/**CFile**************************************************************** FileName [bdcCore.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Truth-table-based bi-decomposition engine.] Synopsis [The gateway to bi-decomposition.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - January 30, 2007.] Revision [$Id: bdcCore.c,v 1.00 2007/01/30 00:00:00 alanmi Exp $] ***********************************************************************/ #include "bdcInt.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Accessing contents of the node.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Bdc_Fun_t * Bdc_ManFunc( Bdc_Man_t * p, int i ) { return Bdc_FunWithId(p, i); } Bdc_Fun_t * Bdc_ManRoot( Bdc_Man_t * p ) { return p->pRoot; } int Bdc_ManNodeNum( Bdc_Man_t * p ) { return p->nNodes; } int Bdc_ManAndNum( Bdc_Man_t * p ) { return p->nNodes-p->nVars-1;} Bdc_Fun_t * Bdc_FuncFanin0( Bdc_Fun_t * p ) { return p->pFan0; } Bdc_Fun_t * Bdc_FuncFanin1( Bdc_Fun_t * p ) { return p->pFan1; } void * Bdc_FuncCopy( Bdc_Fun_t * p ) { return p->pCopy; } int Bdc_FuncCopyInt( Bdc_Fun_t * p ) { return p->iCopy; } void Bdc_FuncSetCopy( Bdc_Fun_t * p, void * pCopy ) { p->pCopy = pCopy; } void Bdc_FuncSetCopyInt( Bdc_Fun_t * p, int iCopy ) { p->iCopy = iCopy; } /**Function************************************************************* Synopsis [Allocate resynthesis manager.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ Bdc_Man_t * Bdc_ManAlloc( Bdc_Par_t * pPars ) { Bdc_Man_t * p; p = ABC_ALLOC( Bdc_Man_t, 1 ); memset( p, 0, sizeof(Bdc_Man_t) ); assert( pPars->nVarsMax > 1 && pPars->nVarsMax < 16 ); p->pPars = pPars; p->nWords = Kit_TruthWordNum( pPars->nVarsMax ); p->nDivsLimit = 200; // internal nodes p->nNodesAlloc = 512; p->pNodes = ABC_ALLOC( Bdc_Fun_t, p->nNodesAlloc ); // memory p->vMemory = Vec_IntStart( 8 * p->nWords * p->nNodesAlloc ); Vec_IntClear(p->vMemory); // set up hash table p->nTableSize = (1 << p->pPars->nVarsMax); p->pTable = ABC_ALLOC( Bdc_Fun_t *, p->nTableSize ); memset( p->pTable, 0, sizeof(Bdc_Fun_t *) * p->nTableSize ); p->vSpots = Vec_IntAlloc( 256 ); // truth tables p->vTruths = Vec_PtrAllocTruthTables( p->pPars->nVarsMax ); p->puTemp1 = ABC_ALLOC( unsigned, 4 * p->nWords ); p->puTemp2 = p->puTemp1 + p->nWords; p->puTemp3 = p->puTemp2 + p->nWords; p->puTemp4 = p->puTemp3 + p->nWords; // start the internal ISFs p->pIsfOL = &p->IsfOL; Bdc_IsfStart( p, p->pIsfOL ); p->pIsfOR = &p->IsfOR; Bdc_IsfStart( p, p->pIsfOR ); p->pIsfAL = &p->IsfAL; Bdc_IsfStart( p, p->pIsfAL ); p->pIsfAR = &p->IsfAR; Bdc_IsfStart( p, p->pIsfAR ); return p; } /**Function************************************************************* Synopsis [Deallocate resynthesis manager.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Bdc_ManFree( Bdc_Man_t * p ) { if ( p->pPars->fVerbose ) { printf( "Bi-decomposition stats: Calls = %d. Nodes = %d. Reuse = %d.