FMITest.Smith_patSpec_info.json

{"format":"Transformational debugger info","version":1,
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"Lmt.I":{"comment":"Inertance","kind":"parameter","type":"Real","unit":"Pa.s2/m3","displayUnit":"mmHg.s2/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1642,"lineEnd":1642,"colStart":7,"colEnd":55},"within":["Real"],"instance":"Lmt"}},
"Lmt.defaultValue":{"comment":"Default value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1171,"lineEnd":1171,"colStart":7,"colEnd":73},"within":["Real"],"instance":"Lmt"}},
"Lmt.initialValue":{"comment":"Initial value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1172,"lineEnd":1172,"colStart":7,"colEnd":73},"within":["Real"],"instance":"Lmt"}},
"Lmt.state_start":{"comment":"State start or init value","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1141,"lineEnd":1142,"colStart":7,"colEnd":90},"within":["Real"],"instance":"Lmt"}},
"Lmt.volumeFlow_start":{"comment":"Volumetric flow start value","kind":"parameter","type":"Real","unit":"m3/s","displayUnit":"ml/min","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1638,"lineEnd":1640,"colStart":7,"colEnd":53},"within":["Real"],"instance":"Lmt"}},
"Lpv.I":{"comment":"Inertance","kind":"parameter","type":"Real","unit":"Pa.s2/m3","displayUnit":"mmHg.s2/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1642,"lineEnd":1642,"colStart":7,"colEnd":55},"within":["Real"],"instance":"Lpv"}},
"Lpv.defaultValue":{"comment":"Default value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1171,"lineEnd":1171,"colStart":7,"colEnd":73},"within":["Real"],"instance":"Lpv"}},
"Lpv.initialValue":{"comment":"Initial value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1172,"lineEnd":1172,"colStart":7,"colEnd":73},"within":["Real"],"instance":"Lpv"}},
"Lpv.state_start":{"comment":"State start or init value","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1141,"lineEnd":1142,"colStart":7,"colEnd":90},"within":["Real"],"instance":"Lpv"}},
"Lpv.volumeFlow_start":{"comment":"Volumetric flow start value","kind":"parameter","type":"Real","unit":"m3/s","displayUnit":"ml/min","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1638,"lineEnd":1640,"colStart":7,"colEnd":53},"within":["Real"],"instance":"Lpv"}},
"Ltc.I":{"comment":"Inertance","kind":"parameter","type":"Real","unit":"Pa.s2/m3","displayUnit":"mmHg.s2/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1642,"lineEnd":1642,"colStart":7,"colEnd":55},"within":["Real"],"instance":"Ltc"}},
"Ltc.defaultValue":{"comment":"Default value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1171,"lineEnd":1171,"colStart":7,"colEnd":73},"within":["Real"],"instance":"Ltc"}},
"Ltc.initialValue":{"comment":"Initial value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1172,"lineEnd":1172,"colStart":7,"colEnd":73},"within":["Real"],"instance":"Ltc"}},
"Ltc.state_start":{"comment":"State start or init value","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1141,"lineEnd":1142,"colStart":7,"colEnd":90},"within":["Real"],"instance":"Ltc"}},
"Ltc.volumeFlow_start":{"comment":"Volumetric flow start value","kind":"parameter","type":"Real","unit":"m3/s","displayUnit":"m3/s","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1638,"lineEnd":1640,"colStart":7,"colEnd":53},"within":["Real"],"instance":"Ltc"}},
"Q_av0":{"comment":"","kind":"parameter","type":"Real","unit":"m3/s","displayUnit":"ml/min","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":308,"lineEnd":308,"colStart":5,"colEnd":75},"within":["Real"]}},
"Q_mt0":{"comment":"","kind":"parameter","type":"Real","unit":"m3/s","displayUnit":"ml/min","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":307,"lineEnd":307,"colStart":5,"colEnd":77},"within":["Real"]}},
"Q_pv0":{"comment":"","kind":"parameter","type":"Real","unit":"m3/s","displayUnit":"ml/min","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":310,"lineEnd":310,"colStart":5,"colEnd":75},"within":["Real"]}},
"Q_tc0":{"comment":"","kind":"parameter","type":"Real","unit":"m3/s","displayUnit":"ml/min","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":309,"lineEnd":309,"colStart":5,"colEnd":77},"within":["Real"]}},
"Rpul.Conductance":{"comment":"Hydraulic conductance if useConductanceInput=false","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"ml/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1397,"lineEnd":1399,"colStart":7,"colEnd":60},"within":["Real"],"instance":"Rpul"}},
