 157.1 kB / 0.6123 GB, free: 464 kB / 446.1 MB Notification: Performance of NFEvalConstants.evaluate: time 0.004519/0.06563, allocations: 1.482 MB / 0.6137 GB, free: 14.96 MB / 462.1 MB Notification: Performance of NFSimplifyModel.simplify: time 0.00143/0.06706, allocations: 0.7307 MB / 0.6144 GB, free: 14.23 MB / 462.1 MB Notification: Performance of NFPackage.collectConstants: time 0.0002099/0.06727, allocations: 104 kB / 0.6145 GB, free: 14.13 MB / 462.1 MB Notification: Performance of NFFlatten.collectFunctions: time 0.0028/0.07007, allocations: 0.7723 MB / 0.6153 GB, free: 13.36 MB / 462.1 MB Notification: Performance of combineBinaries: time 0.003136/0.07321, allocations: 2.785 MB / 0.618 GB, free: 10.54 MB / 462.1 MB Notification: Performance of replaceArrayConstructors: time 0.001882/0.07509, allocations: 1.768 MB / 0.6197 GB, free: 8.758 MB / 462.1 MB Notification: Performance of NFVerifyModel.verify: time 0.0004613/0.07555, allocations: 128 kB / 0.6199 GB, free: 8.633 MB / 462.1 MB Notification: Performance of FrontEnd: time 0.0006358/0.07618, allocations: 103.6 kB / 0.62 GB, free: 8.531 MB / 462.1 MB Notification: Model statistics after passing the front-end and creating the data structures used by the back-end: * Number of equations: 226 (208) * Number of variables: 230 (230) Notification: Performance of [SIM] Bindings: time 0.008915/0.0851, allocations: 6.429 MB / 0.6262 GB, free: 1.879 MB / 462.1 MB Notification: Performance of [SIM] FunctionAlias: time 0.001017/0.08612, allocations: 0.6826 MB / 0.6269 GB, free: 1.168 MB / 462.1 MB Notification: Performance of [SIM] Early Inline: time 0.0057/0.09182, allocations: 4.045 MB / 0.6309 GB, free: 13.08 MB / 478.1 MB Notification: Performance of [SIM] Simplify 1: time 0.001458/0.09327, allocations: 0.652 MB / 0.6315 GB, free: 12.36 MB / 478.1 MB Notification: Performance of [SIM] Alias: time 0.006595/0.09987, allocations: 4.033 MB / 0.6354 GB, free: 7.941 MB / 478.1 MB Notification: Performance of [SIM] Simplify 2: time 0.001145/0.101, allocations: 0.6371 MB / 0.6361 GB, free: 7.234 MB / 478.1 MB Notification: Performance of [SIM] Remove Stream: time 0.000484/0.1015, allocations: 320 kB / 0.6364 GB, free: 6.883 MB / 478.1 MB Notification: Performance of [SIM] Detect States: time 0.0009758/0.1025, allocations: 0.7893 MB / 0.6371 GB, free: 6.027 MB / 478.1 MB Notification: Performance of [SIM] Events: time 0.0006434/0.1031, allocations: 370.8 kB / 0.6375 GB, free: 5.664 MB / 478.1 MB Notification: Performance of [SIM] Partitioning: time 0.001849/0.105, allocations: 1.43 MB / 0.6389 GB, free: 4.188 MB / 478.1 MB Error: Internal error NBSorting.tarjan failed to sort system: System Variables (68/68) ************************** (1|1) [ALGB] (1) protected Real sink1.p = ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.sink1.Medium.pressure(sink1.inlet.state) (2|2) [ALGB] (1) protected Real reservoir2.state_out.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (3|3) [DER-] (1) Real $DER.reservoir2.m_flow_out (4|4) [ALGB] (1) Real reservoir2.medium.h (5|5) [ALGB] (1) protected Real reservoir2.p_in = ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.reservoir2.Medium.pressure(reservoir2.state_in) (6|6) [ALGB] (1) output Real flowResistance4.outlet.state.