/**CFile**************************************************************** FileName [ifDec75.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [FPGA mapping based on priority cuts.] Synopsis [Performs additional check.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - November 21, 2006.] Revision [$Id: ifDec75.c,v 1.00 2006/11/21 00:00:00 alanmi Exp $] ***********************************************************************/ #include "if.h" #include "misc/extra/extra.h" #include "bool/kit/kit.h" #include "opt/dau/dau.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Finds all boundsets for which decomposition exists.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Dau_DsdCheckDecExist_rec( char * pStr, char ** p, int * pMatches, int * pnSupp ) { if ( **p == '!' ) (*p)++; while ( (**p >= 'A' && **p <= 'F') || (**p >= '0' && **p <= '9') ) (*p)++; if ( **p >= 'a' && **p <= 'z' ) // var { (*pnSupp)++; return 0; } if ( **p == '(' || **p == '[' ) // and/xor { unsigned Mask = 0; int m, pSupps[8] = {0}, nParts = 0, nMints; char * q = pStr + pMatches[ *p - pStr ]; assert( *q == **p + 1 + (**p != '(') ); for ( (*p)++; *p < q; (*p)++ ) { Mask |= Dau_DsdCheckDecExist_rec( pStr, p, pMatches, &pSupps[nParts] ); *pnSupp += pSupps[nParts++]; } assert( *p == q ); assert( nParts > 1 ); nMints = (1 << nParts); for ( m = 1; m < nMints; m++ ) { int i, Sum = 0; for ( i = 0; i < nParts; i++ ) if ( (m >> i) & 1 ) Sum += pSupps[i]; assert( Sum > 0 && Sum <= 8 ); if ( Sum >= 2 ) Mask |= (1 << Sum); } return Mask; } if ( **p == '<' || **p == '{' ) // mux { int uSupp; unsigned Mask = 0; char * q = pStr + pMatches[ *p - pStr ]; assert( *q == **p + 1 + (**p != '(') ); for ( (*p)++; *p < q; (*p)++ ) { uSupp = 0; Mask |= Dau_DsdCheckDecExist_rec( pStr, p, pMatches, &uSupp ); *pnSupp += uSupp; } assert( *p == q ); Mask |= (1 << *pnSupp); return Mask; } assert( 0 ); return 0; } int Dau_DsdCheckDecExist( char * pDsd ) { int nSupp = 0; if ( pDsd[1] == 0 ) return 0; return Dau_DsdCheckDecExist_rec( pDsd, &pDsd, Dau_DsdComputeMatches(pDsd), &nSupp ); } /**Function************************************************************* Synopsis [Finds all boundsets for which AND-decomposition exists.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Dau_DsdCheckDecAndExist_rec( char * pStr, char ** p, int * pMatches, int * pnSupp ) { if ( **p == '!' ) (*p)++; while ( (**p >= 'A' && **p <= 'F') || (**p >= '0' && **p <= '9') ) (*p)++; if ( **p >= 'a' && **p <= 'z' ) // var { (*pnSupp)++; return 0; } if ( **p == '(' ) // and { unsigned Mask = 0; int m, i, pSupps[8] = {0}, nParts = 0, nSimple = 0, nMints; char * q = pStr + pMatches[ *p - pStr ]; assert( *q == **p + 1 + (**p != '(') ); for ( (*p)++; *p < q; (*p)++ ) { Mask |= Dau_DsdCheckDecAndExist_rec( pStr, p, pMatches, &pSupps[nParts] ); nSimple += (pSupps[nParts] == 1); *pnSupp += pSupps[nParts++]; } assert( *p == q ); assert( nParts > 1 ); if ( nSimple > 0 ) { nMints = (1 << nParts); for ( m = 1; m < nMints; m++ ) { int Sum = 0; for ( i = 0; i < nParts; i++ ) if ( pSupps[i] > 1 && ((m >> i) & 1) ) Sum += pSupps[i]; assert( Sum <= 8 ); if ( Sum >= 2 ) for ( i = 0; i < nSimple; i++ ) Mask |= (1 << (Sum + i)); } for ( i = 2; i < nSimple; i++ ) Mask |= (1 << i); } return Mask; } if ( **p == '<' || **p == '{' || **p == '[' ) // mux/xor/nondec { int uSupp; unsigned Mask = 0; char * q = pStr + pMatches[ *p - pStr ]; assert( *q == **p + 1 + (**p != '(') ); for ( (*p)++; *p < q; (*p)++ ) { uSupp = 0; Mask |= Dau_DsdCheckDecAndExist_rec( pStr, p, pMatches, &uSupp ); *pnSupp += uSupp; } assert( *p == q ); return Mask; } assert( 0 ); return 0; } int Dau_DsdCheckDecAndExist( char * pDsd ) { int nSupp = 0; if ( pDsd[1] == 0 ) return 1; return Dau_DsdCheckDecAndExist_rec( pDsd, &pDsd, Dau_DsdComputeMatches(pDsd), &nSupp ); } /**Function************************************************************* Synopsis [Performs additional check.