/**CFile**************************************************************** FileName [fsimTsim.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Fast sequential AIG simulator.] Synopsis [Varius utilities.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - June 20, 2005.] Revision [$Id: fsimTsim.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $] ***********************************************************************/ #include "fsimInt.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// #define FSIM_ZER 1 #define FSIM_ONE 2 #define FSIM_UND 3 static inline int Aig_XsimNotCond( int Value, int fCompl ) { if ( Value == FSIM_UND ) return FSIM_UND; if ( Value == FSIM_ZER + fCompl ) return FSIM_ZER; return FSIM_ONE; } static inline int Aig_XsimAndCond( int Value0, int fCompl0, int Value1, int fCompl1 ) { if ( Value0 == FSIM_UND || Value1 == FSIM_UND ) return FSIM_UND; if ( Value0 == FSIM_ZER + fCompl0 || Value1 == FSIM_ZER + fCompl1 ) return FSIM_ZER; return FSIM_ONE; } static inline int Fsim_ManTerSimInfoGet( unsigned * pInfo, int i ) { return 3 & (pInfo[i >> 4] >> ((i & 15) << 1)); } static inline void Fsim_ManTerSimInfoSet( unsigned * pInfo, int i, int Value ) { assert( Value >= FSIM_ZER && Value <= FSIM_UND ); Value ^= Fsim_ManTerSimInfoGet( pInfo, i ); pInfo[i >> 4] ^= (Value << ((i & 15) << 1)); } static inline unsigned * Fsim_ManTerStateNext( unsigned * pState, int nWords ) { return *((unsigned **)(pState + nWords)); } static inline void Fsim_ManTerStateSetNext( unsigned * pState, int nWords, unsigned * pNext ) { *((unsigned **)(pState + nWords)) = pNext; } //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Fsim_ManTerSimulateCi( Fsim_Man_t * p, int iNode, int iCi ) { Fsim_ManTerSimInfoSet( p->pDataSim, iNode, Fsim_ManTerSimInfoGet(p->pDataSimCis, iCi) ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Fsim_ManTerSimulateCo( Fsim_Man_t * p, int iCo, int iFan0 ) { int Value = Fsim_ManTerSimInfoGet( p->pDataSim, Fsim_Lit2Var(iFan0) ); Fsim_ManTerSimInfoSet( p->pDataSimCos, iCo, Aig_XsimNotCond( Value, Fsim_LitIsCompl(iFan0) ) ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Fsim_ManTerSimulateNode( Fsim_Man_t * p, int iNode, int iFan0, int iFan1 ) { int Value0 = Fsim_ManTerSimInfoGet( p->pDataSim, Fsim_Lit2Var(iFan0) ); int Value1 = Fsim_ManTerSimInfoGet( p->pDataSim, Fsim_Lit2Var(iFan1) ); Fsim_ManTerSimInfoSet( p->pDataSim, iNode, Aig_XsimAndCond( Value0, Fsim_LitIsCompl(iFan0), Value1, Fsim_LitIsCompl(iFan1) ) ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Fsim_ManTerSimInfoInit( Fsim_Man_t * p ) { int iPioNum, i; Vec_IntForEachEntry( p->vCis2Ids, iPioNum, i ) { if ( iPioNum < p->nPis ) Fsim_ManTerSimInfoSet( p->pDataSimCis, i, FSIM_UND ); else Fsim_ManTerSimInfoSet( p->pDataSimCis, i, FSIM_ZER ); } } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Fsim_ManTerSimInfoTransfer( Fsim_Man_t * p ) { int iPioNum, i; Vec_IntForEachEntry( p->vCis2Ids, iPioNum, i ) { if ( iPioNum < p->nPis ) Fsim_ManTerSimInfoSet( p->pDataSimCis, i, FSIM_UND ); else Fsim_ManTerSimInfoSet( p->pDataSimCis, i, Fsim_ManTerSimInfoGet( p->pDataSimCos, p->nPos+iPioNum-p->nPis ) ); } } /**Function************************************************************* Synopsis [Computes hash value of the node using its simulation info.