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (7|7) [ALGB] (1) Real reservoir2.W_v (8|8) [ALGB] (1) output Real flowResistance5.outlet.state.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (9|9) [ALGB] (1) protected Real reservoir2.h_out = if noEvent((-reservoir2.m_flow_out) >= 0.0) then ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.reservoir2.Medium.specificEnthalpy(reservoir2.state_out) else reservoir2.medium.h (10|10) [DER-] (1) Real $DER.reservoir2.U_med (11|11) [ALGB] (1) protected Real reservoir2.r_in (12|12) [ALGB] (1) output Real source1.outlet.state.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (13|13) [ALGB] (1) input Real flowResistance5.inlet.state.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (14|14) [ALGB] (1) input Real flowResistance4.inlet.state.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (15|15) [ALGB] (1) protected Real reservoir2.d = reservoir2.k_volume_damping * sqrt(abs((2.0 * reservoir2.L) / (reservoir2.V * max(reservoir2.density_derp_h, 1e-10)))) (16|16) [ALGB] (1) Real flowResistance4.dr_corr (17|17) [ALGB] (1) Real flowResistance5.dr_corr (18|18) [ALGB] (1) input Real sink1.inlet.state.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (19|19) [ALGB] (1) protected Real flowResistance5.p_out (20|20) [DISC] (1) Boolean $SEV_28 (21|21) [ALGB] (1) protected Real flowResistance4.p_out (22|22) [ALGB] (1) protected Real reservoir2.density_derp_h (23|23) [ALGB] (1) Real sink1.inlet.r (24|24) [DISC] (1) Boolean $SEV_27 (25|25) [DISC] (1) Boolean $SEV_26 (26|26) [ALGB] (1) Real reservoir2.medium.d (start = 1.0, min = 0.0, max = 1e5, nominal = 1.0) (27|27) [DISC] (1) Boolean $SEV_25 (28|28) [DISC] (1) Boolean $SEV_24 (29|29) [ALGB] (1) protected Real reservoir2.r (30|30) [DER-] (1) Real $DER.reservoir2.V (31|31) [DER-] (1) Real $DER.reservoir2.m_flow_in (32|32) [ALGB] (1) Real $FUN_2 (33|33) [ALGB] (1) Real $FUN_1 (34|34) [ALGB] (1) input Real reservoir2.inlet.state.T = reservoir2.state_in.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (35|35) [ALGB] (1) input Real reservoir2.inlet.state.p = reservoir2.state_in.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (36|36) [ALGB] (1) protected Real reservoir2.T_heatPort (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (37|37) [ALGB] (1) Real reservoir2.medium.p_bar = Modelica.Units.Conversions.to_bar(99999.99999999999 * reservoir2.medium.p_bar) (min = 0.0) (38|38) [ALGB] (1) protected Real reservoir2.state_in.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (39|39) [ALGB] (1) protected Real sink1.r (40|40) [ALGB] (1) protected Real reservoir2.state_out.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (41|41) [ALGB] (1) protected Real flowResistance4.h_out (42|42) [ALGB] (1) protected Real flowResistance5.h_out (43|43) [DER-] (1) Real $DER.reservoir2.M (44|44) [ALGB] (1) input Real sink1.inlet.state.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (45|45) [ALGB] (1) output Real reservoir2.outlet.state.T = reservoir2.state_out.