"Rpul.Resistance":{"comment":"Hydraulic conductance if useConductanceInput=false","kind":"parameter","type":"Real","unit":"(Pa.s)/m3","displayUnit":"(mmHg.s)/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1431,"lineEnd":1432,"colStart":7,"colEnd":61},"within":["Real"],"instance":"Rpul"}},
"Rsys.Conductance":{"comment":"Hydraulic conductance if useConductanceInput=false","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"ml/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1397,"lineEnd":1399,"colStart":7,"colEnd":60},"within":["Real"],"instance":"Rsys"}},
"Rsys.Resistance":{"comment":"Hydraulic conductance if useConductanceInput=false","kind":"parameter","type":"Real","unit":"(Pa.s)/m3","displayUnit":"(mmHg.s)/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1431,"lineEnd":1432,"colStart":7,"colEnd":61},"within":["Real"],"instance":"Rsys"}},
"TotBV":{"comment":"total blood volume ( Nadler et al. Surgery 51:224,1962)","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":297,"lineEnd":297,"colStart":5,"colEnd":242},"within":["Real"]}},
"V_ao0":{"comment":"","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":305,"lineEnd":305,"colStart":5,"colEnd":73},"within":["Real"]}},
"V_lv0":{"comment":"","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":301,"lineEnd":301,"colStart":5,"colEnd":73},"within":["Real"]}},
"V_pa0":{"comment":"","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":303,"lineEnd":303,"colStart":5,"colEnd":73},"within":["Real"]}},
"V_pu0":{"comment":"","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":304,"lineEnd":304,"colStart":5,"colEnd":73},"within":["Real"]}},
"V_rv0":{"comment":"","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":302,"lineEnd":302,"colStart":5,"colEnd":73},"within":["Real"]}},
"V_vc0":{"comment":"","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":306,"lineEnd":306,"colStart":5,"colEnd":73},"within":["Real"]}},
"aorta.CollapsingPressureVolume":{"comment":"Maximal volume, which generate negative collapsing pressure","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1456,"lineEnd":1457,"colStart":9,"colEnd":70},"within":["Real"],"instance":"aorta"}},
"aorta.Compliance":{"comment":"Compliance if useComplianceInput=false","kind":"parameter","type":"Real","unit":"m3/Pa","displayUnit":"ml/mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1467,"lineEnd":1469,"colStart":7,"colEnd":59},"within":["Real"],"instance":"aorta"}},
"aorta.Elastance":{"comment":"Elastance if useComplianceInput=false","kind":"parameter","type":"Real","unit":"Pa/m3","displayUnit":"mmHg/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1556,"lineEnd":1557,"colStart":7,"colEnd":99},"within":["Real"],"instance":"aorta"}},
"aorta.ExternalPressure":{"comment":"External pressure. Set zero if internal pressure is relative to external. Valid only if useExternalPressureInput=false.","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1479,"lineEnd":1481,"colStart":7,"colEnd":65},"within":["Real"],"instance":"aorta"}},
"aorta.MinimalCollapsingPressure":{"comment":"","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1482,"lineEnd":1482,"colStart":7,"colEnd":67},"within":["Real"],"instance":"aorta"}},
"aorta.ZeroPressureVolume":{"comment":"Maximal volume, that does not generate pressure if useV0Input=false","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1452,"lineEnd":1454,"colStart":8,"colEnd":51},"within":["Real"],"instance":"aorta"}},
"aorta.a":{"comment":"","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1501,"lineEnd":1501,"colStart":7,"colEnd":87},"within":["Real"],"instance":"aorta"}},
"aorta.defaultValue":{"comment":"Default value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1171,"lineEnd":1171,"colStart":7,"colEnd":73},"within":["Real"],"instance":"aorta"}},
"aorta.initialValue":{"comment":"Initial value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1172,"lineEnd":1172,"colStart":7,"colEnd":73},"within":["Real"],"instance":"aorta"}},
"aorta.state_start":{"comment":"State start or init value","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1141,"lineEnd":1142,"colStart":7,"colEnd":90},"within":["Real"],"instance":"aorta"}},
"aorta.volume_start":{"comment":"Volume start value","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1444,"lineEnd":1445,"colStart":7,"colEnd":53},"within":["Real"],"instance":"aorta"}},
