/**CFile**************************************************************** FileName [cecSeq.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Combinational equivalence checking.] Synopsis [Refinement of sequential equivalence classes.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - June 20, 2005.] Revision [$Id: cecSeq.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $] ***********************************************************************/ #include "cecInt.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Sets register values from the counter-example.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Cec_ManSeqDeriveInfoFromCex( Vec_Ptr_t * vInfo, Gia_Man_t * pAig, Abc_Cex_t * pCex ) { unsigned * pInfo; int k, i, w, nWords; assert( pCex->nBits == pCex->nRegs + pCex->nPis * (pCex->iFrame + 1) ); assert( pCex->nBits - pCex->nRegs + Gia_ManRegNum(pAig) <= Vec_PtrSize(vInfo) ); nWords = Vec_PtrReadWordsSimInfo( vInfo ); /* // user register values assert( pCex->nRegs == Gia_ManRegNum(pAig) ); for ( k = 0; k < pCex->nRegs; k++ ) { pInfo = (unsigned *)Vec_PtrEntry( vInfo, k ); for ( w = 0; w < nWords; w++ ) pInfo[w] = Abc_InfoHasBit( pCex->pData, k )? ~0 : 0; } */ // print warning about register values for ( k = 0; k < pCex->nRegs; k++ ) if ( Abc_InfoHasBit( pCex->pData, k ) ) break; if ( k < pCex->nRegs ) Abc_Print( 0, "The CEX has flop values different from 0, but they are currently not used by \"resim\".\n" ); // assign zero register values for ( k = 0; k < Gia_ManRegNum(pAig); k++ ) { pInfo = (unsigned *)Vec_PtrEntry( vInfo, k ); for ( w = 0; w < nWords; w++ ) pInfo[w] = 0; } for ( i = pCex->nRegs; i < pCex->nBits; i++ ) { pInfo = (unsigned *)Vec_PtrEntry( vInfo, k++ ); for ( w = 0; w < nWords; w++ ) pInfo[w] = Gia_ManRandom(0); // set simulation pattern and make sure it is second (first will be erased during simulation) pInfo[0] = (pInfo[0] << 1) | Abc_InfoHasBit( pCex->pData, i ); pInfo[0] <<= 1; } for ( ; k < Vec_PtrSize(vInfo); k++ ) { pInfo = (unsigned *)Vec_PtrEntry( vInfo, k ); for ( w = 0; w < nWords; w++ ) pInfo[w] = Gia_ManRandom(0); } } /**Function************************************************************* Synopsis [Sets register values from the counter-example.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Cec_ManSeqDeriveInfoInitRandom( Vec_Ptr_t * vInfo, Gia_Man_t * pAig, Abc_Cex_t * pCex ) { unsigned * pInfo; int k, w, nWords; nWords = Vec_PtrReadWordsSimInfo( vInfo ); assert( pCex == NULL || Gia_ManRegNum(pAig) == pCex->nRegs ); assert( Gia_ManRegNum(pAig) <= Vec_PtrSize(vInfo) ); for ( k = 0; k < Gia_ManRegNum(pAig); k++ ) { pInfo = (unsigned *)Vec_PtrEntry( vInfo, k ); for ( w = 0; w < nWords; w++ ) pInfo[w] = (pCex && Abc_InfoHasBit(pCex->pData, k))? ~0 : 0; } for ( ; k < Vec_PtrSize(vInfo); k++ ) { pInfo = (unsigned *)Vec_PtrEntry( vInfo, k ); for ( w = 0; w < nWords; w++ ) pInfo[w] = Gia_ManRandom( 0 ); } } /**Function************************************************************* Synopsis [Resimulates the classes using sequential simulation info.