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Fsim_ManTerStateHash( unsigned * pState, int nWords, int nTableSize ) { static int s_FPrimes[128] = { 1009, 1049, 1093, 1151, 1201, 1249, 1297, 1361, 1427, 1459, 1499, 1559, 1607, 1657, 1709, 1759, 1823, 1877, 1933, 1997, 2039, 2089, 2141, 2213, 2269, 2311, 2371, 2411, 2467, 2543, 2609, 2663, 2699, 2741, 2797, 2851, 2909, 2969, 3037, 3089, 3169, 3221, 3299, 3331, 3389, 3461, 3517, 3557, 3613, 3671, 3719, 3779, 3847, 3907, 3943, 4013, 4073, 4129, 4201, 4243, 4289, 4363, 4441, 4493, 4549, 4621, 4663, 4729, 4793, 4871, 4933, 4973, 5021, 5087, 5153, 5227, 5281, 5351, 5417, 5471, 5519, 5573, 5651, 5693, 5749, 5821, 5861, 5923, 6011, 6073, 6131, 6199, 6257, 6301, 6353, 6397, 6481, 6563, 6619, 6689, 6737, 6803, 6863, 6917, 6977, 7027, 7109, 7187, 7237, 7309, 7393, 7477, 7523, 7561, 7607, 7681, 7727, 7817, 7877, 7933, 8011, 8039, 8059, 8081, 8093, 8111, 8123, 8147 }; unsigned uHash; int i; uHash = 0; for ( i = 0; i < nWords; i++ ) uHash ^= pState[i] * s_FPrimes[i & 0x7F]; return uHash % nTableSize; } /**Function************************************************************* Synopsis [Inserts value into the table.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Fsim_ManTerStateLookup( unsigned * pState, int nWords, unsigned ** pBins, int nBins ) { unsigned * pEntry; int Hash; Hash = Fsim_ManTerStateHash( pState, nWords, nBins ); for ( pEntry = pBins[Hash]; pEntry; pEntry = Fsim_ManTerStateNext(pEntry, nWords) ) if ( !memcmp( pEntry, pState, sizeof(unsigned) * nWords ) ) return 1; return 0; } /**Function************************************************************* Synopsis [Inserts value into the table.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Fsim_ManTerStateInsert( unsigned * pState, int nWords, unsigned ** pBins, int nBins ) { int Hash = Fsim_ManTerStateHash( pState, nWords, nBins ); assert( !Fsim_ManTerStateLookup( pState, nWords, pBins, nBins ) ); Fsim_ManTerStateSetNext( pState, nWords, pBins[Hash] ); pBins[Hash] = pState; } /**Function************************************************************* Synopsis [Inserts value into the table.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ unsigned * Fsim_ManTerStateCreate( unsigned * pInfo, int nPis, int nCis, int nWords ) { unsigned * pRes; int i; pRes = (unsigned *)ABC_CALLOC( char, sizeof(unsigned) * nWords + sizeof(unsigned *) ); for ( i = nPis; i < nCis; i++ ) Fsim_ManTerSimInfoSet( pRes, i-nPis, Fsim_ManTerSimInfoGet(pInfo, i) ); return pRes; } /**Function************************************************************* Synopsis [Inserts value into the table.