"aorticValve.Pknee":{"comment":"Forward threshold pressure","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1669,"lineEnd":1670,"colStart":7,"colEnd":37},"within":["Real"],"instance":"aorticValve"}},
"aorticValve._Goff":{"comment":"Backward state-off conductance (closed valve conductance)","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"l/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1666,"lineEnd":1668,"colStart":7,"colEnd":60},"within":["Real"],"instance":"aorticValve"}},
"aorticValve._Gon":{"comment":"Forward state-on conductance (open valve conductance)","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"l/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1663,"lineEnd":1665,"colStart":7,"colEnd":60},"within":["Real"],"instance":"aorticValve"}},
"aorticValve._Ron":{"comment":"forward state resistance","kind":"parameter","type":"Real","unit":"(Pa.s)/m3","displayUnit":"(mmHg.s)/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1726,"lineEnd":1727,"colStart":7,"colEnd":35},"within":["Real"],"instance":"aorticValve"}},
"mitralValve.Pknee":{"comment":"Forward threshold pressure","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1669,"lineEnd":1670,"colStart":7,"colEnd":37},"within":["Real"],"instance":"mitralValve"}},
"mitralValve._Goff":{"comment":"Backward state-off conductance (closed valve conductance)","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"l/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1666,"lineEnd":1668,"colStart":7,"colEnd":60},"within":["Real"],"instance":"mitralValve"}},
"mitralValve._Gon":{"comment":"Forward state-on conductance (open valve conductance)","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"l/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1663,"lineEnd":1665,"colStart":7,"colEnd":60},"within":["Real"],"instance":"mitralValve"}},
"mitralValve._Ron":{"comment":"forward state resistance","kind":"parameter","type":"Real","unit":"(Pa.s)/m3","displayUnit":"(mmHg.s)/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1726,"lineEnd":1727,"colStart":7,"colEnd":35},"within":["Real"],"instance":"mitralValve"}},
"pulmonaryArteries.CollapsingPressureVolume":{"comment":"Maximal volume, which generate negative collapsing pressure","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1456,"lineEnd":1457,"colStart":9,"colEnd":70},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.Compliance":{"comment":"Compliance if useComplianceInput=false","kind":"parameter","type":"Real","unit":"m3/Pa","displayUnit":"ml/mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1467,"lineEnd":1469,"colStart":7,"colEnd":59},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.Elastance":{"comment":"Elastance if useComplianceInput=false","kind":"parameter","type":"Real","unit":"Pa/m3","displayUnit":"Pa/m3","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1556,"lineEnd":1557,"colStart":7,"colEnd":99},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.ExternalPressure":{"comment":"External pressure. Set zero if internal pressure is relative to external. Valid only if useExternalPressureInput=false.","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1479,"lineEnd":1481,"colStart":7,"colEnd":65},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.MinimalCollapsingPressure":{"comment":"","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1482,"lineEnd":1482,"colStart":7,"colEnd":67},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.ZeroPressureVolume":{"comment":"Maximal volume, that does not generate pressure if useV0Input=false","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1452,"lineEnd":1454,"colStart":8,"colEnd":51},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.a":{"comment":"","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1501,"lineEnd":1501,"colStart":7,"colEnd":87},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.defaultValue":{"comment":"Default value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1171,"lineEnd":1171,"colStart":7,"colEnd":73},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.initialValue":{"comment":"Initial value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1172,"lineEnd":1172,"colStart":7,"colEnd":73},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.state_start":{"comment":"State start or init value","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1141,"lineEnd":1142,"colStart":7,"colEnd":90},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryArteries.volume_start":{"comment":"Volume start value","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1444,"lineEnd":1445,"colStart":7,"colEnd":53},"within":["Real"],"instance":"pulmonaryArteries"}},