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cec_ManSeqResimulate( Cec_ManSim_t * p, Vec_Ptr_t * vInfo ) { unsigned * pInfo0, * pInfo1; int f, i, k, w; // assert( Gia_ManRegNum(p->pAig) > 0 ); assert( Vec_PtrSize(vInfo) == Gia_ManRegNum(p->pAig) + Gia_ManPiNum(p->pAig) * p->pPars->nFrames ); for ( k = 0; k < Gia_ManRegNum(p->pAig); k++ ) { pInfo0 = (unsigned *)Vec_PtrEntry( vInfo, k ); pInfo1 = (unsigned *)Vec_PtrEntry( p->vCoSimInfo, Gia_ManPoNum(p->pAig) + k ); for ( w = 0; w < p->nWords; w++ ) pInfo1[w] = pInfo0[w]; } for ( f = 0; f < p->pPars->nFrames; f++ ) { for ( i = 0; i < Gia_ManPiNum(p->pAig); i++ ) { pInfo0 = (unsigned *)Vec_PtrEntry( vInfo, k++ ); pInfo1 = (unsigned *)Vec_PtrEntry( p->vCiSimInfo, i ); for ( w = 0; w < p->nWords; w++ ) pInfo1[w] = pInfo0[w]; } for ( i = 0; i < Gia_ManRegNum(p->pAig); i++ ) { pInfo0 = (unsigned *)Vec_PtrEntry( p->vCoSimInfo, Gia_ManPoNum(p->pAig) + i ); pInfo1 = (unsigned *)Vec_PtrEntry( p->vCiSimInfo, Gia_ManPiNum(p->pAig) + i ); for ( w = 0; w < p->nWords; w++ ) pInfo1[w] = pInfo0[w]; } if ( Cec_ManSimSimulateRound( p, p->vCiSimInfo, p->vCoSimInfo ) ) return 1; } assert( k == Vec_PtrSize(vInfo) ); return 0; } /**Function************************************************************* Synopsis [Resimulates information to refine equivalence classes.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cec_ManSeqResimulateInfo( Gia_Man_t * pAig, Vec_Ptr_t * vSimInfo, Abc_Cex_t * pBestState, int fCheckMiter ) { Cec_ParSim_t ParsSim, * pParsSim = &ParsSim; Cec_ManSim_t * pSim; int RetValue;//, clkTotal = Abc_Clock(); assert( (Vec_PtrSize(vSimInfo) - Gia_ManRegNum(pAig)) % Gia_ManPiNum(pAig) == 0 ); Cec_ManSimSetDefaultParams( pParsSim ); pParsSim->nFrames = (Vec_PtrSize(vSimInfo) - Gia_ManRegNum(pAig)) / Gia_ManPiNum(pAig); pParsSim->nWords = Vec_PtrReadWordsSimInfo( vSimInfo ); pParsSim->fCheckMiter = fCheckMiter; Gia_ManCreateValueRefs( pAig ); pSim = Cec_ManSimStart( pAig, pParsSim ); if ( pBestState ) pSim->pBestState = pBestState; RetValue = Cec_ManSeqResimulate( pSim, vSimInfo ); pSim->pBestState = NULL; Cec_ManSimStop( pSim ); return RetValue; } /**Function************************************************************* Synopsis [Resimuates one counter-example to refine equivalence classes.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cec_ManSeqResimulateCounter( Gia_Man_t * pAig, Cec_ParSim_t * pPars, Abc_Cex_t * pCex ) { Vec_Ptr_t * vSimInfo; int RetValue; abctime clkTotal = Abc_Clock(); if ( pCex == NULL ) { Abc_Print( 1, "Cec_ManSeqResimulateCounter(): Counter-example is not available.\n" ); return -1; } if ( pAig->pReprs == NULL ) { Abc_Print( 1, "Cec_ManSeqResimulateCounter(): Equivalence classes are not available.\n" ); return -1; } if ( Gia_ManRegNum(pAig) == 0 ) { Abc_Print( 1, "Cec_ManSeqResimulateCounter(): Not a sequential AIG.