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (46|46) [ALGB] (1) input Real flowResistance5.inlet.state.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (47|47) [ALGB] (1) input Real flowResistance4.inlet.state.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (48|48) [ALGB] (1) Real reservoir2.height (min = 0.0) (49|49) [DISC] (1) Boolean $TEV_3 (50|50) [ALGB] (1) Real reservoir2.Q_flow (51|51) [ALGB] (1) protected Real reservoir2.r_damping = reservoir2.d * der(reservoir2.M) (52|52) [DISC] (1) Boolean $TEV_2 (53|53) [ALGB] (1) Real source1.outlet.r (54|54) [ALGB] (1) output Real flowResistance5.outlet.state.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (55|55) [ALGB] (1) protected Real flowResistance4.p_in = ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.flowResistance4.Medium.pressure(flowResistance4.inlet.state) (56|56) [ALGB] (1) output Real flowResistance4.outlet.state.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (57|57) [ALGB] (1) Real reservoir2.medium.state.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (58|58) [ALGB] (1) protected Real reservoir2.state_in.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (59|59) [ALGB] (1) protected Real reservoir2.h_in = if noEvent(reservoir2.m_flow_in >= 0.0) then ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.reservoir2.Medium.specificEnthalpy(reservoir2.state_in) else reservoir2.medium.h (60|60) [ALGB] (1) protected Real flowResistance5.p_in = ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.flowResistance5.Medium.pressure(flowResistance5.inlet.state) (61|61) [ALGB] (1) protected Real flowResistance5.rho_in = max(flowResistance5.rho_min, ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.flowResistance5.Medium.density(flowResistance5.inlet.state)) (min = 0.0) (62|62) [ALGB] (1) output Real source1.outlet.state.T (start = 288.15, min = 1.0, max = 1e4, nominal = 300.0) (63|63) [ALGB] (1) Real reservoir2.medium.state.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (64|64) [ALGB] (1) protected Real flowResistance4.rho_in = max(flowResistance4.rho_min, ThermofluidStream.Undirected.Boundaries.Tests.Reservoir.flowResistance4.Medium.density(flowResistance4.inlet.state)) (min = 0.0) (65|65) [ALGB] (1) protected Real reservoir2.r_out (66|66) [ALGB] (1) output Real reservoir2.outlet.state.p = reservoir2.state_out.p (start = 1e5, min = 0.0, max = 1e8, nominal = 1e5) (67|67) [ALGB] (1) Real reservoir2.medium.u (min = -1e8, max = 1e8, nominal = 1e6) (68|68) [ALGB] (1) protected Real reservoir2.p_env System Equations (63/66) ************************** (1|1) [SCAL] (1) $SEV_25 = reservoir2.height > reservoir2.height_min ($RES_EVT_289) (2|2) [SCAL] (1) flowResistance4.dr_corr = flowResistance4.p_in - (flowResistance4.p_out + 100.0 * reservoir2.m_flow_in) ($RES_SIM_16) (3|3) [SCAL] (1) reservoir2.T_heatPort = reservoir2.medium.state.T ($RES_SIM_52) (4|4) [SCAL] (1) flowResistance4.p_out = max(flowResistance4.p_min, flowResistance4.p_in - 100.0 * reservoir2.m_flow_in) ($RES_SIM_17) (5|5) [SCAL] (1) 99999.99999999999 * reservoir2.medium.p_bar = reservoir2.medium.state.p ($RES_SIM_53) (6|6) [SCAL] (1) reservoir2.r_in = (flowResistance4.dr_corr + source1.outlet.r) - $DER.reservoir2.m_flow_in * flowResistance4.L ($RES_SIM_18) (7|7) [SCAL] (1) reservoir2.medium.u = reservoir2.medium.h - (99999.99999999999 * reservoir2.medium.p_bar) / reservoir2.medium.d ($RES_SIM_54) (8|8) [SCAL] (1) reservoir2.medium.h = 104929.0 + 4181.9 * ((-278.15) + reservoir2.T_heatPort) + 9.312264084047942e-4 * ((-101325.0) + 99999.99999999999 * reservoir2.medium.p_bar) ($RES_SIM_55) (9|9) [RECD] (2) reservoir2.inlet.state = reservoir2.state_in ($RES_BND_224) (10|11) [SCAL] (1) reservoir2.medium.d = 997.05 * ((1.0 + 4.5154e-10 * ((-101325.0) + 99999.99999999999 * reservoir2.medium.p_bar)) - 2.5713e-4 * ((-278.15) + reservoir2.T_heatPort)) ($RES_SIM_56) (11|12) [RECD] (2) reservoir2.outlet.state = reservoir2.state_out ($RES_BND_225) (12|14) [SCAL] (1) $FUN_2 = sqrt($FUN_1) ($RES_AUX_228) (13|15) [SCAL] (1) $FUN_1 = abs((2.0 * reservoir2.L) / (reservoir2.V * max(reservoir2.density_derp_h, 1e-10))) ($RES_AUX_229) (14|16) [SCAL] (1) $SEV_26 = reservoir2.m_flow_in > reservoir2.m_flow_assert ($RES_EVT_290) (15|17) [SCAL] (1) $SEV_27 = (-reservoir2.m_flow_out) > reservoir2.m_flow_assert ($RES_EVT_291) (16|18) [SCAL] (1) $SEV_28 = reservoir2.M > 0.0 ($RES_EVT_292) (17|19) [SCAL] (1) reservoir2.p_env = ramp.offset + (if $TEV_2 then 0.0 else if $TEV_3 then (ramp.height * (time - ramp.startTime)) / ramp.duration else ramp.height) ($RES_SIM_22) (18|20) [SCAL] (1) sink1.r + sink1.p = sink1.p0_par ($RES_SIM_23) (19|21) [SCAL] (1) (-$DER.reservoir2.m_flow_out) * sink1.L = sink1.inlet.r - sink1.r ($RES_SIM_24) (20|22) [SCAL] (1) source1.L * (-$DER.reservoir2.m_flow_in) = source1.outlet.r ($RES_SIM_27) (21|23) [SCAL] (1) $TEV_2 = time < ramp.startTime ($RES_EVT_262) (22|24) [SCAL] (1) $TEV_3 = time < (ramp.startTime + ramp.duration) ($RES_EVT_263) (23|25) [SCAL] (1) reservoir2.Q_flow = 0.0 ($RES_SIM_32) (24|26) [SCAL] (1) sink1.inlet.state.T = flowResistance5.outlet.state.T ($RES_SIM_150) (25|27) [SCAL] (1) $DER.reservoir2.U_med = reservoir2.h_in * reservoir2.m_flow_in + reservoir2.Q_flow + reservoir2.W_v + reservoir2.h_out * reservoir2.m_flow_out ($RES_SIM_33) (26|28) [SCAL] (1) sink1.inlet.state.p = flowResistance5.outlet.state.p ($RES_SIM_151) (27|29) [SCAL] (1) $DER.reservoir2.M = reservoir2.m_flow_in + reservoir2.m_flow_out ($RES_SIM_34) (28|30) [SCAL] (1) reservoir2.d = reservoir2.k_volume_damping * $FUN_2 ($RES_BND_203) (29|31) [SCAL] (1) reservoir2.r + reservoir2.p_in = 99999.99999999999 * reservoir2.medium.p_bar ($RES_SIM_35) (30|32) [SCAL] (1) reservoir2.outlet.state.T = flowResistance5.inlet.state.T ($RES_SIM_153) (31|33) [SCAL] (1) reservoir2.r_damping = reservoir2.d * $DER.reservoir2.M ($RES_BND_204) (32|34) [SCAL] (1) $DER.reservoir2.m_flow_out * reservoir2.L = reservoir2.r_out - reservoir2.r_damping ($RES_SIM_36) (33|35) [SCAL] (1) reservoir2.outlet.state.p = flowResistance5.inlet.state.p ($RES_SIM_154) (34|36) [SCAL] (1) reservoir2.p_in = reservoir2.state_in.p ($RES_BND_205) (35|37) [SCAL] (1) $DER.reservoir2.m_flow_in * reservoir2.L = reservoir2.r_in - (reservoir2.r_damping + reservoir2.r) ($RES_SIM_37) (36|38) [SCAL] (1) reservoir2.h_in = if noEvent(reservoir2.m_flow_in >= 0.0) then 