"pulmonaryValve.Pknee":{"comment":"Forward threshold pressure","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1669,"lineEnd":1670,"colStart":7,"colEnd":37},"within":["Real"],"instance":"pulmonaryValve"}},
"pulmonaryValve._Goff":{"comment":"Backward state-off conductance (closed valve conductance)","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"l/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1666,"lineEnd":1668,"colStart":7,"colEnd":60},"within":["Real"],"instance":"pulmonaryValve"}},
"pulmonaryValve._Gon":{"comment":"Forward state-on conductance (open valve conductance)","kind":"parameter","type":"Real","unit":"m3/(Pa.s)","displayUnit":"l/(mmHg.min)","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1663,"lineEnd":1665,"colStart":7,"colEnd":60},"within":["Real"],"instance":"pulmonaryValve"}},
"pulmonaryValve._Ron":{"comment":"forward state resistance","kind":"parameter","type":"Real","unit":"(Pa.s)/m3","displayUnit":"(mmHg.s)/ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1726,"lineEnd":1727,"colStart":7,"colEnd":35},"within":["Real"],"instance":"pulmonaryValve"}},
"pulmonaryVeins.CollapsingPressureVolume":{"comment":"Maximal volume, which generate negative collapsing pressure","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1456,"lineEnd":1457,"colStart":9,"colEnd":70},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.Compliance":{"comment":"Compliance if useComplianceInput=false","kind":"parameter","type":"Real","unit":"m3/Pa","displayUnit":"ml/mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1467,"lineEnd":1469,"colStart":7,"colEnd":59},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.Elastance":{"comment":"Elastance if useComplianceInput=false","kind":"parameter","type":"Real","unit":"Pa/m3","displayUnit":"Pa/m3","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1556,"lineEnd":1557,"colStart":7,"colEnd":99},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.ExternalPressure":{"comment":"External pressure. Set zero if internal pressure is relative to external. Valid only if useExternalPressureInput=false.","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1479,"lineEnd":1481,"colStart":7,"colEnd":65},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.MinimalCollapsingPressure":{"comment":"","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1482,"lineEnd":1482,"colStart":7,"colEnd":67},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.ZeroPressureVolume":{"comment":"Maximal volume, that does not generate pressure if useV0Input=false","kind":"parameter","type":"Real","unit":"m3","displayUnit":"ml","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1452,"lineEnd":1454,"colStart":8,"colEnd":51},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.a":{"comment":"","kind":"parameter","type":"Real","unit":"Pa","displayUnit":"mmHg","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1501,"lineEnd":1501,"colStart":7,"colEnd":87},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.defaultValue":{"comment":"Default value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1171,"lineEnd":1171,"colStart":7,"colEnd":73},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.initialValue":{"comment":"Initial value of state.","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1172,"lineEnd":1172,"colStart":7,"colEnd":73},"within":["Real"],"instance":"pulmonaryVeins"}},
"pulmonaryVeins.state_start":{"comment":"State start or init value","kind":"parameter","type":"Real","unit":"","displayUnit":"","source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1141,"lineEnd":1142,"colStart":7,"colEnd":90},"within":["Real"],"instance":"pulmonaryVeins"}},
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{"eqIndex":342,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryVeins.CollapsingPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryVeins.CollapsingPressureVolume, has value: \" + String(pulmonaryVeins.CollapsingPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1456,"lineEnd":1457,"colStart":9,"colEnd":70},"within":["Real"],"instance":"pulmonaryVeins"}},
{"eqIndex":343,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryVeins.ZeroPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryVeins.ZeroPressureVolume, has value: \" + String(pulmonaryVeins.ZeroPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1452,"lineEnd":1454,"colStart":8,"colEnd":51},"within":["Real"],"instance":"pulmonaryVeins"}},
