Running command: "" <> buildModelFMU(Buildings.Fluid.HeatExchangers.RadiantSlabs.Examples.SingleCircuitMultipleCircuitFiniteDifference,fileNamePrefix="Buildings_5_0_1_Buildings_Fluid_HeatExchangers_RadiantSlabs_Examples_SingleCircuitMultipleCircuitFiniteDifference",fmuType="me",version="2.0",platforms={"dynamic"})
[<interactive>:1:1-1:32:writable] Error: Class GC_set_max_heap_size not found in scope <global scope> (looking for a function or record).
Notification: Performance of loadModel(Buildings): time 4.424/4.424, allocations: 404 MB / 410.9 MB, free: 4.93 MB / 314.7 MB
Notification: Performance of FrontEnd - loaded program: time 0.2946/4.718, allocations: 95.01 MB / 0.4941 GB, free: 7.375 MB / 410.7 MB
Notification: Performance of FrontEnd - Absyn->SCode: time 0.5548/5.273, allocations: 92.67 MB / 0.5846 GB, free: 3.469 MB / 474.7 MB
Notification: Performance of FrontEnd - scodeFlatten: time 1.184/6.457, allocations: 440.7 MB / 1.015 GB, free: 8.426 MB / 0.698 GB
Notification: Performance of FrontEnd - mkProgramGraph: time 0.0003596/6.457, allocations: 100.3 kB / 1.015 GB, free: 8.375 MB / 0.698 GB
Notification: Model statistics after passing the front-end and creating the data structures used by the back-end:
 * Number of equations: 2564
 * Number of variables: 2564
Notification: Performance of Generate backend data structure: time 32.1/38.56, allocations: 4.395 GB / 5.41 GB, free: 30.78 MB / 0.9012 GB
Notification: Performance of prepare preOptimizeDAE: time 5.122e-05/38.56, allocations: 10.12 kB / 5.41 GB, free: 30.78 MB / 0.9012 GB
Notification: Performance of preOpt normalInlineFunction (simulation): time 0.02643/38.59, allocations: 2.554 MB / 5.412 GB, free: 29.5 MB / 0.9012 GB
Notification: Performance of preOpt evaluateParameters (simulation): time 0.3227/38.91, allocations: 72.14 MB / 5.483 GB, free: 17.25 MB / 0.9012 GB
Notification: Performance of preOpt simplifyIfEquations (simulation): time 0.0007658/38.91, allocations: 327.5 kB / 5.483 GB, free: 16.93 MB / 0.9012 GB
Notification: Performance of preOpt expandDerOperator (simulation): time 0.008595/38.92, allocations: 0.886 MB / 5.484 GB, free: 16.06 MB / 0.9012 GB
Notification: Performance of preOpt removeEqualFunctionCalls (simulation): time 0.05362/38.97, allocations: 13.59 MB / 5.497 GB, free: 4.406 MB / 0.9012 GB
Notification: Performance of preOpt clockPartitioning (simulation): time 1.021/39.99, allocations: 17.51 MB / 5.514 GB, free: 109.8 MB / 0.9013 GB
Notification: Performance of preOpt findStateOrder (simulation): time 0.0007734/39.99, allocations: 43.05 kB / 5.514 GB, free: 109.8 MB / 0.9013 GB
Notification: Performance of preOpt replaceEdgeChange (simulation): time 0.005188/40, allocations: 21.91 kB / 5.514 GB, free: 109.8 MB / 0.9013 GB
Notification: Performance of preOpt inlineArrayEqn (simulation): time 0.0003733/40, allocations: 294.1 kB / 5.515 GB, free: 109.8 MB / 0.9013 GB
Notification: Performance of preOpt removeSimpleEquations (simulation): time 0.2193/40.22, allocations: 86.87 MB / 5.599 GB, free: 84.05 MB / 0.9013 GB
