def model MWC_10 as def import using "../cellLib/Components/units.cellml" for unit mV using unit mV; unit ms using unit ms; unit per_ms using unit per_ms; enddef; def import using "C0_S2.cellml" for comp C0 using comp C0_S2; enddef; def import using "C_S3.cellml" for comp C1 using comp C_S3; enddef; def import using "C_S3.cellml" for comp C2 using comp C_S3; enddef; def import using "C_S3.cellml" for comp C3 using comp C_S3; enddef; def import using "CN_S2.cellml" for comp C4 using comp CN_S2; enddef; def import using "O0_S2.cellml" for comp O0 using comp O0_S2; enddef; def import using "O_S3.cellml" for comp O1 using comp O_S3; enddef; def import using "O_S3.cellml" for comp O2 using comp O_S3; enddef; def import using "O_S3.cellml" for comp O3 using comp O_S3; enddef; def import using "ON_S2.cellml" for comp O4 using comp ON_S2; enddef; def comp MWC_10 as var alpha: per_ms {pub: in}; var C0_init: dimensionless {pub: in, priv: out}; var C1_init: dimensionless {pub: in, priv: out}; var C2_init: dimensionless {pub: in, priv: out}; var C3_init: dimensionless {pub: in, priv: out}; var C4_init: dimensionless {pub: in, priv: out}; var O0_init: dimensionless {pub: in, priv: out}; var O1_init: dimensionless {pub: in, priv: out}; var O2_init: dimensionless {pub: in, priv: out}; var O3_init: dimensionless {pub: in, priv: out}; var O4_init: dimensionless {pub: in, priv: out}; var N: dimensionless {init: 4, pub: out, priv: out}; var C1_i: dimensionless {pub: in, priv: out}; var C2_i: dimensionless {pub: in, priv: out}; var C3_i: dimensionless {pub: in, priv: out}; var O1_i: dimensionless {pub: in, priv: out}; var O2_i: dimensionless {pub: in, priv: out}; var O3_i: dimensionless {pub: in, priv: out}; var K: mV {pub: in}; var k_L: per_ms {pub: in, priv: out}; var k_Lminus: per_ms {pub: in, priv: out}; var f: dimensionless {pub: in, priv: out}; var V0: mV {pub: in}; var k_C: per_ms {pub: out, priv: out}; var k_Cminus: per_ms {pub: out, priv: out}; var V: mV {pub: in}; var C_0: dimensionless {pub: out, priv: in}; var C_1: dimensionless {pub: out, priv: in}; var C_2: dimensionless {pub: out, priv: in}; var C_3: dimensionless {pub: out, priv: in}; var C_4: dimensionless {pub: out, priv: in}; var O_0: dimensionless {pub: out, priv: in}; var O_1: dimensionless {pub: out, priv: in}; var O_2: dimensionless {pub: out, priv: in}; var O_3: dimensionless {pub: out, priv: in}; var O_4: dimensionless {pub: out, priv: in}; var dC_1: per_ms {pub: out, priv: in}; var dC_2: per_ms {pub: out, priv: in}; var dC_3: per_ms {pub: out, priv: in}; var dC_4: per_ms {pub: out, priv: in}; var dO_1: per_ms {pub: out, priv: in}; var dO_2: per_ms {pub: out, priv: in}; var dO_3: per_ms {pub: out, priv: in}; var dO_4: per_ms {pub: out, priv: in}; var O: dimensionless ; var C: dimensionless ; var norm: dimensionless {pub: out, priv: out}; var L: dimensionless ; var P_ss: dimensionless {pub: out}; var Q_ss: dimensionless {pub: out}; var P_o: dimensionless {pub: out}; var Q: dimensionless {pub: out}; var dQ: per_ms {pub: out}; var t: ms {pub: in, priv: out}; k_C = 0.5{dimensionless}*alpha*exp((V-V0)/(8{dimensionless}*K)); k_Cminus = 0.5{dimensionless}*alpha*exp(-(V-V0)/(8{dimensionless}*K)); O = O_0+O_1+O_2+O_3+O_4; C = C_0+C_1+C_2+C_3+C_4; norm = C+O; L=k_Lminus/k_L; P_o = O/norm; Q = (O_1+2{dimensionless}*O_2+3{dimensionless}*O_3+4{dimensionless}*O_4+C_1+2{dimensionless}*C_2+3{dimensionless}*C_3+4{dimensionless}*C_4)/4{dimensionless}; dQ = (dO_1+2{dimensionless}*dO_2+3{dimensionless}*dO_3+4{dimensionless}*dO_4+dC_1+2{dimensionless}*dC_2+3{dimensionless}*dC_3+4{dimensionless}*dC_4)/4{dimensionless}; P_ss=pow((1{dimensionless}+exp((V-V0)/(4{dimensionless}*K))*pow(f,-2{dimensionless})),4{dimensionless})/(pow((1{dimensionless}+exp((V-V0)/(4{dimensionless}*K))*pow(f,-2{dimensionless})),4{dimensionless})+L*pow((1{dimensionless}+exp((V-V0)/(4{dimensionless}*K))),4{dimensionless})); Q_ss=(pow(f,-2{dimensionless})*exp((V-V0)/(4{dimensionless}*K))*pow((1{dimensionless}+exp((V-V0)/(4{dimensionless}*K))*pow(f,-2{dimensionless})),3{dimensionless})+L*exp((V-V0)/(4{dimensionless}*K))*pow((1{dimensionless}+exp((V-V0)/(4{dimensionless}*K))),3{dimensionless}))/(pow((1{dimensionless}+exp((V-V0)/(4{dimensionless}*K))*pow(f,-2{dimensionless})),4{dimensionless})+L*pow((1{dimensionless}+exp((V-V0)/(4{dimensionless}*K))),4{dimensionless})); enddef; def group as encapsulation for comp MWC_10 incl comp C0; comp C1; comp C2; comp C3; comp C4; comp O0; comp O1; comp O2; comp O3; comp O4; endcomp; enddef; def map between C0 and C1 for vars S_i and S_1; vars S_2 and S_i; enddef; def map between C0 and O0 for vars S_i and S_1; vars S_1 and S_i; enddef; def map between C0 and MWC_10 for vars S_i and C_0; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars norm and norm; vars Si_init and C0_init; vars N and N; vars t and t; enddef; def map between C1 and C2 for vars S_i and S_1; vars S_3 and S_i; enddef; def map between C1 and O1 for vars S_i and S_2; vars S_2 and S_i; enddef; def map between C1 and MWC_10 for vars S_i and C_1; vars dS_i and dC_1; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and C1_init; vars N and N; vars i and C1_i; vars t and t; enddef; def map between C2 and C3 for vars S_i and S_1; vars S_3 and S_i; enddef; def map between C2 and O2 for vars S_i and S_2; vars S_2 and S_i; enddef; def map between C2 and MWC_10 for vars S_i and C_2; vars dS_i and dC_2; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and C2_init; vars N and N; vars i and C2_i; vars t and t; enddef; def map between C3 and C4 for vars S_i and S_1; vars S_3 and S_i; enddef; def map between C3 and O3 for vars S_i and S_2; vars S_2 and S_i; enddef; def map between C3 and MWC_10 for vars S_i and C_3; vars dS_i and dC_3; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and C3_init; vars N and N; vars i and C3_i; vars t and t; enddef; def map between C4 and O4 for vars S_i and S_2; vars S_2 and S_i; enddef; def map between C4 and MWC_10 for vars S_i and C_4; vars dS_i and dC_4; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and C4_init; vars N and N; vars t and t; enddef; def map between O0 and O1 for vars S_i and S_1; vars S_2 and S_i; enddef; def map between O0 and MWC_10 for vars S_i and O_0; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and O0_init; vars N and N; vars t and t; enddef; def map between O1 and O2 for vars S_i and S_1; vars S_3 and S_i; enddef; def map between O1 and MWC_10 for vars S_i and O_1; vars dS_i and dO_1; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and O1_init; vars N and N; vars i and O1_i; vars t and t; enddef; def map between O2 and O3 for vars S_i and S_1; vars S_3 and S_i; enddef; def map between O2 and MWC_10 for vars S_i and O_2; vars dS_i and dO_2; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and O2_init; vars N and N; vars i and O2_i; vars t and t; enddef; def map between O3 and O4 for vars S_i and S_1; vars S_3 and S_i; enddef; def map between O3 and MWC_10 for vars S_i and O_3; vars dS_i and dO_3; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and O3_init; vars N and N; vars i and O3_i; vars t and t; enddef; def map between O4 and MWC_10 for vars S_i and O_4; vars dS_i and dO_4; vars k_L and k_L; vars k_Lminus and k_Lminus; vars k_C and k_C; vars k_Cminus and k_Cminus; vars f and f; vars norm and norm; vars Si_init and O4_init; vars N and N; vars t and t; enddef; enddef;