{"eqIndex":344,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryVeins.volume_start >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryVeins.volume_start, has value: \" + String(pulmonaryVeins.volume_start, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1444,"lineEnd":1445,"colStart":7,"colEnd":53},"within":["Real"],"instance":"pulmonaryVeins"}},
{"eqIndex":345,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryVeins.Simulation >= Physiolibrary.Types.SimulationType.NoInit and pulmonaryVeins.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, \"Variable violating min/max constraint: Physiolibrary.Types.SimulationType.NoInit <= pulmonaryVeins.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, has value: \" + String(pulmonaryVeins.Simulation, \"d\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1133,"lineEnd":1135,"colStart":7,"colEnd":98},"within":["Physiolibrary.Types.SimulationType"],"instance":"pulmonaryVeins"}},
{"eqIndex":346,"section":"parameter","tag":"algorithm","equation":["assert(Rpul.Resistance >= 0.0, \"Variable violating min constraint: 0.0 <= Rpul.Resistance, has value: \" + String(Rpul.Resistance, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1431,"lineEnd":1432,"colStart":7,"colEnd":61},"within":["Real"],"instance":"Rpul"}},
{"eqIndex":347,"section":"parameter","tag":"algorithm","equation":["assert(Rpul.Conductance >= 0.0, \"Variable violating min constraint: 0.0 <= Rpul.Conductance, has value: \" + String(Rpul.Conductance, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1397,"lineEnd":1399,"colStart":7,"colEnd":60},"within":["Real"],"instance":"Rpul"}},
{"eqIndex":348,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryArteries.CollapsingPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryArteries.CollapsingPressureVolume, has value: \" + String(pulmonaryArteries.CollapsingPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1456,"lineEnd":1457,"colStart":9,"colEnd":70},"within":["Real"],"instance":"pulmonaryArteries"}},
{"eqIndex":349,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryArteries.ZeroPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryArteries.ZeroPressureVolume, has value: \" + String(pulmonaryArteries.ZeroPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1452,"lineEnd":1454,"colStart":8,"colEnd":51},"within":["Real"],"instance":"pulmonaryArteries"}},
{"eqIndex":350,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryArteries.volume_start >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryArteries.volume_start, has value: \" + String(pulmonaryArteries.volume_start, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1444,"lineEnd":1445,"colStart":7,"colEnd":53},"within":["Real"],"instance":"pulmonaryArteries"}},
{"eqIndex":351,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryArteries.Simulation >= Physiolibrary.Types.SimulationType.NoInit and pulmonaryArteries.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, \"Variable violating min/max constraint: Physiolibrary.Types.SimulationType.NoInit <= pulmonaryArteries.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, has value: \" + String(pulmonaryArteries.Simulation, \"d\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1133,"lineEnd":1135,"colStart":7,"colEnd":98},"within":["Physiolibrary.Types.SimulationType"],"instance":"pulmonaryArteries"}},
{"eqIndex":352,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryValve._Ron >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryValve._Ron, has value: \" + String(pulmonaryValve._Ron, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1726,"lineEnd":1727,"colStart":7,"colEnd":35},"within":["Real"],"instance":"pulmonaryValve"}},
{"eqIndex":353,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryValve.Pknee >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryValve.Pknee, has value: \" + String(pulmonaryValve.Pknee, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1669,"lineEnd":1670,"colStart":7,"colEnd":37},"within":["Real"],"instance":"pulmonaryValve"}},
{"eqIndex":354,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryValve._Goff >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryValve._Goff, has value: \" + String(pulmonaryValve._Goff, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1666,"lineEnd":1668,"colStart":7,"colEnd":60},"within":["Real"],"instance":"pulmonaryValve"}},