Notification: Performance of preOpt comSubExp (simulation): time 0.01775/40.24, allocations: 6.592 MB / 5.606 GB, free: 83.98 MB / 0.9013 GB
Notification: Performance of preOpt resolveLoops (simulation): time 0.02305/40.26, allocations: 7.923 MB / 5.614 GB, free: 83.89 MB / 0.9013 GB
Notification: Performance of preOpt evalFunc (simulation): time 0.1423/40.4, allocations: 42.2 MB / 5.655 GB, free: 76.07 MB / 0.9013 GB
Notification: Performance of preOpt encapsulateWhenConditions (simulation): time 0.02408/40.43, allocations: 6.487 MB / 5.661 GB, free: 75.86 MB / 0.9013 GB
Notification: Performance of pre-optimization done (n=680): time 2.682e-05/40.43, allocations: 3.656 kB / 5.661 GB, free: 75.86 MB / 0.9013 GB
Notification: Performance of matching and sorting (n=719): time 0.161/40.59, allocations: 37.09 MB / 5.697 GB, free: 66.95 MB / 0.9013 GB
Notification: Performance of inlineWhenForInitialization (initialization): time 0.0001307/40.59, allocations: 231.6 kB / 5.698 GB, free: 66.75 MB / 0.9013 GB
Notification: Performance of selectInitializationVariablesDAE (initialization): time 0.1163/40.7, allocations: 32.44 MB / 5.729 GB, free: 65.7 MB / 0.9013 GB
Notification: Performance of collectPreVariables (initialization): time 0.004463/40.71, allocations: 35.61 kB / 5.729 GB, free: 65.67 MB / 0.9013 GB
Notification: Performance of collectInitialEqns (initialization): time 0.01854/40.73, allocations: 5.399 MB / 5.735 GB, free: 64.04 MB / 0.9013 GB
Notification: Performance of collectInitialBindings (initialization): time 0.0793/40.81, allocations: 2.584 MB / 5.737 GB, free: 62.43 MB / 0.9013 GB
Notification: Performance of simplifyInitialFunctions (initialization): time 0.005255/40.81, allocations: 0 / 5.737 GB, free: 62.43 MB / 0.9013 GB
Notification: Performance of setup shared object (initialization): time 0.004266/40.82, allocations: 1.019 MB / 5.738 GB, free: 62.09 MB / 0.9013 GB
Notification: Performance of preBalanceInitialSystem (initialization): time 0.04609/40.86, allocations: 10.59 MB / 5.748 GB, free: 62.06 MB / 0.9013 GB
Notification: Performance of partitionIndependentBlocks (initialization): time 0.06435/40.93, allocations: 19.85 MB / 5.768 GB, free: 50.52 MB / 0.9013 GB
Notification: It was not possible to analyze the given system symbolically, because the relevant equations are part of an algebraic loop. This is not supported yet.
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla1.con_b[4].lay[2].T[3] = sla1.con_b[4].lay[2].T_a_start + (sla1.con_b[4].lay[2].T_b_start - sla1.con_b[4].lay[2].T_a_start) * sla1.con_b[4].lay[2].UA * (sla1.con_b[4].lay[2].RNod[1] + sla1.con_b[4].lay[2].RNod[2] + sla1.con_b[4].lay[2].RNod[3]) (sla1.con_b[5].lay[2].T_a_start + (sla1.con_b[5].lay[2].T_b_start - sla1.con_b[5].lay[2].T_a_start) * sla1.con_b[5].lay[2].UA * (sla1.con_b[5].lay[2].RNod[1] + sla1.con_b[5].lay[2].RNod[2] + sla1.con_b[5].lay[2].RNod[3]) = sla1.con_b[4].lay[2].T_a_start + (sla1.con_b[4].lay[2].T_b_start - sla1.con_b[4].lay[2].T_a_start) * sla1.con_b[4].lay[2].UA * (sla1.con_b[4].lay[2].RNod[1] + sla1.con_b[4].lay[2].RNod[2] + sla1.con_b[4].lay[2].RNod[3]))
