/********** Author: 2013 Francesco Lannutti **********/ #include "ngspice/ngspice.h" #include "ngspice/cktdefs.h" #include "mos9defs.h" #include "ngspice/sperror.h" #include "ngspice/klu-binding.h" int MOS9bindCSC (GENmodel *inModel, CKTcircuit *ckt) { MOS9model *model = (MOS9model *)inModel ; MOS9instance *here ; BindElement i, *matched, *BindStruct ; size_t nz ; BindStruct = ckt->CKTmatrix->SMPkluMatrix->KLUmatrixBindStructCOO ; nz = (size_t)ckt->CKTmatrix->SMPkluMatrix->KLUmatrixLinkedListNZ ; /* loop through all the MOS9 models */ for ( ; model != NULL ; model = MOS9nextModel(model)) { /* loop through all the instances of the model */ for (here = MOS9instances(model); here != NULL ; here = MOS9nextInstance(here)) { CREATE_KLU_BINDING_TABLE(MOS9DdPtr, MOS9DdBinding, MOS9dNode, MOS9dNode); CREATE_KLU_BINDING_TABLE(MOS9GgPtr, MOS9GgBinding, MOS9gNode, MOS9gNode); CREATE_KLU_BINDING_TABLE(MOS9SsPtr, MOS9SsBinding, MOS9sNode, MOS9sNode); CREATE_KLU_BINDING_TABLE(MOS9BbPtr, MOS9BbBinding, MOS9bNode, MOS9bNode); CREATE_KLU_BINDING_TABLE(MOS9DPdpPtr, MOS9DPdpBinding, MOS9dNodePrime, MOS9dNodePrime); CREATE_KLU_BINDING_TABLE(MOS9SPspPtr, MOS9SPspBinding, MOS9sNodePrime, MOS9sNodePrime); CREATE_KLU_BINDING_TABLE(MOS9DdpPtr, MOS9DdpBinding, MOS9dNode, MOS9dNodePrime); CREATE_KLU_BINDING_TABLE(MOS9GbPtr, MOS9GbBinding, MOS9gNode, MOS9bNode); CREATE_KLU_BINDING_TABLE(MOS9GdpPtr, MOS9GdpBinding, MOS9gNode, MOS9dNodePrime); CREATE_KLU_BINDING_TABLE(MOS9GspPtr, MOS9GspBinding, MOS9gNode, MOS9sNodePrime); CREATE_KLU_BINDING_TABLE(MOS9SspPtr, MOS9SspBinding, MOS9sNode, MOS9sNodePrime); CREATE_KLU_BINDING_TABLE(MOS9BdpPtr, MOS9BdpBinding, MOS9bNode, MOS9dNodePrime); CREATE_KLU_BINDING_TABLE(MOS9BspPtr, MOS9BspBinding, MOS9bNode, MOS9sNodePrime); CREATE_KLU_BINDING_TABLE(MOS9DPspPtr, MOS9DPspBinding, MOS9dNodePrime, MOS9sNodePrime); CREATE_KLU_BINDING_TABLE(MOS9DPdPtr, MOS9DPdBinding, MOS9dNodePrime, MOS9dNode); CREATE_KLU_BINDING_TABLE(MOS9BgPtr, MOS9BgBinding, MOS9bNode, MOS9gNode); CREATE_KLU_BINDING_TABLE(MOS9DPgPtr, MOS9DPgBinding, MOS9dNodePrime, MOS9gNode); CREATE_KLU_BINDING_TABLE(MOS9SPgPtr, MOS9SPgBinding, MOS9sNodePrime, MOS9gNode); CREATE_KLU_BINDING_TABLE(MOS9SPsPtr, MOS9SPsBinding, MOS9sNodePrime, MOS9sNode); CREATE_KLU_BINDING_TABLE(MOS9DPbPtr, MOS9DPbBinding, MOS9dNodePrime, MOS9bNode); CREATE_KLU_BINDING_TABLE(MOS9SPbPtr, MOS9SPbBinding, MOS9sNodePrime, MOS9bNode); CREATE_KLU_BINDING_TABLE(MOS9SPdpPtr, MOS9SPdpBinding, MOS9sNodePrime, MOS9dNodePrime); } } return (OK) ; } int MOS9bindCSCComplex (GENmodel *inModel, CKTcircuit *ckt) { MOS9model *model = (MOS9model *)inModel ; MOS9instance *here ; NG_IGNORE (ckt) ; /* loop through all the MOS9 models */ for ( ; model != NULL ; model = MOS9nextModel(model)) { /* loop through all the instances of the model */ for (here = MOS9instances(model); here != NULL ; here = MOS9nextInstance(here)) { CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9DdPtr, MOS9DdBinding, MOS9dNode, MOS9dNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9GgPtr, MOS9GgBinding, MOS9gNode, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9SsPtr, MOS9SsBinding, MOS9sNode, MOS9sNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9BbPtr, MOS9BbBinding, MOS9bNode, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9DPdpPtr, MOS9DPdpBinding, MOS9dNodePrime, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9SPspPtr, MOS9SPspBinding, MOS9sNodePrime, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9DdpPtr, MOS9DdpBinding, MOS9dNode, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9GbPtr, MOS9GbBinding, MOS9gNode, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9GdpPtr, MOS9GdpBinding, MOS9gNode, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9GspPtr, MOS9GspBinding, MOS9gNode, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9SspPtr, MOS9SspBinding, MOS9sNode, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9BdpPtr, MOS9BdpBinding, MOS9bNode, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9BspPtr, MOS9BspBinding, MOS9bNode, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9DPspPtr, MOS9DPspBinding, MOS9dNodePrime, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9DPdPtr, MOS9DPdBinding, MOS9dNodePrime, MOS9dNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9BgPtr, MOS9BgBinding, MOS9bNode, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9DPgPtr, MOS9DPgBinding, MOS9dNodePrime, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9SPgPtr, MOS9SPgBinding, MOS9sNodePrime, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9SPsPtr, MOS9SPsBinding, MOS9sNodePrime, MOS9sNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9DPbPtr, MOS9DPbBinding, MOS9dNodePrime, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9SPbPtr, MOS9SPbBinding, MOS9sNodePrime, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS9SPdpPtr, MOS9SPdpBinding, MOS9sNodePrime, MOS9dNodePrime); } } return (OK) ; } int MOS9bindCSCComplexToReal (GENmodel *inModel, CKTcircuit *ckt) { MOS9model *model = (MOS9model *)inModel ; MOS9instance *here ; NG_IGNORE (ckt) ; /* loop through all the MOS9 models */ for ( ; model != NULL ; model = MOS9nextModel(model)) { /* loop through all the instances of the model */ for (here = MOS9instances(model); here != NULL ; here = MOS9nextInstance(here)) { CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9DdPtr, MOS9DdBinding, MOS9dNode, MOS9dNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9GgPtr, MOS9GgBinding, MOS9gNode, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9SsPtr, MOS9SsBinding, MOS9sNode, MOS9sNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9BbPtr, MOS9BbBinding, MOS9bNode, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9DPdpPtr, MOS9DPdpBinding, MOS9dNodePrime, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9SPspPtr, MOS9SPspBinding, MOS9sNodePrime, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9DdpPtr, MOS9DdpBinding, MOS9dNode, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9GbPtr, MOS9GbBinding, MOS9gNode, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9GdpPtr, MOS9GdpBinding, MOS9gNode, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9GspPtr, MOS9GspBinding, MOS9gNode, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9SspPtr, MOS9SspBinding, MOS9sNode, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9BdpPtr, MOS9BdpBinding, MOS9bNode, MOS9dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9BspPtr, MOS9BspBinding, MOS9bNode, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9DPspPtr, MOS9DPspBinding, MOS9dNodePrime, MOS9sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9DPdPtr, MOS9DPdBinding, MOS9dNodePrime, MOS9dNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9BgPtr, MOS9BgBinding, MOS9bNode, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9DPgPtr, MOS9DPgBinding, MOS9dNodePrime, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9SPgPtr, MOS9SPgBinding, MOS9sNodePrime, MOS9gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9SPsPtr, MOS9SPsBinding, MOS9sNodePrime, MOS9sNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9DPbPtr, MOS9DPbBinding, MOS9dNodePrime, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9SPbPtr, MOS9SPbBinding, MOS9sNodePrime, MOS9bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS9SPdpPtr, MOS9SPdpBinding, MOS9sNodePrime, MOS9dNodePrime); } } return (OK) ; }