{"eqIndex":355,"section":"parameter","tag":"algorithm","equation":["assert(pulmonaryValve._Gon >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryValve._Gon, has value: \" + String(pulmonaryValve._Gon, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1663,"lineEnd":1665,"colStart":7,"colEnd":60},"within":["Real"],"instance":"pulmonaryValve"}},
{"eqIndex":356,"section":"parameter","tag":"algorithm","equation":["assert(Lpv.Simulation >= Physiolibrary.Types.SimulationType.NoInit and Lpv.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, \"Variable violating min/max constraint: Physiolibrary.Types.SimulationType.NoInit <= Lpv.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, has value: \" + String(Lpv.Simulation, \"d\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1133,"lineEnd":1135,"colStart":7,"colEnd":98},"within":["Physiolibrary.Types.SimulationType"],"instance":"Lpv"}},
{"eqIndex":357,"section":"parameter","tag":"algorithm","equation":["assert(Lav.Simulation >= Physiolibrary.Types.SimulationType.NoInit and Lav.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, \"Variable violating min/max constraint: Physiolibrary.Types.SimulationType.NoInit <= Lav.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, has value: \" + String(Lav.Simulation, \"d\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1133,"lineEnd":1135,"colStart":7,"colEnd":98},"within":["Physiolibrary.Types.SimulationType"],"instance":"Lav"}},
{"eqIndex":358,"section":"parameter","tag":"algorithm","equation":["assert(tricuspidValve._Ron >= 0.0, \"Variable violating min constraint: 0.0 <= tricuspidValve._Ron, has value: \" + String(tricuspidValve._Ron, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1726,"lineEnd":1727,"colStart":7,"colEnd":35},"within":["Real"],"instance":"tricuspidValve"}},
{"eqIndex":359,"section":"parameter","tag":"algorithm","equation":["assert(tricuspidValve.Pknee >= 0.0, \"Variable violating min constraint: 0.0 <= tricuspidValve.Pknee, has value: \" + String(tricuspidValve.Pknee, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1669,"lineEnd":1670,"colStart":7,"colEnd":37},"within":["Real"],"instance":"tricuspidValve"}},
{"eqIndex":360,"section":"parameter","tag":"algorithm","equation":["assert(tricuspidValve._Goff >= 0.0, \"Variable violating min constraint: 0.0 <= tricuspidValve._Goff, has value: \" + String(tricuspidValve._Goff, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1666,"lineEnd":1668,"colStart":7,"colEnd":60},"within":["Real"],"instance":"tricuspidValve"}},
{"eqIndex":361,"section":"parameter","tag":"algorithm","equation":["assert(tricuspidValve._Gon >= 0.0, \"Variable violating min constraint: 0.0 <= tricuspidValve._Gon, has value: \" + String(tricuspidValve._Gon, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1663,"lineEnd":1665,"colStart":7,"colEnd":60},"within":["Real"],"instance":"tricuspidValve"}},
{"eqIndex":362,"section":"parameter","tag":"algorithm","equation":["assert(Rsys.Resistance >= 0.0, \"Variable violating min constraint: 0.0 <= Rsys.Resistance, has value: \" + String(Rsys.Resistance, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1431,"lineEnd":1432,"colStart":7,"colEnd":61},"within":["Real"],"instance":"Rsys"}},
{"eqIndex":363,"section":"parameter","tag":"algorithm","equation":["assert(Rsys.Conductance >= 0.0, \"Variable violating min constraint: 0.0 <= Rsys.Conductance, has value: \" + String(Rsys.Conductance, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1397,"lineEnd":1399,"colStart":7,"colEnd":60},"within":["Real"],"instance":"Rsys"}},
{"eqIndex":364,"section":"parameter","tag":"algorithm","equation":["assert(aorticValve._Ron >= 0.0, \"Variable violating min constraint: 0.0 <= aorticValve._Ron, has value: \" + String(aorticValve._Ron, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1726,"lineEnd":1727,"colStart":7,"colEnd":35},"within":["Real"],"instance":"aorticValve"}},
{"eqIndex":365,"section":"parameter","tag":"algorithm","equation":["assert(aorticValve.Pknee >= 0.0, \"Variable violating min constraint: 0.0 <= aorticValve.Pknee, has value: \" + String(aorticValve.Pknee, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1669,"lineEnd":1670,"colStart":7,"colEnd":37},"within":["Real"],"instance":"aorticValve"}},