\n", p->numCalls, p->numNodes, p->numReuse ); printf( "ANDs = %d. ORs = %d. Weak = %d. Muxes = %d. Memory = %.2f K\n", p->numAnds, p->numOrs, p->numWeaks, p->numMuxes, 4.0 * Vec_IntSize(p->vMemory) / (1<<10) ); ABC_PRT( "Cache", p->timeCache ); ABC_PRT( "Check", p->timeCheck ); ABC_PRT( "Muxes", p->timeMuxes ); ABC_PRT( "Supps", p->timeSupps ); ABC_PRT( "TOTAL", p->timeTotal ); } Vec_IntFree( p->vMemory ); Vec_IntFree( p->vSpots ); Vec_PtrFree( p->vTruths ); ABC_FREE( p->puTemp1 ); ABC_FREE( p->pNodes ); ABC_FREE( p->pTable ); ABC_FREE( p ); } /**Function************************************************************* Synopsis [Clears the manager.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Bdc_ManPrepare( Bdc_Man_t * p, Vec_Ptr_t * vDivs ) { unsigned * puTruth; Bdc_Fun_t * pNode; int i; Bdc_TableClear( p ); Vec_IntClear( p->vMemory ); // add constant 1 and elementary vars p->nNodes = 0; p->nNodesNew = - 1 - p->nVars - (vDivs? Vec_PtrSize(vDivs) : 0); // add constant 1 pNode = Bdc_FunNew( p ); pNode->Type = BDC_TYPE_CONST1; pNode->puFunc = (unsigned *)Vec_IntFetch(p->vMemory, p->nWords); Kit_TruthFill( pNode->puFunc, p->nVars ); pNode->uSupp = 0; Bdc_TableAdd( p, pNode ); // add variables for ( i = 0; i < p->nVars; i++ ) { pNode = Bdc_FunNew( p ); pNode->Type = BDC_TYPE_PI; pNode->puFunc = (unsigned *)Vec_PtrEntry( p->vTruths, i ); pNode->uSupp = (1 << i); Bdc_TableAdd( p, pNode ); } // add the divisors if ( vDivs ) Vec_PtrForEachEntry( unsigned *, vDivs, puTruth, i ) { pNode = Bdc_FunNew( p ); pNode->Type = BDC_TYPE_PI; pNode->puFunc = puTruth; pNode->uSupp = Kit_TruthSupport( puTruth, p->nVars ); Bdc_TableAdd( p, pNode ); if ( i == p->nDivsLimit ) break; } assert( p->nNodesNew == 0 ); } /**Function************************************************************* Synopsis [Prints bi-decomposition in a simple format.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Bdc_ManDecPrintSimple( Bdc_Man_t * p ) { Bdc_Fun_t * pNode; int i; printf( " 0 : Const 1\n" ); for ( i = 1; i < p->nNodes; i++ ) { printf( " %d : ", i ); pNode = p->pNodes + i; if ( pNode->Type == BDC_TYPE_PI ) printf( "PI " ); else { printf( "%s%d &", Bdc_IsComplement(pNode->pFan0)? "-":"", Bdc_FunId(p,Bdc_Regular(pNode->pFan0)) ); printf( " %s%d ", Bdc_IsComplement(pNode->pFan1)? "-":"", Bdc_FunId(p,Bdc_Regular(pNode->pFan1)) ); } // Extra_PrintBinary( stdout, pNode->puFunc, (1<nVars) ); printf( "\n" ); } printf( "Root = %s%d.\n", Bdc_IsComplement(p->pRoot)? "-":"", Bdc_FunId(p,Bdc_Regular(p->pRoot)) ); } /**Function************************************************************* Synopsis [Prints bi-decomposition recursively.] Description [This procedure prints bi-decomposition as a factored form. In doing so, logic sharing, if present, will be replicated several times.] SideEffects [] SeeAlso [] ***********************************************************************/ void Bdc_ManDecPrint_rec( Bdc_Man_t * p, Bdc_Fun_t * pNode ) { if ( pNode->Type == BDC_TYPE_PI ) printf( "%c", 'a' + Bdc_FunId(p,pNode) - 1 ); else if ( pNode->Type == BDC_TYPE_AND ) { Bdc_Fun_t * pNode0 = Bdc_FuncFanin0( pNode ); Bdc_Fun_t * pNode1 = Bdc_FuncFanin1( pNode ); if ( Bdc_IsComplement(pNode0) ) printf( "!" ); if ( Bdc_IsComplement(pNode0) && Bdc_Regular(pNode0)->Type != BDC_TYPE_PI ) printf( "(" ); Bdc_ManDecPrint_rec( p, Bdc_Regular(pNode0) ); if ( Bdc_IsComplement(pNode0) && Bdc_Regular(pNode0)->Type != BDC_TYPE_PI ) printf( ")" ); if ( Bdc_IsComplement(pNode1) ) printf( "!" ); if ( Bdc_IsComplement(pNode1) && Bdc_Regular(pNode1)->Type != BDC_TYPE_PI ) printf( "(" ); Bdc_ManDecPrint_rec( p, Bdc_Regular(pNode1) ); if ( Bdc_IsComplement(pNode1) && Bdc_Regular(pNode1)->Type != BDC_TYPE_PI ) printf( ")" ); } else assert( 0 ); } void Bdc_ManDecPrint( Bdc_Man_t * p ) { Bdc_Fun_t * pRoot = Bdc_Regular(p->pRoot); printf( "F = " ); if ( pRoot->Type == BDC_TYPE_CONST1 ) // constant 0 printf( "Constant %d", !Bdc_IsComplement(p->pRoot) ); else if ( pRoot->Type == BDC_TYPE_PI ) // literal printf( "%s%d", Bdc_IsComplement(p->pRoot) ? "!" : "", Bdc_FunId(p,pRoot)-1 ); else { if ( Bdc_IsComplement(p->pRoot) ) printf( "!(" ); Bdc_ManDecPrint_rec( p, pRoot ); if ( Bdc_IsComplement(p->pRoot) ) printf( ")" ); } printf( "\n" ); } /**Function************************************************************* Synopsis [Performs decomposition of one function.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Bdc_ManDecompose( Bdc_Man_t * p, unsigned * puFunc, unsigned * puCare, int nVars, Vec_Ptr_t * vDivs, int nNodesMax ) { Bdc_Isf_t Isf, * pIsf = &Isf; abctime clk = Abc_Clock(); assert( nVars <= p->pPars->nVarsMax ); // set current manager parameters p->nVars = nVars; p->nWords = Kit_TruthWordNum( nVars ); p->nNodesMax = nNodesMax; Bdc_ManPrepare( p, vDivs ); if ( puCare && Kit_TruthIsConst0( puCare, nVars ) ) { p->pRoot = Bdc_Not(p->pNodes); return 0; } // copy the function Bdc_IsfStart( p, pIsf ); if ( puCare ) { Kit_TruthAnd( pIsf->puOn, puCare, puFunc, p->nVars ); Kit_TruthSharp( pIsf->puOff, puCare, puFunc, p->nVars ); } else { Kit_TruthCopy( pIsf->puOn, puFunc, p->nVars ); Kit_TruthNot( pIsf->puOff, puFunc, p->nVars ); } Bdc_SuppMinimize( p, pIsf ); // call decomposition p->pRoot = Bdc_ManDecompose_rec( p, pIsf ); p->timeTotal += Abc_Clock() - clk; p->numCalls++; p->numNodes += p->nNodesNew; if ( p->pRoot == NULL ) return -1; if ( !Bdc_ManNodeVerify( p, pIsf, p->pRoot ) ) printf( "Bdc_ManDecompose(): Internal verification failed.\n" ); // assert( Bdc_ManNodeVerify( p, pIsf, p->pRoot ) ); return p->nNodesNew; } /**Function************************************************************* Synopsis [Performs decomposition of one function.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Bdc_ManDecomposeTest( unsigned uTruth, int nVars ) { static int Counter = 0; static int Total = 0; Bdc_Par_t Pars = {0}, * pPars = &Pars; Bdc_Man_t * p; int RetValue; // unsigned uCare = ~0x888f888f; unsigned uCare = ~0; // unsigned uFunc = 0x88888888; // unsigned uFunc = 0xf888f888; // unsigned uFunc = 0x117e117e; // unsigned uFunc = 0x018b018b; unsigned uFunc = uTruth; pPars->nVarsMax = 8; p = Bdc_ManAlloc( pPars ); RetValue = Bdc_ManDecompose( p, &uFunc, &uCare, nVars, NULL, 1000 ); Total += RetValue; printf( "%5d : Nodes = %5d. Total = %8d.\n", ++Counter, RetValue, Total ); // Bdc_ManDecPrint( p ); Bdc_ManFree( p ); } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END