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla1.con_a[1].lay[1].T[1] = sla1.con_a[1].lay[1].T_a_start (sla1.con_a[5].lay[1].T_a_start = sla1.con_a[1].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla1.con_a[2].lay[1].T[1] = sla1.con_a[2].lay[1].T_a_start (sla1.con_a[5].lay[1].T_a_start = sla1.con_a[2].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla1.con_a[3].lay[1].T[1] = sla1.con_a[3].lay[1].T_a_start (sla1.con_a[5].lay[1].T_a_start = sla1.con_a[3].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla1.con_a[4].lay[1].T[1] = sla1.con_a[4].lay[1].T_a_start (sla1.con_a[5].lay[1].T_a_start = sla1.con_a[4].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla2.con_a[1].lay[1].T[1] = sla2.con_a[1].lay[1].T_a_start (sla2.con_a[5].lay[1].T_a_start = sla2.con_a[1].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla2.con_a[2].lay[1].T[1] = sla2.con_a[2].lay[1].T_a_start (sla2.con_a[5].lay[1].T_a_start = sla2.con_a[2].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla2.con_a[3].lay[1].T[1] = sla2.con_a[3].lay[1].T_a_start (sla2.con_a[5].lay[1].T_a_start = sla2.con_a[3].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla2.con_a[4].lay[1].T[1] = sla2.con_a[4].lay[1].T_a_start (sla2.con_a[5].lay[1].T_a_start = sla2.con_a[4].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla3.sla.con_a[1].lay[1].T[1] = sla3.sla.con_a[1].lay[1].T_a_start (sla3.sla.con_a[5].lay[1].T_a_start = sla3.sla.con_a[1].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla3.sla.con_a[2].lay[1].T[1] = sla3.sla.con_a[2].lay[1].T_a_start (sla3.sla.con_a[5].lay[1].T_a_start = sla3.sla.con_a[2].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla3.sla.con_a[3].lay[1].T[1] = sla3.sla.con_a[3].lay[1].T_a_start (sla3.sla.con_a[5].lay[1].T_a_start = sla3.sla.con_a[3].lay[1].T_a_start)
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla3.sla.con_a[4].lay[1].T[1] = sla3.sla.con_a[4].lay[1].T_a_start (sla3.sla.con_a[5].lay[1].T_a_start = sla3.sla.con_a[4].lay[1].T_a_start)
Notification: It was not possible to analyze the given system symbolically, because the relevant equations are part of an algebraic loop. This is not supported yet.
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla3.sla.con_b[4].lay[2].T[3] = sla3.sla.con_b[4].lay[2].T_a_start + (sla3.sla.con_b[4].lay[2].T_b_start - sla3.sla.con_b[4].lay[2].T_a_start) * sla3.sla.con_b[4].lay[2].UA * (sla3.sla.con_b[4].lay[2].RNod[1] + sla3.sla.con_b[4].lay[2].RNod[2] + sla3.sla.con_b[4].lay[2].RNod[3]) (sla3.sla.con_b[5].lay[2].T_a_start + (sla3.sla.con_b[5].lay[2].T_b_start - sla3.sla.con_b[5].lay[2].T_a_start) * sla3.sla.con_b[5].lay[2].UA * (sla3.sla.con_b[5].lay[2].RNod[1] + sla3.sla.con_b[5].lay[2].RNod[2] + sla3.sla.con_b[5].lay[2].RNod[3]) = sla3.sla.con_b[4].lay[2].T_a_start + (sla3.sla.con_b[4].lay[2].T_b_start - sla3.sla.con_b[4].lay[2].T_a_start) * sla3.sla.con_b[4].lay[2].UA * (sla3.sla.con_b[4].lay[2].RNod[1] + sla3.sla.con_b[4].lay[2].RNod[2] + sla3.sla.con_b[4].lay[2].RNod[3]))
Notification: It was not possible to analyze the given system symbolically, because the relevant equations are part of an algebraic loop. This is not supported yet.