{"eqIndex":366,"section":"parameter","tag":"algorithm","equation":["assert(aorticValve._Goff >= 0.0, \"Variable violating min constraint: 0.0 <= aorticValve._Goff, has value: \" + String(aorticValve._Goff, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1666,"lineEnd":1668,"colStart":7,"colEnd":60},"within":["Real"],"instance":"aorticValve"}},
{"eqIndex":367,"section":"parameter","tag":"algorithm","equation":["assert(aorticValve._Gon >= 0.0, \"Variable violating min constraint: 0.0 <= aorticValve._Gon, has value: \" + String(aorticValve._Gon, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1663,"lineEnd":1665,"colStart":7,"colEnd":60},"within":["Real"],"instance":"aorticValve"}},
{"eqIndex":368,"section":"parameter","tag":"algorithm","equation":["assert(venaCava.CollapsingPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= venaCava.CollapsingPressureVolume, has value: \" + String(venaCava.CollapsingPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1456,"lineEnd":1457,"colStart":9,"colEnd":70},"within":["Real"],"instance":"venaCava"}},
{"eqIndex":369,"section":"parameter","tag":"algorithm","equation":["assert(venaCava.ZeroPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= venaCava.ZeroPressureVolume, has value: \" + String(venaCava.ZeroPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1452,"lineEnd":1454,"colStart":8,"colEnd":51},"within":["Real"],"instance":"venaCava"}},
{"eqIndex":370,"section":"parameter","tag":"algorithm","equation":["assert(venaCava.volume_start >= 0.0, \"Variable violating min constraint: 0.0 <= venaCava.volume_start, has value: \" + String(venaCava.volume_start, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1444,"lineEnd":1445,"colStart":7,"colEnd":53},"within":["Real"],"instance":"venaCava"}},
{"eqIndex":371,"section":"parameter","tag":"algorithm","equation":["assert(venaCava.Simulation >= Physiolibrary.Types.SimulationType.NoInit and venaCava.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, \"Variable violating min/max constraint: Physiolibrary.Types.SimulationType.NoInit <= venaCava.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, has value: \" + String(venaCava.Simulation, \"d\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1133,"lineEnd":1135,"colStart":7,"colEnd":98},"within":["Physiolibrary.Types.SimulationType"],"instance":"venaCava"}},
{"eqIndex":372,"section":"parameter","tag":"algorithm","equation":["assert(aorta.CollapsingPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= aorta.CollapsingPressureVolume, has value: \" + String(aorta.CollapsingPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1456,"lineEnd":1457,"colStart":9,"colEnd":70},"within":["Real"],"instance":"aorta"}},
{"eqIndex":373,"section":"parameter","tag":"algorithm","equation":["assert(aorta.ZeroPressureVolume >= 0.0, \"Variable violating min constraint: 0.0 <= aorta.ZeroPressureVolume, has value: \" + String(aorta.ZeroPressureVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1452,"lineEnd":1454,"colStart":8,"colEnd":51},"within":["Real"],"instance":"aorta"}},
{"eqIndex":374,"section":"parameter","tag":"algorithm","equation":["assert(aorta.volume_start >= 0.0, \"Variable violating min constraint: 0.0 <= aorta.volume_start, has value: \" + String(aorta.volume_start, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1444,"lineEnd":1445,"colStart":7,"colEnd":53},"within":["Real"],"instance":"aorta"}},
{"eqIndex":375,"section":"parameter","tag":"algorithm","equation":["assert(aorta.Simulation >= Physiolibrary.Types.SimulationType.NoInit and aorta.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, \"Variable violating min/max constraint: Physiolibrary.Types.SimulationType.NoInit <= aorta.Simulation <= Physiolibrary.Types.SimulationType.SteadyState, has value: \" + String(aorta.Simulation, \"d\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1133,"lineEnd":1135,"colStart":7,"colEnd":98},"within":["Physiolibrary.Types.SimulationType"],"instance":"aorta"}},
{"eqIndex":376,"section":"assertions","tag":"algorithm","equation":["assert(aorta.state >= 0.0, \"Variable violating min constraint: 0.0 <= aorta.state, has value: \" + String(aorta.state, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1144,"lineEnd":1147,"colStart":7,"colEnd":37},"within":["Real"],"instance":"aorta"}},
{"eqIndex":377,"section":"assertions","tag":"algorithm","equation":["assert(aorta.excessVolume >= 0.0, \"Variable violating min constraint: 0.0 <= aorta.excessVolume, has value: \" + String(aorta.excessVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1446,"lineEnd":1446,"colStart":7,"colEnd":76},"within":["Real"],"instance":"aorta"}},
