📄 cktsopt.c
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/**********Copyright 1990 Regents of the University of California. All rights reserved.Author: 1985 Thomas L. Quarles**********/ /* * CKTsetOpt(ckt,opt,value) * set the specified 'opt' to have value 'value' in the * given circuit 'ckt'. */#include "spice.h"#include <stdio.h>#include "const.h"#include "optdefs.h"#include "tskdefs.h"#include "ifsim.h"#include "util.h"#include "cktdefs.h"#include "sperror.h"#include "suffix.h"/* ARGSUSED */intCKTsetOpt(ckt,anal,opt,val) GENERIC *ckt; GENERIC *anal; int opt; IFvalue *val;{ register TSKtask *task = (TSKtask *)anal; switch(opt) { case OPT_NOOPITER: task->TSKnoOpIter = val->iValue; break; case OPT_GMIN: task->TSKgmin = val->rValue; break; case OPT_RELTOL: task->TSKreltol = val->rValue; break; case OPT_ABSTOL: task->TSKabstol = val->rValue; break; case OPT_VNTOL: task->TSKvoltTol = val->rValue; break; case OPT_TRTOL: task->TSKtrtol = val->rValue; break; case OPT_CHGTOL: task->TSKchgtol = val->rValue; break; case OPT_PIVTOL: task->TSKpivotAbsTol = val->rValue; break; case OPT_PIVREL: task->TSKpivotRelTol = val->rValue; break; case OPT_TNOM: task->TSKnomTemp = val->rValue + CONSTCtoK; /* Centegrade to Kelvin */ break; case OPT_TEMP: task->TSKtemp = val->rValue + CONSTCtoK; /* Centegrade to Kelvin */ break; case OPT_ITL1: task->TSKdcMaxIter = val->iValue; break; case OPT_ITL2: task->TSKdcTrcvMaxIter = val->iValue; break; case OPT_ITL3: break; case OPT_ITL4: task->TSKtranMaxIter = val->iValue; break; case OPT_ITL5: break; case OPT_SRCSTEPS: task->TSKnumSrcSteps = val->iValue; break; case OPT_GMINSTEPS: task->TSKnumGminSteps = val->iValue; break; case OPT_DEFL: task->TSKdefaultMosL = val->rValue; break; case OPT_DEFW: task->TSKdefaultMosW = val->rValue; break; case OPT_DEFAD: task->TSKdefaultMosAD = val->rValue; break; case OPT_DEFAS: task->TSKdefaultMosAD = val->rValue; break; case OPT_BYPASS: task->TSKbypass = val->iValue; break; case OPT_MAXORD: task->TSKmaxOrder = val->iValue; break; case OPT_OLDLIMIT: task->TSKfixLimit = val->iValue; break; case OPT_MINBREAK: task->TSKminBreak = val->rValue; break; case OPT_METHOD: if(strncmp(val->sValue,"trap", 4)==0) task->TSKintegrateMethod=TRAPEZOIDAL; else if (strcmp(val->sValue,"gear")==0) task->TSKintegrateMethod=GEAR; else return(E_METHOD); break; case OPT_TRYTOCOMPACT: task->TSKtryToCompact = val->iValue; break; case OPT_BADMOS3: task->TSKbadMos3 = val->iValue; break; case OPT_KEEPOPINFO: task->TSKkeepOpInfo = val->iValue; break; default: return(-1); } return(0);}static IFparm OPTtbl[] = { { "noopiter", OPT_NOOPITER,IF_SET|IF_FLAG,"Go directly to gmin stepping" }, { "gmin", OPT_GMIN,IF_SET|IF_REAL,"Minimum conductance" }, { "reltol", OPT_RELTOL,IF_SET|IF_REAL ,"Relative error tolerence"}, { "abstol", OPT_ABSTOL,IF_SET|IF_REAL,"Absolute error tolerence" }, { "vntol", OPT_VNTOL,IF_SET|IF_REAL,"Voltage error tolerence" }, { "trtol", OPT_TRTOL,IF_SET|IF_REAL,"Truncation error overestimation factor" }, { "chgtol", OPT_CHGTOL,IF_SET|IF_REAL, "Charge error tolerence" }, { "pivtol", OPT_PIVTOL,IF_SET|IF_REAL, "Minimum acceptable pivot" }, { "pivrel", OPT_PIVREL,IF_SET|IF_REAL, "Minimum acceptable ratio of pivot" }, { "tnom", OPT_TNOM,IF_SET|IF_ASK|IF_REAL, "Nominal temperature" }, { "temp", OPT_TEMP,IF_SET|IF_ASK|IF_REAL, "Operating temperature" }, { "itl1", OPT_ITL1,IF_SET|IF_INTEGER,"DC iteration limit" }, { "itl2", OPT_ITL2,IF_SET|IF_INTEGER,"DC transfer curve iteration limit" }, { "itl3", OPT_ITL3, IF_INTEGER,"Lower transient iteration limit"}, { "itl4", OPT_ITL4,IF_SET|IF_INTEGER,"Upper transient iteration limit" }, { "itl5", OPT_ITL5, IF_INTEGER,"Total transient iteration limit"}, { "itl6", OPT_SRCSTEPS, IF_SET|IF_INTEGER,"number of source steps"}, { "srcsteps", OPT_SRCSTEPS, IF_SET|IF_INTEGER,"number of source steps"}, { "gminsteps", OPT_GMINSTEPS, IF_SET|IF_INTEGER,"number of Gmin steps"}, { "acct", 0, IF_FLAG ,"Print