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Fsim_ManTerStatePrint( unsigned * pState, int nRegs ) { int i, Value, nZeros = 0, nOnes = 0, nDcs = 0; for ( i = 0; i < nRegs; i++ ) { Value = (Aig_InfoHasBit( pState, 2 * i + 1 ) << 1) | Aig_InfoHasBit( pState, 2 * i ); if ( Value == 1 ) printf( "0" ), nZeros++; else if ( Value == 2 ) printf( "1" ), nOnes++; else if ( Value == 3 ) printf( "x" ), nDcs++; else assert( 0 ); } printf( " (0=%5d, 1=%5d, x=%5d)\n", nZeros, nOnes, nDcs ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Fsim_ManTerSimulateRound( Fsim_Man_t * p ) { int * pCur, * pEnd; int iCis = 0, iCos = 0; if ( Aig_ObjRefs(Aig_ManConst1(p->pAig)) ) Fsim_ManTerSimInfoSet( p->pDataSimCis, 1, FSIM_ONE ); pCur = p->pDataAig2 + 6; pEnd = p->pDataAig2 + 3 * p->nObjs; while ( pCur < pEnd ) { if ( pCur[1] == 0 ) Fsim_ManTerSimulateCi( p, pCur[0], iCis++ ); else if ( pCur[2] == 0 ) Fsim_ManTerSimulateCo( p, iCos++, pCur[1] ); else Fsim_ManTerSimulateNode( p, pCur[0], pCur[1], pCur[2] ); pCur += 3; } assert( iCis == p->nCis ); assert( iCos == p->nCos ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Vec_Ptr_t * Fsim_ManTerSimulate( Aig_Man_t * pAig, int fVerbose ) { Fsim_Man_t * p; Vec_Ptr_t * vStates; unsigned ** pBins, * pState; int i, nWords, nBins; clock_t clk, clkTotal = clock(); assert( Aig_ManRegNum(pAig) > 0 ); // create manager clk = clock(); p = Fsim_ManCreate( pAig ); if ( fVerbose ) { printf( "Obj = %8d (%8d). Cut = %6d. Front = %6d. FrtMem = %7.2f MB. ", p->nObjs, p->nCis + p->nNodes, p->nCrossCutMax, p->nFront, 4.0*Aig_BitWordNum(2 * p->nFront)/(1<<20) ); ABC_PRT( "Time", clock() - clk ); } // create simulation frontier clk = clock(); Fsim_ManFront( p, 0 ); if ( fVerbose ) { printf( "Max ID = %8d. Log max ID = %2d. AigMem = %7.2f MB (%5.2f byte/obj). ", p->iNumber, Aig_Base2Log(p->iNumber), 1.0*(p->pDataCur-p->pDataAig)/(1<<20), 1.0*(p->pDataCur-p->pDataAig)/p->nObjs ); ABC_PRT( "Time", clock() - clk ); } // allocate storage for terminary states nWords = Abc_BitWordNum( 2*Aig_ManRegNum(pAig) ); vStates = Vec_PtrAlloc( 1000 ); nBins = Abc_PrimeCudd( 500 ); pBins = ABC_ALLOC( unsigned *, nBins ); memset( pBins, 0, sizeof(unsigned *) * nBins ); // perform simulation assert( p->pDataSim == NULL ); p->pDataSim = ABC_ALLOC( unsigned, Aig_BitWordNum(2 * p->nFront) * sizeof(unsigned) ); p->pDataSimCis = ABC_ALLOC( unsigned, Aig_BitWordNum(2 * p->nCis) * sizeof(unsigned) ); p->pDataSimCos = ABC_ALLOC( unsigned, Aig_BitWordNum(2 * p->nCos) * sizeof(unsigned) ); Fsim_ManTerSimInfoInit( p ); // hash the first state pState = Fsim_ManTerStateCreate( p->pDataSimCis, p->nPis, p->nCis, nWords ); Vec_PtrPush( vStates, pState ); Fsim_ManTerStateInsert( pState, nWords, pBins, nBins ); // perform simuluation till convergence for ( i = 0; ; i++ ) { Fsim_ManTerSimulateRound( p ); Fsim_ManTerSimInfoTransfer( p ); // hash the first state pState = Fsim_ManTerStateCreate( p->pDataSimCis, p->nPis, p->nCis, nWords ); Vec_PtrPush( vStates, pState ); if ( Fsim_ManTerStateLookup(pState, nWords, pBins, nBins) ) break; Fsim_ManTerStateInsert( pState, nWords, pBins, nBins ); } if ( fVerbose ) { printf( "Maxcut = %8d. AigMem = %7.2f MB. SimMem = %7.2f MB. ", p->nCrossCutMax, p->pDataAig2? 12.0*p->nObjs/(1<<20) : 1.0*(p->pDataCur-p->pDataAig)/(1<<20), 4.0*(Aig_BitWordNum(2 * p->nFront)+Aig_BitWordNum(2 * p->nCis)+Aig_BitWordNum(2 * p->nCos))/(1<<20) ); ABC_PRT( "Sim time", clock() - clkTotal ); } ABC_FREE( pBins ); Fsim_ManDelete( p ); return vStates; } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END