// genesis // Setting the Resistance of the Gap Junction (1/conductance) float Rgap = 4.0e9 // Ohms (1/Mhos) from Traub 2005 paper //float P6RSa_SEPX = 25e-6 //float P6RSa_SEPY = 25e-6 //float P6RSa_NX = 5 ;defined in netparams.g //float P6RSa_NY = 5 ;defined in netparams.g int i,j,dexN,dexE,dexS,dexW int conn1dex, conn2dex float test1, test2 str conn1loc="", conn2loc="" float randconn int jnodedex,inodedex,jnodecalc if ({columntype == 1}) float globalconnprob=0.0156 //after Traub 2005 end if ({columntype == 0}) float globalconnprob=0.0078 //after Traub 2005 end echo P6RSa - P6RSa Gap Junctions for (i=0;i<=(P6RSa_NY-1);i=i+1) for (j=0;j<=(P6RSa_NX-1);j=j+1) dexN=i-1 dexE=j+1 dexS=i+1 dexW=j-1 // N randconn = { rand 0 1.0 } if ({dexN>=0} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=(i-1)*P6RSa_NX+j conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end if ({dexN==-1} && {randconn<{globalconnprob}} && { {mynode} >= {sqrtNnodes} }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(P6RSa_NY-1)*P6RSa_NX+j conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - {sqrtNnodes}} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + {sqrtNnodes}} RAXIAL {Rgap} Vm raddmsg@{{mynode} - {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end // NE randconn = { rand 0 1.0 } if ({dexN>=0} && {dexE<P6RSa_NX} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=(i-1)*P6RSa_NX+j+1 conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end float jnodecalcarg = {mynode}/{sqrtNnodes} jnodecalc = {trunc {jnodecalcarg} } jnodedex = {mynode} - {sqrtNnodes}*jnodecalc if ({dexN==-1} && {randconn<{globalconnprob}} && {dexE<P6RSa_NX} && { {mynode} >= {sqrtNnodes} }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(P6RSa_NY-1)*P6RSa_NX+j+1 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - {sqrtNnodes}} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + {sqrtNnodes}} RAXIAL {Rgap} Vm raddmsg@{{mynode} - {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end if ({dexN==-1} && {randconn<{globalconnprob}} && {dexE==P6RSa_NX} && { {mynode} >= {sqrtNnodes} } && {jnodedex} < {sqrtNnodes-1}) //for nodal edge corner conn1dex=i*P6RSa_NX+j conn2dex=(P6RSa_NY-1)*P6RSa_NX conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - {sqrtNnodes} + 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - {sqrtNnodes} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + {sqrtNnodes} - 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} - {sqrtNnodes} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end if ( {dexE==P6RSa_NX} && {dexN>-1} && {randconn<{globalconnprob}} && { {jnodedex} < {sqrtNnodes-1} } ) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(i-1)*P6RSa_NX conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end // E randconn = { rand 0 1.0 } if ({dexE<P6RSa_NX} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=i*P6RSa_NX+j+1 conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end float jnodecalcarg = {mynode}/{sqrtNnodes} jnodecalc = {trunc {jnodecalcarg} } jnodedex = {mynode} - {sqrtNnodes}*jnodecalc if ({dexE==P6RSa_NX} && {randconn<{globalconnprob}} && { {jnodedex} < {sqrtNnodes-1} }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=i*P6RSa_NX conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end // SE randconn = { rand 0 1.0 } //pk if ({dexE<P6RSa_NX} && {dexS>P6RSa_NY} && {randconn<{globalconnprob}}) if ({dexE<P6RSa_NX} && {dexS<P6RSa_NY} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=(i+1)*P6RSa_NX+j+1 conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end float jnodecalcarg = {mynode}/{sqrtNnodes} jnodecalc = {trunc {jnodecalcarg} } jnodedex = {mynode} - {sqrtNnodes}*jnodecalc if ({dexE==P6RSa_NX} && {randconn<{globalconnprob}} && {dexS<P6RSa_NY} && { {jnodedex} < {sqrtNnodes-1} }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(i+1)*P6RSa_NX conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end //pk if ({dexS==P6RSa_NY} && {randconn<{globalconnprob}} && {dexE==P6RSa_NX} && { {jnodedex} < {{sqrtNnodes}-1} } ) //for nodal edge corner if ({dexS==P6RSa_NY} && {randconn<{globalconnprob}} && {dexE==P6RSa_NX} && { {jnodedex} < {sqrtNnodes-1} } && {{mynode} < {{sqrtNnodes}*{sqrtNnodes-1}}}) //for nodal edge corner conn1dex=i*P6RSa_NX+j conn2dex=0 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + {sqrtNnodes} + 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + {sqrtNnodes} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - {sqrtNnodes} - 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} + {sqrtNnodes} + 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end if ( {dexE<P6RSa_NX} && {dexS==P6RSa_NY} && {randconn<{globalconnprob}} && { {mynode} < {{sqrtNnodes}*{sqrtNnodes-1}} } ) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(j+1) conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + {sqrtNnodes}} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - {sqrtNnodes}} RAXIAL {Rgap} Vm raddmsg@{{mynode} + {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end // S randconn = { rand 0 1.0 } if ({dexS<P6RSa_NY} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=(i+1)*P6RSa_NX+j conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end //pk if ({dexS==P6RSa_NY} && {randconn<{globalconnprob}} && { {mynode} >= {sqrtNnodes}*{sqrtNnodes-1} }) //for nodal edge if ({dexS==P6RSa_NY} && {randconn<{globalconnprob}} && { {mynode} < {sqrtNnodes}*{sqrtNnodes-1} }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=j conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + {sqrtNnodes}} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - {sqrtNnodes}} RAXIAL {Rgap} Vm raddmsg@{{mynode} + {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end // SW randconn = { rand 0 1.0 } if ({dexS<P6RSa_NY} && {dexW>=0} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=(i+1)*P6RSa_NX+j-1 conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end float jnodecalcarg = {mynode}/{sqrtNnodes} jnodecalc = {trunc {jnodecalcarg} } jnodedex = {mynode} - {sqrtNnodes}*jnodecalc if ({dexE==1} && {randconn<{globalconnprob}} && {dexS<P6RSa_NY} && { {jnodedex} > 0 }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(i+2)*P6RSa_NX-1 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end if ({dexS==P6RSa_NY} && {randconn<{globalconnprob}} && {dexE==1} && { {jnodedex} > 0 } && { {mynode} < {{sqrtNnodes}*{sqrtNnodes-1}}}) //for nodal edge corner conn1dex=i*P6RSa_NX+j conn2dex=P6RSa_NX-1 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + {sqrtNnodes} - 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + {sqrtNnodes} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - {sqrtNnodes} + 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} + {sqrtNnodes} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end if ( {dexE>1} && {dexS==P6RSa_NY} && {randconn<{globalconnprob}} &&{ {mynode} < {{sqrtNnodes}*{sqrtNnodes-1}} } ) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(j-1) conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} + {sqrtNnodes}} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} + {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} - {sqrtNnodes}} RAXIAL {Rgap} Vm raddmsg@{{mynode} + {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end // W randconn = { rand 0 1.0 } if ({dexW>=0} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=i*P6RSa_NX+j-1 conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end float jnodecalcarg = {mynode}/{sqrtNnodes} jnodecalc = {trunc {jnodecalcarg} } jnodedex = {mynode} - {sqrtNnodes}*jnodecalc if ({dexW==-1} && {randconn<{globalconnprob}} && { {jnodedex} > 0 }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(i+1)*P6RSa_NX-1 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end // NW randconn = { rand 0 1.0 } if ({dexW>=0} && {dexN>=0} && {randconn<{globalconnprob}}) conn1dex=i*P6RSa_NX+j conn2dex=(i-1)*P6RSa_NX+j-1 conn1loc="axonLa" conn2loc="axonRa" addmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} RAXIAL {Rgap} Vm addmsg /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} RAXIAL {Rgap} Vm end float jnodecalcarg = {mynode}/{sqrtNnodes} jnodecalc = {trunc {jnodecalcarg} } jnodedex = {mynode} - {sqrtNnodes}*jnodecalc if ({dexN==-1} && {randconn<{globalconnprob}} && {dexE>1} && { {mynode} >= {sqrtNnodes} }) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=(P6RSa_NY-1)*P6RSa_NX+j-1 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - {sqrtNnodes}} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + {sqrtNnodes}} RAXIAL {Rgap} Vm raddmsg@{{mynode} - {sqrtNnodes}} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end if ({dexN==-1} && {randconn<{globalconnprob}} && {dexE==1} && { {mynode} >= {sqrtNnodes} } && { {jnodedex} > 0 }) //for nodal edge corner conn1dex=i*P6RSa_NX+j conn2dex=(P6RSa_NY*P6RSa_NX)-1 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - {sqrtNnodes} - 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - {sqrtNnodes} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + {sqrtNnodes} + 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} - {sqrtNnodes} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end if ( {dexE==1} && {dexN>-1} && {randconn<{globalconnprob}} && { {jnodedex} > 0 } ) //for nodal edge conn1dex=i*P6RSa_NX+j conn2dex=i*P6RSa_NX-1 conn1loc="axonLa" conn2loc="axonRa" raddmsg /P6RSanet/P6RSa[{conn1dex}]/{conn1loc} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc}@{{mynode} - 1} RAXIAL {Rgap} Vm //pk raddmsg@{{mynode} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{{mynode} + 1} RAXIAL {Rgap} Vm raddmsg@{{mynode} - 1} /P6RSanet/P6RSa[{conn2dex}]/{conn2loc} /P6RSanet/P6RSa[{conn1dex}]/{conn1loc}@{mynode} RAXIAL {Rgap} Vm end end end