\n" ); return -1; } // if ( Gia_ManRegNum(pAig) != pCex->nRegs || Gia_ManPiNum(pAig) != pCex->nPis ) if ( Gia_ManPiNum(pAig) != pCex->nPis ) { Abc_Print( 1, "Cec_ManSeqResimulateCounter(): The number of PIs in the AIG and the counter-example differ.\n" ); return -1; } if ( pPars->fVerbose ) Abc_Print( 1, "Resimulating %d timeframes.\n", pPars->nFrames + pCex->iFrame + 1 ); Gia_ManRandom( 1 ); vSimInfo = Vec_PtrAllocSimInfo( Gia_ManRegNum(pAig) + Gia_ManPiNum(pAig) * (pPars->nFrames + pCex->iFrame + 1), 1 ); Cec_ManSeqDeriveInfoFromCex( vSimInfo, pAig, pCex ); if ( pPars->fVerbose ) Gia_ManEquivPrintClasses( pAig, 0, 0 ); RetValue = Cec_ManSeqResimulateInfo( pAig, vSimInfo, NULL, pPars->fCheckMiter ); if ( pPars->fVerbose ) Gia_ManEquivPrintClasses( pAig, 0, 0 ); Vec_PtrFree( vSimInfo ); if ( pPars->fVerbose ) ABC_PRT( "Time", Abc_Clock() - clkTotal ); // if ( RetValue && pPars->fCheckMiter ) // Abc_Print( 1, "Cec_ManSeqResimulateCounter(): An output of the miter is asserted!\n" ); return RetValue; } /**Function************************************************************* Synopsis [Returns the number of POs that are not const0 cands.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cec_ManCountNonConstOutputs( Gia_Man_t * pAig ) { Gia_Obj_t * pObj; int i, Counter = 0; if ( pAig->pReprs == NULL ) return -1; Gia_ManForEachPo( pAig, pObj, i ) if ( !Gia_ObjIsConst( pAig, Gia_ObjFaninId0p(pAig, pObj) ) ) Counter++; return Counter; } /**Function************************************************************* Synopsis [Returns the number of POs that are not const0 cands.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cec_ManCheckNonTrivialCands( Gia_Man_t * pAig ) { Gia_Obj_t * pObj; int i, RetValue = 0; if ( pAig->pReprs == NULL ) return 0; // label internal nodes driving POs Gia_ManForEachPo( pAig, pObj, i ) Gia_ObjFanin0(pObj)->fMark0 = 1; // check if there are non-labled equivs Gia_ManForEachObj( pAig, pObj, i ) if ( Gia_ObjIsCand(pObj) && !pObj->fMark0 && Gia_ObjRepr(pAig, i) != GIA_VOID ) { RetValue = 1; break; } // clean internal nodes driving POs Gia_ManForEachPo( pAig, pObj, i ) Gia_ObjFanin0(pObj)->fMark0 = 0; return RetValue; } /**Function************************************************************* Synopsis [Performs semiformal refinement of equivalence classes.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Cec_ManSeqSemiformal( Gia_Man_t * pAig, Cec_ParSmf_t * pPars ) { int nAddFrames = 16; // additional timeframes to simulate int nCountNoRef = 0; int nFramesReal; Cec_ParSat_t ParsSat, * pParsSat = &ParsSat; Vec_Ptr_t * vSimInfo; Vec_Str_t * vStatus; Abc_Cex_t * pState; Gia_Man_t * pSrm, * pReduce, * pAux; int r, nPats, RetValue = 0; if ( pAig->pReprs == NULL ) { Abc_Print( 1, "Cec_ManSeqSemiformal(): Equivalence classes are not available.\n" ); return -1; } if ( Gia_ManRegNum(pAig) == 0 ) { Abc_Print( 1, "Cec_ManSeqSemiformal(): Not a sequential AIG.