Warning: It was not possible to determine if the initialization problem is consistent, because of not evaluable parameters/start values during compile time: sla2.con_b[4].lay[2].T[3] = sla2.con_b[4].lay[2].T_a_start + (sla2.con_b[4].lay[2].T_b_start - sla2.con_b[4].lay[2].T_a_start) * sla2.con_b[4].lay[2].UA * (sla2.con_b[4].lay[2].RNod[1] + sla2.con_b[4].lay[2].RNod[2] + sla2.con_b[4].lay[2].RNod[3]) (sla2.con_b[5].lay[2].T_a_start + (sla2.con_b[5].lay[2].T_b_start - sla2.con_b[5].lay[2].T_a_start) * sla2.con_b[5].lay[2].UA * (sla2.con_b[5].lay[2].RNod[1] + sla2.con_b[5].lay[2].RNod[2] + sla2.con_b[5].lay[2].RNod[3]) = sla2.con_b[4].lay[2].T_a_start + (sla2.con_b[4].lay[2].T_b_start - sla2.con_b[4].lay[2].T_a_start) * sla2.con_b[4].lay[2].UA * (sla2.con_b[4].lay[2].RNod[1] + sla2.con_b[4].lay[2].RNod[2] + sla2.con_b[4].lay[2].RNod[3]))
Notification: Performance of analyzeInitialSystem (initialization): time 1.161/42.09, allocations: 222.2 MB / 5.985 GB, free: 103.2 MB / 0.9013 GB
Notification: Performance of solveInitialSystemEqSystem (initialization): time 0.0003544/42.09, allocations: 74.31 kB / 5.985 GB, free: 103.2 MB / 0.9013 GB
[/var/lib/hudson/slave/workspace/OpenModelica_TEST_LIBS/OpenModelica/OMCompiler/build/lib/omlibrary/Buildings 5.0.1/HeatTransfer/Conduction/SingleLayer.mo:124:11-124:27:writable] Error: Initialization problem is structurally singular, error found sorting equations 
 22: sla1.con_a[4].lay[1].T[1] = sla1.con_a[4].lay[1].T_a_start;
178: sla1.con_a[3].lay[1].T[1] = sla1.con_a[4].lay[1].T[1];
17: sla1.con_a[3].lay[1].T[1] = sla1.con_a[3].lay[1].T_a_start;
177: sla1.con_a[2].lay[1].T[1] = sla1.con_a[4].lay[1].T[1];
12: sla1.con_a[2].lay[1].T[1] = sla1.con_a[2].lay[1].T_a_start;
27: sla1.con_a[5].lay[1].T[1] = sla1.con_a[5].lay[1].T_a_start;
179: sla1.con_a[5].lay[1].T[1] = sla1.con_a[4].lay[1].T[1];
176: sla1.con_a[1].lay[1].T[1] = sla1.con_a[4].lay[1].T[1];
7: sla1.con_a[1].lay[1].T[1] = sla1.con_a[1].lay[1].T_a_start;
47: sla1.con_b[4].lay[2].T[3] = sla1.con_b[4].lay[2].T_a_start + (sla1.con_b[4].lay[2].T_b_start - sla1.con_b[4].lay[2].T_a_start) * sla1.con_b[4].lay[2].UA * (sla1.con_b[4].lay[2].RNod[1] + sla1.con_b[4].lay[2].RNod[2] + sla1.con_b[4].lay[2].RNod[3]);
174: sla1.con_b[3].lay[2].T[3] = sla1.con_b[4].lay[2].T[3];
43: sla1.con_b[3].lay[2].T[3] = sla1.con_b[3].lay[2].T_a_start + (sla1.con_b[3].lay[2].T_b_start - sla1.con_b[3].lay[2].T_a_start) * sla1.con_b[3].lay[2].UA * (sla1.con_b[3].lay[2].RNod[1] + sla1.con_b[3].lay[2].RNod[2] + sla1.con_b[3].lay[2].RNod[3]);
173: sla1.con_b[2].lay[2].T[3] = sla1.con_b[4].lay[2].T[3];