accounting"}, { "list", 0, IF_FLAG, "Print a listing" }, { "nomod", 0, IF_FLAG, "Don't print a model summary" }, { "nopage", 0, IF_FLAG, "Don't insert page breaks" }, { "node", 0, IF_FLAG,"Print a node connection summary" }, { "opts", 0, IF_FLAG, "Print a list of the options" }, { "oldlimit", OPT_OLDLIMIT, IF_SET|IF_FLAG, "use SPICE2 MOSfet limiting" }, { "numdgt", 0, IF_INTEGER, "Set number of digits printed"}, { "cptime", 0, IF_REAL, "Total cpu time in seconds" }, { "limtim", 0, IF_INTEGER, "Time to reserve for output" }, { "limpts", 0,IF_INTEGER,"Maximum points per analysis"}, { "lvlcod", 0, IF_INTEGER,"Generate machine code" }, { "lvltim", 0, IF_INTEGER,"Type of timestep control" }, { "method", OPT_METHOD, IF_SET|IF_STRING,"Integration method" }, { "maxord", OPT_MAXORD, IF_SET|IF_INTEGER,"Maximum integration order" }, { "defl", OPT_DEFL,IF_SET|IF_REAL,"Default MOSfet length" }, { "defw", OPT_DEFW,IF_SET|IF_REAL,"Default MOSfet width" }, { "minbreak", OPT_MINBREAK,IF_SET|IF_REAL,"Minimum time between breakpoints" }, { "defad", OPT_DEFAD,IF_SET|IF_REAL,"Default MOSfet area of drain" }, { "defas", OPT_DEFAS,IF_SET|IF_REAL,"Default MOSfet area of source" }, { "bypass",OPT_BYPASS,IF_SET|IF_INTEGER,"Allow bypass of unchanging elements"}, { "totiter", OPT_ITERS, IF_ASK|IF_INTEGER,"Total iterations" }, { "traniter", OPT_TRANIT, IF_ASK|IF_INTEGER ,"Transient iterations"}, { "equations", OPT_EQNS, IF_ASK|IF_INTEGER,"Circuit Equations" }, { "originalnz", OPT_ORIGNZ, IF_ASK|IF_INTEGER,"Circuit original non-zeroes" }, { "fillinnz", OPT_FILLNZ, IF_ASK|IF_INTEGER,"Circuit fill-in non-zeroes" }, { "totalnz", OPT_TOTALNZ, IF_ASK|IF_INTEGER,"Circuit total non-zeroes" }, { "tranpoints", OPT_TRANPTS, IF_ASK|IF_INTEGER,"Transient timepoints" }, { "accept", OPT_TRANACCPT, IF_ASK|IF_INTEGER,"Accepted timepoints" }, { "rejected", OPT_TRANRJCT, IF_ASK|IF_INTEGER,"Rejected timepoints" }, { "time", OPT_TOTANALTIME, IF_ASK|IF_REAL,"Total analysis time" }, { "loadtime", OPT_LOADTIME, IF_ASK|IF_REAL,"Matrix load time" }, { "synctime", OPT_SYNCTIME, IF_ASK|IF_REAL,"Matrix synchronize time" }, { "combinetime", OPT_COMBTIME, IF_ASK|IF_REAL,"Matrix combine time" }, { "reordertime", OPT_REORDTIME, IF_ASK|IF_REAL,"Matrix reorder time" }, { "factortime", OPT_DECOMP, IF_ASK|IF_REAL,"Matrix factor time" }, { "solvetime", OPT_SOLVE, IF_ASK|IF_REAL,"Matrix solve time" }, { "trantime", OPT_TRANTIME, IF_ASK|IF_REAL,"Transient analysis time" }, { "tranloadtime", OPT_TRANLOAD, IF_ASK|IF_REAL,"Transient load time" }, { "transynctime", OPT_TRANSYNC, IF_ASK|IF_REAL,"Transient sync time" }, { "trancombinetime", OPT_TRANCOMB, IF_ASK|IF_REAL,"Transient combine time" }, { "tranfactortime", OPT_TRANDECOMP,IF_ASK|IF_REAL,"Transient factor time" }, { "transolvetime", OPT_TRANSOLVE, IF_ASK|IF_REAL,"Transient solve time" }, { "trantrunctime", OPT_TRANTRUNC, IF_ASK|IF_REAL,"Transient trunc time" }, { "trancuriters", OPT_TRANCURITER, IF_ASK|IF_INTEGER, "Transient iters per point" }, { "actime", OPT_ACTIME, IF_ASK|IF_REAL,"AC analysis time" }, { "acloadtime", OPT_ACLOAD, IF_ASK|IF_REAL,"AC load time" }, { "acsynctime", OPT_ACSYNC, IF_ASK|IF_REAL,"AC sync time" }, { "accombinetime", OPT_ACCOMB, IF_ASK|IF_REAL,"AC combine time" }, { "acfactortime", OPT_ACDECOMP,IF_ASK|IF_REAL,"AC factor time" }, { "acsolvetime", OPT_ACSOLVE, IF_ASK|IF_REAL,"AC solve time" }, { "trytocompact", OPT_TRYTOCOMPACT, IF_SET|IF_FLAG, "Try compaction for LTRA lines" }, { "badmos3", OPT_BADMOS3, IF_SET|IF_FLAG, "use old mos3 model (discontinuous with respect to kappa)" }, { "keepopinfo", OPT_KEEPOPINFO, IF_SET|IF_FLAG, "Record operating point for each small-signal analysis" }};int OPTcount = sizeof(OPTtbl)/sizeof(IFparm);SPICEanalysis OPTinfo = { { "options", "Task option selection", sizeof(OPTtbl)/sizeof(IFparm), OPTtbl }, 0, /* no size associated with options */ NODOMAIN, 0, CKTsetOpt, CKTacct, NULL, NULL};⌨️ 快捷键说明
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