\n" ); return -1; } Gia_ManRandom( 1 ); // prepare starting pattern pState = Abc_CexAlloc( Gia_ManRegNum(pAig), 0, 0 ); pState->iFrame = -1; pState->iPo = -1; // prepare SAT solving Cec_ManSatSetDefaultParams( pParsSat ); pParsSat->nBTLimit = pPars->nBTLimit; pParsSat->fVerbose = pPars->fVerbose; if ( pParsSat->fVerbose ) { Abc_Print( 1, "Starting: " ); Gia_ManEquivPrintClasses( pAig, 0, 0 ); } // perform the given number of BMC rounds Gia_ManCleanMark0( pAig ); for ( r = 0; r < pPars->nRounds; r++ ) { if ( !Cec_ManCheckNonTrivialCands(pAig) ) { Abc_Print( 1, "Cec_ManSeqSemiformal: There are only trivial equiv candidates left (PO drivers). Quitting.\n" ); break; } // Abc_CexPrint( pState ); // derive speculatively reduced model // pSrm = Gia_ManSpecReduceInit( pAig, pState, pPars->nFrames, pPars->fDualOut ); pSrm = Gia_ManSpecReduceInitFrames( pAig, pState, pPars->nFrames, &nFramesReal, pPars->fDualOut, pPars->nMinOutputs ); if ( pSrm == NULL ) { Abc_Print( 1, "Quitting refinement because miter could not be unrolled.\n" ); break; } assert( Gia_ManRegNum(pSrm) == 0 && Gia_ManPiNum(pSrm) == (Gia_ManPiNum(pAig) * nFramesReal) ); if ( pPars->fVerbose ) Abc_Print( 1, "Unrolled for %d frames.\n", nFramesReal ); // allocate room for simulation info vSimInfo = Vec_PtrAllocSimInfo( Gia_ManRegNum(pAig) + Gia_ManPiNum(pAig) * (nFramesReal + nAddFrames), pPars->nWords ); Cec_ManSeqDeriveInfoInitRandom( vSimInfo, pAig, pState ); // fill in simulation info with counter-examples vStatus = Cec_ManSatSolveSeq( vSimInfo, pSrm, pParsSat, Gia_ManRegNum(pAig), &nPats ); Vec_StrFree( vStatus ); Gia_ManStop( pSrm ); // resimulate and refine the classes RetValue = Cec_ManSeqResimulateInfo( pAig, vSimInfo, pState, pPars->fCheckMiter ); Vec_PtrFree( vSimInfo ); assert( pState->iPo >= 0 ); // hit counter pState->iPo = -1; if ( pPars->fVerbose ) { Abc_Print( 1, "BMC = %3d ", nPats ); Gia_ManEquivPrintClasses( pAig, 0, 0 ); } // write equivalence classes Gia_AigerWrite( pAig, "gore.aig", 0, 0 ); // reduce the model pReduce = Gia_ManSpecReduce( pAig, 0, 0, 1, 0, 0 ); if ( pReduce ) { pReduce = Gia_ManSeqStructSweep( pAux = pReduce, 1, 1, 0 ); Gia_ManStop( pAux ); Gia_AigerWrite( pReduce, "gsrm.aig", 0, 0 ); // Abc_Print( 1, "Speculatively reduced model was written into file \"%s\".\n", "gsrm.aig" ); // Gia_ManPrintStatsShort( pReduce ); Gia_ManStop( pReduce ); } if ( RetValue ) { Abc_Print( 1, "Cec_ManSeqSemiformal(): An output of the miter is asserted. Refinement stopped.\n" ); break; } // decide when to stop if ( nPats > 0 ) nCountNoRef = 0; else if ( ++nCountNoRef == pPars->nNonRefines ) break; } ABC_FREE( pState ); if ( pPars->fCheckMiter ) { int nNonConsts = Cec_ManCountNonConstOutputs( pAig ); if ( nNonConsts ) Abc_Print( 1, "The number of POs that are not const-0 candidates = %d.\n", nNonConsts ); } return RetValue; } //&r s13207.aig; &ps; ≡ &ps; &semi -R 2 -vm //&r bug/50/temp.aig; &ps; &equiv -smv; &semi -v //r mentor/1_05c.blif; st; &get; &ps; &equiv -smv; &semi -mv //&r bug/50/hdl1.aig; &ps; &equiv -smv; &semi -mv; &srm; &r gsrm.aig; &ps //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END