39: sla1.con_b[2].lay[2].T[3] = sla1.con_b[2].lay[2].T_a_start + (sla1.con_b[2].lay[2].T_b_start - sla1.con_b[2].lay[2].T_a_start) * sla1.con_b[2].lay[2].UA * (sla1.con_b[2].lay[2].RNod[1] + sla1.con_b[2].lay[2].RNod[2] + sla1.con_b[2].lay[2].RNod[3]);
51: sla1.con_b[5].lay[2].T[3] = sla1.con_b[5].lay[2].T_a_start + (sla1.con_b[5].lay[2].T_b_start - sla1.con_b[5].lay[2].T_a_start) * sla1.con_b[5].lay[2].UA * (sla1.con_b[5].lay[2].RNod[1] + sla1.con_b[5].lay[2].RNod[2] + sla1.con_b[5].lay[2].RNod[3]);
175: sla1.con_b[5].lay[2].T[3] = sla1.con_b[4].lay[2].T[3];
172: sla1.con_b[1].lay[2].T[3] = sla1.con_b[4].lay[2].T[3];
35: sla1.con_b[1].lay[2].T[3] = sla1.con_b[1].lay[2].T_a_start + (sla1.con_b[1].lay[2].T_b_start - sla1.con_b[1].lay[2].T_a_start) * sla1.con_b[1].lay[2].UA * (sla1.con_b[1].lay[2].RNod[1] + sla1.con_b[1].lay[2].RNod[2] + sla1.con_b[1].lay[2].RNod[3]);
72: sla2.con_a[4].lay[1].T[1] = sla2.con_a[4].lay[1].T_a_start;
182: sla2.con_a[3].lay[1].T[1] = sla2.con_a[4].lay[1].T[1];
67: sla2.con_a[3].lay[1].T[1] = sla2.con_a[3].lay[1].T_a_start;
181: sla2.con_a[2].lay[1].T[1] = sla2.con_a[4].lay[1].T[1];
62: sla2.con_a[2].lay[1].T[1] = sla2.con_a[2].lay[1].T_a_start;
77: sla2.con_a[5].lay[1].T[1] = sla2.con_a[5].lay[1].T_a_start;
183: sla2.con_a[5].lay[1].T[1] = sla2.con_a[4].lay[1].T[1];
180: sla2.con_a[1].lay[1].T[1] = sla2.con_a[4].lay[1].T[1];
57: sla2.con_a[1].lay[1].T[1] = sla2.con_a[1].lay[1].T_a_start;
97: sla2.con_b[4].lay[2].T[3] = sla2.con_b[4].lay[2].T_a_start + (sla2.con_b[4].lay[2].T_b_start - sla2.con_b[4].lay[2].T_a_start) * sla2.con_b[4].lay[2].UA * (sla2.con_b[4].lay[2].RNod[1] + sla2.con_b[4].lay[2].RNod[2] + sla2.con_b[4].lay[2].RNod[3]);
194: sla2.con_b[3].lay[2].T[3] = sla2.con_b[4].lay[2].T[3];
93: sla2.con_b[3].lay[2].T[3] = sla2.con_b[3].lay[2].T_a_start + (sla2.con_b[3].lay[2].T_b_start - sla2.con_b[3].lay[2].T_a_start) * sla2.con_b[3].lay[2].UA * (sla2.con_b[3].lay[2].RNod[1] + sla2.con_b[3].lay[2].RNod[2] + sla2.con_b[3].lay[2].RNod[3]);
193: sla2.con_b[2].lay[2].T[3] = sla2.con_b[4].lay[2].T[3];
89: sla2.con_b[2].lay[2].T[3] = sla2.con_b[2].lay[2].T_a_start + (sla2.con_b[2].lay[2].T_b_start - sla2.con_b[2].lay[2].T_a_start) * sla2.con_b[2].lay[2].UA * (sla2.con_b[2].lay[2].RNod[1] + sla2.con_b[2].lay[2].RNod[2] + sla2.con_b[2].lay[2].RNod[3]);
101: sla2.con_b[5].lay[2].T[3] = sla2.con_b[5].lay[2].T_a_start + (sla2.con_b[5].lay[2].T_b_start - sla2.con_b[5].lay[2].T_a_start) * sla2.con_b[5].lay[2].UA * (sla2.con_b[5].lay[2].RNod[1] + sla2.con_b[5].lay[2].RNod[2] + sla2.con_b[5].lay[2].RNod[3]);
195: sla2.con_b[5].lay[2].T[3] = sla2.con_b[4].lay[2].T[3];
192: sla2.con_b[1].lay[2].T[3] = sla2.con_b[4].lay[2].T[3];