104929.0 + 4181.9 * ((-278.15) + reservoir2.state_in.T) + 9.312264084047942e-4 * ((-101325.0) + reservoir2.state_in.p) else reservoir2.medium.h ($RES_BND_206) (37|39) [SCAL] (1) reservoir2.h_out = if noEvent((-reservoir2.m_flow_out) >= 0.0) then 104929.0 + 4181.9 * ((-278.15) + reservoir2.state_out.T) + 9.312264084047942e-4 * ((-101325.0) + reservoir2.state_out.p) else reservoir2.medium.h ($RES_BND_207) (38|40) [SCAL] (1) source1.outlet.state.T = flowResistance4.inlet.state.T ($RES_SIM_156) (39|41) [SCAL] (1) source1.outlet.state.p = flowResistance4.inlet.state.p ($RES_SIM_157) (40|42) [SCAL] (1) sink1.p = sink1.inlet.state.p ($RES_BND_209) (41|43) [SCAL] (1) reservoir2.inlet.state.T = flowResistance4.outlet.state.T ($RES_SIM_159) (42|44) [RECD] (2) reservoir2.state_out = reservoir2.medium.state ($RES_SIM_41) (43|46) [SCAL] (1) reservoir2.W_v = -$DER.reservoir2.V * reservoir2.p_env ($RES_SIM_42) (44|47) [SCAL] (1) flowResistance4.p_in = flowResistance4.inlet.state.p ($RES_BND_211) (45|48) [SCAL] (1) 99999.99999999999 * reservoir2.medium.p_bar = reservoir2.p_env + (reservoir2.M / reservoir2.A_surf) * reservoir2.g ($RES_SIM_43) (46|49) [SCAL] (1) reservoir2.inlet.state.p = flowResistance4.outlet.state.p ($RES_SIM_160) (47|50) [SCAL] (1) flowResistance4.h_out = 104929.0 + 4181.9 * ((-278.15) + flowResistance4.inlet.state.T) + 9.312264084047942e-4 * ((-101325.0) + flowResistance4.inlet.state.p) ($RES_BND_212) (48|51) [SCAL] (1) reservoir2.V = reservoir2.A_surf * reservoir2.height ($RES_SIM_44) (49|52) [SCAL] (1) flowResistance4.rho_in = max(flowResistance4.rho_min, 997.05 * ((1.0 + 4.5154e-10 * ((-101325.0) + flowResistance4.inlet.state.p)) - 2.5713e-4 * ((-278.15) + flowResistance4.inlet.state.T))) ($RES_BND_213) (50|53) [SCAL] (1) reservoir2.density_derp_h = 1/(reservoir2.g * reservoir2.height) ($RES_SIM_45) (51|54) [SCAL] (1) flowResistance5.p_in = flowResistance5.inlet.state.p ($RES_BND_216) (52|55) [SCAL] (1) flowResistance5.h_out = 104929.0 + 4181.9 * ((-278.15) + flowResistance5.inlet.state.T) + 9.312264084047942e-4 * ((-101325.0) + flowResistance5.inlet.state.p) ($RES_BND_217) (53|56) [SCAL] (1) flowResistance5.rho_in = max(flowResistance5.rho_min, 997.05 * ((1.0 + 4.5154e-10 * ((-101325.0) + flowResistance5.inlet.state.p)) - 2.5713e-4 * ((-278.15) + flowResistance5.inlet.state.T))) ($RES_BND_218) (54|57) [SCAL] (1) source1.outlet.state.p = source1.p0_par ($RES_SIM_244) (55|58) [SCAL] (1) source1.outlet.state.T = source1.T0_par ($RES_SIM_245) (56|59) [SCAL] (1) flowResistance4.outlet.state.p = flowResistance4.p_out ($RES_SIM_246) (57|60) [SCAL] (1) flowResistance4.outlet.state.T = 278.15 + 2.3912575623520412e-4 * (((-104929.0) + flowResistance4.h_out) - 9.312264084047942e-4 * ((-101325.0) + flowResistance4.p_out)) ($RES_SIM_247) (58|61) [SCAL] (1) flowResistance5.dr_corr = (flowResistance5.p_in + 100.0 * reservoir2.m_flow_out) - flowResistance5.p_out ($RES_SIM_9) (59|62) [SCAL] (1) flowResistance5.outlet.state.p = flowResistance5.p_out ($RES_SIM_248) (60|63) [SCAL] (1) flowResistance5.outlet.state.T = 278.15 + 2.3912575623520412e-4 * (((-104929.0) + flowResistance5.h_out) - 9.312264084047942e-4 * ((-101325.0) + flowResistance5.p_out)) ($RES_SIM_249) (61|64) [SCAL] (1) flowResistance5.p_out = max(flowResistance5.p_min, flowResistance5.p_in + 100.0 * reservoir2.m_flow_out) ($RES_SIM_10) (62|65) [SCAL] (1) sink1.inlet.r = (flowResistance5.dr_corr + reservoir2.r_out) - (-$DER.reservoir2.m_flow_out) * flowResistance5.L ($RES_SIM_11) (63|66) [SCAL] (1) $SEV_24 = 99999.99999999999 * reservoir2.medium.p_bar >= 0.0 ($RES_EVT_288) =================== Scalar Matching =================== variable to equation ********************** var 1 --> eqn 42 var 2 --> eqn 45 var 3 --> eqn 65 var 4 --> eqn 8 var 5 --> eqn 36 var 6 --> eqn 60 var 7 --> eqn 27 var 8 --> eqn 63 var 9 --> eqn 39 var 10 --> eqn -1 var 11 --> eqn 37 var 12 --> eqn 57 var 13 --> eqn 32 var 14 --> eqn 40 var 15 --> eqn 30 var 16 --> eqn 2 var 17 --> eqn 61 var 18 --> eqn 28 var 19 --> eqn 64 var 20 --> eqn 18 var 21 --> eqn 4 var 22 --> eqn 53 var 23 --> eqn 21 var 24 --> eqn 17 var 25 --> eqn 16 var 26 --> eqn 11 var 27 --> eqn 1 var 28 --> eqn 66 var 29 --> eqn 31 var 30 --> eqn 46 var 31 --> eqn 6 var 32 --> eqn 14 var 33 --> eqn 15 var 34 --> eqn 43 var 35 --> eqn 49 var 36 --> eqn -1 var 37 --> eqn 48 var 38 --> eqn 9 var 39 --> eqn 20 var 40 --> eqn 44 var 41 --> eqn 50 var 42 --> eqn 55 var 43 --> eqn 29 var 44 --> eqn 26 var 45 --> eqn 13 var 46 --> eqn 35 var 47 --> eqn 41 var 48 --> eqn 51 var 49 --> eqn 24 var 50 --> eqn 25 var 51 --> eqn 33 var 52 --> eqn 23 var 53 --> eqn 22 var 54 --> eqn 62 var 55 --> eqn 47 var 56 --> eqn 59 var 57 --> eqn 3 var 58 --> eqn 10 var 59 --> eqn 38 var 60 --> eqn 54 var 61 --> eqn 56 var 62 --> eqn 58 var 63 --> eqn 5 var 64 --> eqn 52 var 65 --> eqn 34 var 66 --> eqn 12 var 67 --> eqn 7 var 68 --> eqn 19 equation to variable ********************** eqn 1 --> var 27 eqn 2 --> var 16 eqn 3 --> var 57 eqn 4 --> var 21 eqn 5 --> var 63 eqn 6 --> var 31 eqn 7 --> var 67 eqn 8 --> var 4 eqn 9 --> var 38 eqn 10 --> var 58 eqn 11 --> var 26 eqn 12 --> var 66 eqn 13 --> var 45 eqn 14 --> var 32 eqn 15 --> var 33 eqn 16 --> var 25 eqn 17 --> var 24 eqn 18 --> var 20 eqn 19 --> var 68 eqn 20 --> var 39 eqn 21 --> var 23 eqn 22 --> var 53 eqn 23 --> var 52 eqn 24 --> var 49 eqn 25 --> var 50 eqn 26 --> var 44 eqn 27 --> var 7 eqn 28 --> var 18 eqn 29 --> var 43 eqn 30 --> var 15 eqn 31 --> var 29 eqn 32 --> var 13 eqn 33 --> var 51 eqn 34 --> var 65 eqn 35 --> var 46 eqn 36 --> var 5 eqn 37 --> var 11 eqn 38 --> var 59 eqn 39 --> var 9 eqn 40 --> var 14 eqn 41 --> var 47 eqn 42 --> var 1 eqn 43 --> var 34 eqn 44 --> var 40 eqn 45 --> var 2 eqn 46 --> var 30 eqn 47 --> var 55 eqn 48 --> var 37 eqn 49 --> var 35 eqn 50 --> var 41 eqn 51 --> var 48 eqn 52 --> var 64 eqn 53 --> var 22 eqn 54 --> var 60 eqn 55 --> var 42 eqn 56 --> var 61 eqn 57 --> var 12 eqn 58 --> var 62 eqn 59 --> var 56 eqn 60 --> var 6 eqn 61 --> var 17 eqn 62 --> var 54 eqn 63 --> var 8 eqn 64 --> var 19 eqn 65 --> var 3 eqn 66 --> var 28 " [Timeout remaining time 660] [Calling sys.exit(0), Time elapsed: 3.6386730310041457] Failed to read output from testmodel.py, exit status != 0: 0.11729154997738078 0.13314443699999995 0.053468726 Calling exit ...