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int If_CutPerformCheck75__( If_Man_t * p, unsigned * pTruth, int nVars, int nLeaves, char * pStr ) { char pDsdStr[1000]; int nSizeNonDec, nDecExists, nDecAndExists; static int Counter = 0; Counter++; if ( nLeaves < 6 ) return 1; assert( nLeaves <= 8 ); if ( nLeaves < 8 && If_CutPerformCheck16( p, pTruth, nVars, nLeaves, "44" ) ) return 1; // check decomposability nSizeNonDec = Dau_DsdDecompose( (word *)pTruth, nLeaves, 0, 0, pDsdStr ); // printf( "Vars = %d %s", nLeaves, pDsdStr ); printf( "\n" ); // Extra_PrintBinary( stdout, &nDecExists, 8 ); printf( "\n" ); // Extra_PrintBinary( stdout, &nDecAndExists, 8 ); printf( "\n" ); if ( nLeaves == 8 ) { if ( nSizeNonDec >= 5 ) return 0; nDecAndExists = Dau_DsdCheckDecAndExist( pDsdStr ); if ( nDecAndExists & 0x10 ) // bit 4 return 1; else return 0; } if ( nLeaves == 7 ) { extern void If_Dec7MinimumBase( word uTruth[2], int * pSupp, int nVarsAll, int * pnVars ); word * pT = (word *)pTruth; word pCof0[2], pCof1[2]; int v, nVarsMin; if ( nSizeNonDec < 5 ) { nDecExists = Dau_DsdCheckDecExist( pDsdStr ); if ( nDecExists & 0x10 ) // bit 4 return 1; nDecAndExists = Dau_DsdCheckDecAndExist( pDsdStr ); if ( nDecAndExists & 0x18 ) // bit 4, 3 return 1; } // check cofactors for ( v = 0; v < 7; v++ ) { pCof0[0] = pCof1[0] = pT[0]; pCof0[1] = pCof1[1] = pT[1]; Abc_TtCofactor0( pCof0, 2, v ); Abc_TtCofactor1( pCof1, 2, v ); if ( Abc_TtSupportSize(pCof0, 7) < 4 ) { If_Dec7MinimumBase( pCof1, NULL, 7, &nVarsMin ); nSizeNonDec = Dau_DsdDecompose( pCof1, nVarsMin, 0, 0, pDsdStr ); if ( nSizeNonDec >= 5 ) continue; nDecExists = Dau_DsdCheckDecExist( pDsdStr ); if ( nDecExists & 0x18 ) // bit 4, 3 return 1; } else if ( Abc_TtSupportSize(pCof1, 7) < 4 ) { If_Dec7MinimumBase( pCof0, NULL, 7, &nVarsMin ); nSizeNonDec = Dau_DsdDecompose( pCof0, nVarsMin, 0, 0, pDsdStr ); if ( nSizeNonDec >= 5 ) continue; nDecExists = Dau_DsdCheckDecExist( pDsdStr ); if ( nDecExists & 0x18 ) // bit 4, 3 return 1; } } return 0; } if ( nLeaves == 6 ) { if ( nSizeNonDec < 5 ) { nDecExists = Dau_DsdCheckDecExist( pDsdStr ); if ( nDecExists & 0x18 ) // bit 4, 3 return 1; nDecAndExists = Dau_DsdCheckDecAndExist( pDsdStr ); if ( nDecAndExists & 0x1C ) // bit 4, 3, 2 return 1; } return If_CutPerformCheck07( p, pTruth, nVars, nLeaves, pStr ); } assert( 0 ); return 0; } /**Function************************************************************* Synopsis [Performs additional check.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int If_CutPerformCheck75( If_Man_t * p, unsigned * pTruth0, int nVars, int nLeaves, char * pStr ) { word * pTruthW = (word *)pTruth0; word pTruth[4] = { pTruthW[0], pTruthW[1], pTruthW[2], pTruthW[3] }; assert( nLeaves <= 8 ); if ( !p->pPars->fCutMin ) Abc_TtMinimumBase( pTruth, NULL, nLeaves, &nLeaves ); if ( nLeaves < 6 ) return 1; // if ( nLeaves < 8 && If_CutPerformCheck07( p, (unsigned *)pTruth, nVars, nLeaves, "44" ) ) if ( nLeaves < 8 && If_CutPerformCheck16( p, (unsigned *)pTruth, nVars, nLeaves, "44" ) ) return 1; // this is faster but not compatible with -z if ( !p->pPars->fDeriveLuts && p->pPars->fEnableCheck75 && nLeaves == 8 ) { // char pDsdStr[1000] = "(!(abd)!(c!([fe][gh])))"; char pDsdStr[1000]; int nSizeNonDec = Dau_DsdDecompose( (word *)pTruth, nLeaves, 0, 0, pDsdStr ); if ( nSizeNonDec >= 5 ) return 0; if ( Dau_DsdCheckDecAndExist(pDsdStr) & 0x10 ) // bit 4 return 1; return 0; } if ( If_CutPerformCheck45( p, (unsigned *)pTruth, nVars, nLeaves, pStr ) ) return 1; if ( If_CutPerformCheck54( p, (unsigned *)pTruth, nVars, nLeaves, pStr ) ) return 1; return 0; } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END