/********** Author: 2013 Francesco Lannutti **********/ #include "ngspice/ngspice.h" #include "ngspice/cktdefs.h" #include "mos2defs.h" #include "ngspice/sperror.h" #include "ngspice/klu-binding.h" int MOS2bindCSC (GENmodel *inModel, CKTcircuit *ckt) { MOS2model *model = (MOS2model *)inModel ; MOS2instance *here ; BindElement i, *matched, *BindStruct ; size_t nz ; BindStruct = ckt->CKTmatrix->SMPkluMatrix->KLUmatrixBindStructCOO ; nz = (size_t)ckt->CKTmatrix->SMPkluMatrix->KLUmatrixLinkedListNZ ; /* loop through all the MOS2 models */ for ( ; model != NULL ; model = MOS2nextModel(model)) { /* loop through all the instances of the model */ for (here = MOS2instances(model); here != NULL ; here = MOS2nextInstance(here)) { CREATE_KLU_BINDING_TABLE(MOS2DdPtr, MOS2DdBinding, MOS2dNode, MOS2dNode); CREATE_KLU_BINDING_TABLE(MOS2GgPtr, MOS2GgBinding, MOS2gNode, MOS2gNode); CREATE_KLU_BINDING_TABLE(MOS2SsPtr, MOS2SsBinding, MOS2sNode, MOS2sNode); CREATE_KLU_BINDING_TABLE(MOS2BbPtr, MOS2BbBinding, MOS2bNode, MOS2bNode); CREATE_KLU_BINDING_TABLE(MOS2DPdpPtr, MOS2DPdpBinding, MOS2dNodePrime, MOS2dNodePrime); CREATE_KLU_BINDING_TABLE(MOS2SPspPtr, MOS2SPspBinding, MOS2sNodePrime, MOS2sNodePrime); CREATE_KLU_BINDING_TABLE(MOS2DdpPtr, MOS2DdpBinding, MOS2dNode, MOS2dNodePrime); CREATE_KLU_BINDING_TABLE(MOS2GbPtr, MOS2GbBinding, MOS2gNode, MOS2bNode); CREATE_KLU_BINDING_TABLE(MOS2GdpPtr, MOS2GdpBinding, MOS2gNode, MOS2dNodePrime); CREATE_KLU_BINDING_TABLE(MOS2GspPtr, MOS2GspBinding, MOS2gNode, MOS2sNodePrime); CREATE_KLU_BINDING_TABLE(MOS2SspPtr, MOS2SspBinding, MOS2sNode, MOS2sNodePrime); CREATE_KLU_BINDING_TABLE(MOS2BdpPtr, MOS2BdpBinding, MOS2bNode, MOS2dNodePrime); CREATE_KLU_BINDING_TABLE(MOS2BspPtr, MOS2BspBinding, MOS2bNode, MOS2sNodePrime); CREATE_KLU_BINDING_TABLE(MOS2DPspPtr, MOS2DPspBinding, MOS2dNodePrime, MOS2sNodePrime); CREATE_KLU_BINDING_TABLE(MOS2DPdPtr, MOS2DPdBinding, MOS2dNodePrime, MOS2dNode); CREATE_KLU_BINDING_TABLE(MOS2BgPtr, MOS2BgBinding, MOS2bNode, MOS2gNode); CREATE_KLU_BINDING_TABLE(MOS2DPgPtr, MOS2DPgBinding, MOS2dNodePrime, MOS2gNode); CREATE_KLU_BINDING_TABLE(MOS2SPgPtr, MOS2SPgBinding, MOS2sNodePrime, MOS2gNode); CREATE_KLU_BINDING_TABLE(MOS2SPsPtr, MOS2SPsBinding, MOS2sNodePrime, MOS2sNode); CREATE_KLU_BINDING_TABLE(MOS2DPbPtr, MOS2DPbBinding, MOS2dNodePrime, MOS2bNode); CREATE_KLU_BINDING_TABLE(MOS2SPbPtr, MOS2SPbBinding, MOS2sNodePrime, MOS2bNode); CREATE_KLU_BINDING_TABLE(MOS2SPdpPtr, MOS2SPdpBinding, MOS2sNodePrime, MOS2dNodePrime); } } return (OK) ; } int MOS2bindCSCComplex (GENmodel *inModel, CKTcircuit *ckt) { MOS2model *model = (MOS2model *)inModel ; MOS2instance *here ; NG_IGNORE (ckt) ; /* loop through all the MOS2 models */ for ( ; model != NULL ; model = MOS2nextModel(model)) { /* loop through all the instances of the model */ for (here = MOS2instances(model); here != NULL ; here = MOS2nextInstance(here)) { CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2DdPtr, MOS2DdBinding, MOS2dNode, MOS2dNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2GgPtr, MOS2GgBinding, MOS2gNode, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2SsPtr, MOS2SsBinding, MOS2sNode, MOS2sNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2BbPtr, MOS2BbBinding, MOS2bNode, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2DPdpPtr, MOS2DPdpBinding, MOS2dNodePrime, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2SPspPtr, MOS2SPspBinding, MOS2sNodePrime, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2DdpPtr, MOS2DdpBinding, MOS2dNode, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2GbPtr, MOS2GbBinding, MOS2gNode, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2GdpPtr, MOS2GdpBinding, MOS2gNode, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2GspPtr, MOS2GspBinding, MOS2gNode, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2SspPtr, MOS2SspBinding, MOS2sNode, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2BdpPtr, MOS2BdpBinding, MOS2bNode, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2BspPtr, MOS2BspBinding, MOS2bNode, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2DPspPtr, MOS2DPspBinding, MOS2dNodePrime, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2DPdPtr, MOS2DPdBinding, MOS2dNodePrime, MOS2dNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2BgPtr, MOS2BgBinding, MOS2bNode, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2DPgPtr, MOS2DPgBinding, MOS2dNodePrime, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2SPgPtr, MOS2SPgBinding, MOS2sNodePrime, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2SPsPtr, MOS2SPsBinding, MOS2sNodePrime, MOS2sNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2DPbPtr, MOS2DPbBinding, MOS2dNodePrime, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2SPbPtr, MOS2SPbBinding, MOS2sNodePrime, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_COMPLEX(MOS2SPdpPtr, MOS2SPdpBinding, MOS2sNodePrime, MOS2dNodePrime); } } return (OK) ; } int MOS2bindCSCComplexToReal (GENmodel *inModel, CKTcircuit *ckt) { MOS2model *model = (MOS2model *)inModel ; MOS2instance *here ; NG_IGNORE (ckt) ; /* loop through all the MOS2 models */ for ( ; model != NULL ; model = MOS2nextModel(model)) { /* loop through all the instances of the model */ for (here = MOS2instances(model); here != NULL ; here = MOS2nextInstance(here)) { CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2DdPtr, MOS2DdBinding, MOS2dNode, MOS2dNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2GgPtr, MOS2GgBinding, MOS2gNode, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2SsPtr, MOS2SsBinding, MOS2sNode, MOS2sNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2BbPtr, MOS2BbBinding, MOS2bNode, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2DPdpPtr, MOS2DPdpBinding, MOS2dNodePrime, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2SPspPtr, MOS2SPspBinding, MOS2sNodePrime, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2DdpPtr, MOS2DdpBinding, MOS2dNode, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2GbPtr, MOS2GbBinding, MOS2gNode, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2GdpPtr, MOS2GdpBinding, MOS2gNode, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2GspPtr, MOS2GspBinding, MOS2gNode, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2SspPtr, MOS2SspBinding, MOS2sNode, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2BdpPtr, MOS2BdpBinding, MOS2bNode, MOS2dNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2BspPtr, MOS2BspBinding, MOS2bNode, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2DPspPtr, MOS2DPspBinding, MOS2dNodePrime, MOS2sNodePrime); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2DPdPtr, MOS2DPdBinding, MOS2dNodePrime, MOS2dNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2BgPtr, MOS2BgBinding, MOS2bNode, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2DPgPtr, MOS2DPgBinding, MOS2dNodePrime, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2SPgPtr, MOS2SPgBinding, MOS2sNodePrime, MOS2gNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2SPsPtr, MOS2SPsBinding, MOS2sNodePrime, MOS2sNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2DPbPtr, MOS2DPbBinding, MOS2dNodePrime, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2SPbPtr, MOS2SPbBinding, MOS2sNodePrime, MOS2bNode); CONVERT_KLU_BINDING_TABLE_TO_REAL(MOS2SPdpPtr, MOS2SPdpBinding, MOS2sNodePrime, MOS2dNodePrime); } } return (OK) ; }