{"eqIndex":378,"section":"assertions","tag":"algorithm","equation":["assert(venaCava.state >= 0.0, \"Variable violating min constraint: 0.0 <= venaCava.state, has value: \" + String(venaCava.state, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1144,"lineEnd":1147,"colStart":7,"colEnd":37},"within":["Real"],"instance":"venaCava"}},
{"eqIndex":379,"section":"assertions","tag":"algorithm","equation":["assert(venaCava.excessVolume >= 0.0, \"Variable violating min constraint: 0.0 <= venaCava.excessVolume, has value: \" + String(venaCava.excessVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1446,"lineEnd":1446,"colStart":7,"colEnd":76},"within":["Real"],"instance":"venaCava"}},
{"eqIndex":380,"section":"assertions","tag":"algorithm","equation":["assert(pulmonaryArteries.state >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryArteries.state, has value: \" + String(pulmonaryArteries.state, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1144,"lineEnd":1147,"colStart":7,"colEnd":37},"within":["Real"],"instance":"pulmonaryArteries"}},
{"eqIndex":381,"section":"assertions","tag":"algorithm","equation":["assert(pulmonaryArteries.excessVolume >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryArteries.excessVolume, has value: \" + String(pulmonaryArteries.excessVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1446,"lineEnd":1446,"colStart":7,"colEnd":76},"within":["Real"],"instance":"pulmonaryArteries"}},
{"eqIndex":382,"section":"assertions","tag":"algorithm","equation":["assert(pulmonaryVeins.state >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryVeins.state, has value: \" + String(pulmonaryVeins.state, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/SteadyStates.mo","lineStart":1144,"lineEnd":1147,"colStart":7,"colEnd":37},"within":["Real"],"instance":"pulmonaryVeins"}},
{"eqIndex":383,"section":"assertions","tag":"algorithm","equation":["assert(pulmonaryVeins.excessVolume >= 0.0, \"Variable violating min constraint: 0.0 <= pulmonaryVeins.excessVolume, has value: \" + String(pulmonaryVeins.excessVolume, \"g\"));"],"source":{"info":{"file":"C:/home/git/Physiolibrary.models/Physiolibrary/Physiolibrary/Hydraulic.mo","lineStart":1446,"lineEnd":1446,"colStart":7,"colEnd":76},"within":["Real"],"instance":"pulmonaryVeins"}},
{"eqIndex":384,"section":"assertions","tag":"algorithm","equation":["assert(ventricularInteraction_flat.Vsept >= 0.0, \"Variable violating min constraint: 0.0 <= ventricularInteraction_flat.Vsept, has value: \" + String(ventricularInteraction_flat.Vsept, \"g\"));"],"source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":204,"lineEnd":204,"colStart":5,"colEnd":40},"within":["Real"],"instance":"ventricularInteraction_flat"}},
{"eqIndex":385,"section":"assertions","tag":"algorithm","equation":["assert(ventricularInteraction_flat.Vperi >= 0.0, \"Variable violating min constraint: 0.0 <= ventricularInteraction_flat.Vperi, has value: \" + String(ventricularInteraction_flat.Vperi, \"g\"));"],"source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":204,"lineEnd":204,"colStart":5,"colEnd":40},"within":["Real"],"instance":"ventricularInteraction_flat"}},
{"eqIndex":386,"section":"assertions","tag":"algorithm","equation":["assert(ventricularInteraction_flat.Vlv >= 0.0, \"Variable violating min constraint: 0.0 <= ventricularInteraction_flat.Vlv, has value: \" + String(ventricularInteraction_flat.Vlv, \"g\"));"],"source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":234,"lineEnd":237,"colStart":5,"colEnd":37},"within":["Real"],"instance":"ventricularInteraction_flat"}},
{"eqIndex":387,"section":"assertions","tag":"algorithm","equation":["assert(ventricularInteraction_flat.Vrv >= 0.0, \"Variable violating min constraint: 0.0 <= ventricularInteraction_flat.Vrv, has value: \" + String(ventricularInteraction_flat.Vrv, \"g\"));"],"source":{"info":{"file":"C:/home/git/FMIComparison/FMITest.mo","lineStart":238,"lineEnd":240,"colStart":5,"colEnd":35},"within":["Real"],"instance":"ventricularInteraction_flat"}}
],
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"Physiolibrary.Hydraulic.Components.ElasticVesselElastance$pulmonaryVeins.Utilities.UnitConversions.RealTypeRecord",
"Physiolibrary.Hydraulic.Components.ElasticVesselElastance$venaCava.Utilities.UnitConversions.RealTypeRecord",
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"Physiolibrary.Hydraulic.Components.Inertia$Ltc.Utilities.UnitConversions.findUnit"
]
}