85: sla2.con_b[1].lay[2].T[3] = sla2.con_b[1].lay[2].T_a_start + (sla2.con_b[1].lay[2].T_b_start - sla2.con_b[1].lay[2].T_a_start) * sla2.con_b[1].lay[2].UA * (sla2.con_b[1].lay[2].RNod[1] + sla2.con_b[1].lay[2].RNod[2] + sla2.con_b[1].lay[2].RNod[3]);
122: sla3.sla.con_a[4].lay[1].T[1] = sla3.sla.con_a[4].lay[1].T_a_start;
186: sla3.sla.con_a[3].lay[1].T[1] = sla3.sla.con_a[4].lay[1].T[1];
117: sla3.sla.con_a[3].lay[1].T[1] = sla3.sla.con_a[3].lay[1].T_a_start;
185: sla3.sla.con_a[2].lay[1].T[1] = sla3.sla.con_a[4].lay[1].T[1];
112: sla3.sla.con_a[2].lay[1].T[1] = sla3.sla.con_a[2].lay[1].T_a_start;
127: sla3.sla.con_a[5].lay[1].T[1] = sla3.sla.con_a[5].lay[1].T_a_start;
187: sla3.sla.con_a[5].lay[1].T[1] = sla3.sla.con_a[4].lay[1].T[1];
184: sla3.sla.con_a[1].lay[1].T[1] = sla3.sla.con_a[4].lay[1].T[1];
107: sla3.sla.con_a[1].lay[1].T[1] = sla3.sla.con_a[1].lay[1].T_a_start;
147: sla3.sla.con_b[4].lay[2].T[3] = sla3.sla.con_b[4].lay[2].T_a_start + (sla3.sla.con_b[4].lay[2].T_b_start - sla3.sla.con_b[4].lay[2].T_a_start) * sla3.sla.con_b[4].lay[2].UA * (sla3.sla.con_b[4].lay[2].RNod[1] + sla3.sla.con_b[4].lay[2].RNod[2] + sla3.sla.con_b[4].lay[2].RNod[3]);
190: sla3.sla.con_b[3].lay[2].T[3] = sla3.sla.con_b[4].lay[2].T[3];
143: sla3.sla.con_b[3].lay[2].T[3] = sla3.sla.con_b[3].lay[2].T_a_start + (sla3.sla.con_b[3].lay[2].T_b_start - sla3.sla.con_b[3].lay[2].T_a_start) * sla3.sla.con_b[3].lay[2].UA * (sla3.sla.con_b[3].lay[2].RNod[1] + sla3.sla.con_b[3].lay[2].RNod[2] + sla3.sla.con_b[3].lay[2].RNod[3]);
189: sla3.sla.con_b[2].lay[2].T[3] = sla3.sla.con_b[4].lay[2].T[3];
139: sla3.sla.con_b[2].lay[2].T[3] = sla3.sla.con_b[2].lay[2].T_a_start + (sla3.sla.con_b[2].lay[2].T_b_start - sla3.sla.con_b[2].lay[2].T_a_start) * sla3.sla.con_b[2].lay[2].UA * (sla3.sla.con_b[2].lay[2].RNod[1] + sla3.sla.con_b[2].lay[2].RNod[2] + sla3.sla.con_b[2].lay[2].RNod[3]);
151: sla3.sla.con_b[5].lay[2].T[3] = sla3.sla.con_b[5].lay[2].T_a_start + (sla3.sla.con_b[5].lay[2].T_b_start - sla3.sla.con_b[5].lay[2].T_a_start) * sla3.sla.con_b[5].lay[2].UA * (sla3.sla.con_b[5].lay[2].RNod[1] + sla3.sla.con_b[5].lay[2].RNod[2] + sla3.sla.con_b[5].lay[2].RNod[3]);
191: sla3.sla.con_b[5].lay[2].T[3] = sla3.sla.con_b[4].lay[2].T[3];
188: sla3.sla.con_b[1].lay[2].T[3] = sla3.sla.con_b[4].lay[2].T[3];
135: sla3.sla.con_b[1].lay[2].T[3] = sla3.sla.con_b[1].lay[2].T_a_start + (sla3.sla.con_b[1].lay[2].T_b_start - sla3.sla.con_b[1].lay[2].T_a_start) * sla3.sla.con_b[1].lay[2].UA * (sla3.sla.con_b[1].lay[2].RNod[1] + sla3.sla.con_b[1].lay[2].RNod[2] + sla3.sla.con_b[1].lay[2].RNod[3]);
 for variables 
 sla3.sla.vol[2].dynBal.ports_H_flow[2](252), sla2.con_b[2].lay[1].dT(368), sla3.sla.con_a[4].lay[1].T[1](154), sla2.con_b[2].dT(374), sla3.sla.vol[3].dynBal.Hb_flow(241), sla3.sla.vol[2].dynBal.m(256), $DER.sla2.con_b[1].lay[1].T[1](381), $DER.sla2.con_b[1].lay[2].T[1](378), sla3.sla.vol[3].dynBal.ports_H_flow[2](239), conBel3.Q_flow(289), $DER.sla2.con_b[1].lay[2].T[2](376), sla3.sla.surf_b.Q_flow(282), sla2.con_b[1].lay[2].T[3](375), sla3.sla.vol[1].dynBal.medium.T_degC(272), sla3.port_a.h_outflow(287), sla2.con_b[2].Q_flow[3](372), sla3.sla.vol[5].T(224), sla3.sla.vol[1].dynBal.U(271), sla2.fluSlaCon[2].dT(306), sla3.sla.con_b[1].lay[2].T[1](116), sla3.sla.con_a[4].lay[1].T[5](146), sla2.con_b[1].lay[1].T[1](382), sla3.sla.con_a[1].lay[1].T[3](202), sla2.fluSlaCon[1].dT(309), sla3.sla.con_b[1].lay[2].dT(117), conBel2.Q_flow(291), sla3.sla.con_a[5].Q_flow[5](139), sla2.con_b[1].Q_flow[6](385), sla2.con_b[5].Q_flow[5](321), sla2.con_b[1].Q_flow[1](389), sla2.con_b[5].lay[2].T[2](312), sla2.con_b[4].lay[2].T[1](331), sla2.con_b[1].lay[2].T[1](379), sla2.con_b[1].lay[1].port_b.T(383), sla2.con_b[5].lay[1].dT(319), sla2.con_b[4].Q_flow[4](339), sla2.con_b[1].Q_flow[3](388), sla2.con_b[3].lay[2].T[3](343), sla2.con_b[1].lay[1].dT(384), sla2.con_b[4].Q_flow[6](337), sla2.con_b[3].lay[2].dT(348), $DER.sla3.sla.con_a[2].lay[1].T[2](186), $DER.sla3.sla.con_b[1].lay[2].T[1](115), $DER.sla2.con_b[4].lay[2].T[2](328), sla3.sla.con_b[1].Q_flow[1](126), sla2.con_b[1].Q_flow[5](386), $DER.sla2.con_b[3].lay[2].T[1](346), sla3.sla.vol[5].heatPort.Q_flow(223), sla2.con_b[3].Q_flow[5](354), sla2.con_b[2].lay[1].T[1](366), sla2.con_b[1].Q_flow[4](387), sla2.con_b[1].lay[2].dT(380), $DER.sla3.sla.con_a[5].lay[1].T[5](128), sou.medium.p_bar(8), senTem3.mNor_flow(13), senTem2.T(18), $DER.senTem1.T(23), sla3.sla.fluSlaCon[4].hCon(36), sla3.sla.fluSlaCon[3].dT(40), sla3.sla.fluSlaCon[1].RTot(44), $DER.sla3.sla.con_b[5].lay[2].T[2](48), sla3.sla.con_b[5].Q_flow[5](58), $DER.sla3.sla.con_b[4].lay[2].T[3](63), sla3.sla.con_b[4].lay[2].T[1](68), sla3.sla.con_b[4].lay[1].dT(73), $DER.sla3.sla.con_b[3].lay[1].T[1](86), sla3.sla.con_b[3].Q_flow[6](90), sla3.sla.con_b[3].Q_flow[1](94), sla3.sla.con_b[2].lay[2].T[2](98), sla3.sla.con_b[2].Q_flow[4](108), $DER.sla3.sla.con_b[1].lay[2].T[2](113), $DER.sla3.sla.con_b[1].lay[1].T[1](118), sla3.sla.con_b[1].Q_flow[5](123), sla3.sla.con_a[5].lay[1].T[1](136), sla3.sla.con_a[5].Q_flow[4](140), sla3.sla.con_a[5].dT(144), sla3.sla.con_a[4].lay[1].T[4](148)
Error: No system for the symbolic initialization was generated
Error: Internal error SimCode: The model Buildings.Fluid.HeatExchangers.RadiantSlabs.Examples.SingleCircuitMultipleCircuitFiniteDifference could not be translated to FMU