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162 lines
4.9 KiB
162 lines
4.9 KiB
/**********
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Copyright 1990 Regents of the University of California. All rights reserved.
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Author: 1985 Thomas L. Quarles
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Modified: 2000 AlansFixes
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**********/
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#include "ngspice.h"
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#include "cktdefs.h"
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#include "sperror.h"
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#include "ifsim.h"
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#ifdef XSPICE
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/* gtri - add - wbk - 12/19/90 - Add headers */
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#include "mif.h"
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#include "evt.h"
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#include "evtproto.h"
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#include "ipctiein.h"
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/* gtri - end - wbk */
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#endif
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int
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DCop(CKTcircuit *ckt, int notused)
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{
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int converged;
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int error;
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IFuid *nameList; /* va: tmalloc'ed list */
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int numNames;
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void *plot = NULL;
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NG_IGNORE(notused);
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#ifdef XSPICE
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/* gtri - add - wbk - 12/19/90 - Add IPC stuff and initialize anal_init and anal_type */
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/* Tell the beginPlot routine what mode we're in */
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g_ipc.anal_type = IPC_ANAL_DCOP;
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/* Tell the code models what mode we're in */
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g_mif_info.circuit.anal_type = MIF_DC;
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g_mif_info.circuit.anal_init = MIF_TRUE;
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/* gtri - end - wbk */
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#endif
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error = CKTnames(ckt,&numNames,&nameList);
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if(error) return(error);
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error = (*(SPfrontEnd->OUTpBeginPlot))(ckt,
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ckt->CKTcurJob, ckt->CKTcurJob->JOBname,
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(IFuid)NULL,IF_REAL,numNames,nameList, IF_REAL,&plot);
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tfree(nameList); /* va: nameList not used any longer, it was a memory leak */
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if(error) return(error);
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#ifdef XSPICE
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/* gtri - begin - wbk - 6/10/91 - Call EVTop if event-driven instances exist */
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if(ckt->evt->counts.num_insts != 0) {
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/* use new DCOP algorithm */
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converged = EVTop(ckt,
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(ckt->CKTmode & MODEUIC) | MODEDCOP | MODEINITJCT,
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(ckt->CKTmode & MODEUIC) | MODEDCOP | MODEINITFLOAT,
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ckt->CKTdcMaxIter,
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MIF_TRUE);
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EVTdump(ckt, IPC_ANAL_DCOP, 0.0);
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EVTop_save(ckt, MIF_TRUE, 0.0);
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/* gtri - end - wbk - 6/10/91 - Call EVTop if event-driven instances exist */
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} else
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/* If no event-driven instances, do what SPICE normally does */
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#endif
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converged = CKTop(ckt,
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(ckt->CKTmode & MODEUIC) | MODEDCOP | MODEINITJCT,
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(ckt->CKTmode & MODEUIC) | MODEDCOP | MODEINITFLOAT,
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ckt->CKTdcMaxIter);
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if(converged != 0) {
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fprintf(stdout,"\nDC solution failed -\n");
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CKTncDump(ckt);
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/*
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CKTnode *node;
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double new, old, tol;
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int i=1;
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fprintf(stdout,"\nDC solution failed -\n\n");
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fprintf(stdout,"Last Node Voltages\n");
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fprintf(stdout,"------------------\n\n");
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fprintf(stdout,"%-30s %20s %20s\n", "Node", "Last Voltage",
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"Previous Iter");
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fprintf(stdout,"%-30s %20s %20s\n", "----", "------------",
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"-------------");
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for(node=ckt->CKTnodes->next;node;node=node->next) {
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if (strstr(node->name, "#branch") || !strstr(node->name, "#")) {
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new = *((ckt->CKTrhsOld) + i ) ;
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old = *((ckt->CKTrhs) + i ) ;
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fprintf(stdout,"%-30s %20g %20g", node->name, new, old);
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if(node->type == 3) {
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tol = ckt->CKTreltol * (MAX(fabs(old),fabs(new))) +
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ckt->CKTvoltTol;
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} else {
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tol = ckt->CKTreltol * (MAX(fabs(old),fabs(new))) +
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ckt->CKTabstol;
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}
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if (fabs(new-old) >tol ) {
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fprintf(stdout," *");
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}
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fprintf(stdout,"\n");
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}
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i++;
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}
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fprintf(stdout,"\n");
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(*(SPfrontEnd->OUTendPlot))(plot); */
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return(converged);
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}
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ckt->CKTmode = (ckt->CKTmode & MODEUIC) | MODEDCOP | MODEINITSMSIG;
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#ifdef WANT_SENSE2
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if(ckt->CKTsenInfo && ((ckt->CKTsenInfo->SENmode&DCSEN) ||
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(ckt->CKTsenInfo->SENmode&ACSEN)) ){
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#ifdef SENSDEBUG
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printf("\nDC Operating Point Sensitivity Results\n\n");
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CKTsenPrint(ckt);
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#endif /* SENSDEBUG */
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senmode = ckt->CKTsenInfo->SENmode;
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save = ckt->CKTmode;
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ckt->CKTsenInfo->SENmode = DCSEN;
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size = SMPmatSize(ckt->CKTmatrix);
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for(i = 1; i<=size ; i++){
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*(ckt->CKTrhsOp + i) = *(ckt->CKTrhsOld + i);
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}
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if(error = CKTsenDCtran(ckt)) return(error);
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ckt->CKTmode = save;
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ckt->CKTsenInfo->SENmode = senmode;
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}
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#endif
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converged = CKTload(ckt);
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#ifdef XSPICE
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/* gtri - modify - wbk - 12/19/90 - Send IPC data delimiters */
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if(g_ipc.enabled)
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ipc_send_dcop_prefix();
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CKTdump(ckt,(double)0,plot);
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if(g_ipc.enabled)
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ipc_send_dcop_suffix();
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/* gtri - end - wbk */
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#else
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if(converged == 0) {
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CKTdump(ckt,(double)0,plot);
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} else {
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fprintf(stderr,"error: circuit reload failed.\n");
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}
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#endif
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(*(SPfrontEnd->OUTendPlot))(plot);
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return(converged);
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}
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