/**CFile**************************************************************** FileName [mpmMap.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Configurable technology mapper.] Synopsis [Mapping algorithm.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - June 1, 2013.] Revision [$Id: mpmMap.c,v 1.00 2013/06/01 00:00:00 alanmi Exp $] ***********************************************************************/ #include "mpmInt.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //#define MIG_RUNTIME //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Cut manipulation.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Mpm_CutAlloc( Mpm_Man_t * p, int nLeaves, Mpm_Cut_t ** ppCut ) { int hHandle = Mmr_StepFetch( p->pManCuts, Mpm_CutWordNum(nLeaves) ); *ppCut = (Mpm_Cut_t *)Mmr_StepEntry( p->pManCuts, hHandle ); (*ppCut)->nLeaves = nLeaves; (*ppCut)->hNext = 0; (*ppCut)->fUseless = 0; (*ppCut)->fCompl = 0; return hHandle; } static inline int Mpm_CutCreateZero( Mpm_Man_t * p ) { Mpm_Cut_t * pCut; int hCut = Mpm_CutAlloc( p, 0, &pCut ); pCut->iFunc = 0; // const0 return hCut; } static inline int Mpm_CutCreateUnit( Mpm_Man_t * p, int Id ) { Mpm_Cut_t * pCut; int hCut = Mpm_CutAlloc( p, 1, &pCut ); pCut->iFunc = Abc_Var2Lit( p->funcVar0, 0 ); // var pCut->pLeaves[0] = Abc_Var2Lit( Id, 0 ); return hCut; } static inline int Mpm_CutCreate( Mpm_Man_t * p, Mpm_Cut_t * pUni, Mpm_Cut_t ** ppCut ) { int hCutNew = Mpm_CutAlloc( p, pUni->nLeaves, ppCut ); (*ppCut)->iFunc = pUni->iFunc; (*ppCut)->fCompl = pUni->fCompl; (*ppCut)->fUseless = pUni->fUseless; (*ppCut)->nLeaves = pUni->nLeaves; memcpy( (*ppCut)->pLeaves, pUni->pLeaves, sizeof(int) * pUni->nLeaves ); return hCutNew; } static inline int Mpm_CutDup( Mpm_Man_t * p, Mpm_Cut_t * pCut, int fCompl ) { Mpm_Cut_t * pCutNew; int hCutNew = Mpm_CutAlloc( p, pCut->nLeaves, &pCutNew ); pCutNew->iFunc = Abc_LitNotCond( pCut->iFunc, fCompl ); pCutNew->fUseless = pCut->fUseless; pCutNew->nLeaves = pCut->nLeaves; memcpy( pCutNew->pLeaves, pCut->pLeaves, sizeof(int) * pCut->nLeaves ); return hCutNew; } static inline int Mpm_CutCopySet( Mpm_Man_t * p, Mig_Obj_t * pObj, int fCompl ) { Mpm_Cut_t * pCut; int hCut, iList = 0, * pList = &iList; Mpm_ObjForEachCut( p, pObj, hCut, pCut ) { *pList = Mpm_CutDup( p, pCut, fCompl ); pList = &Mpm_CutFetch( p, *pList )->hNext; } *pList = 0; return iList; } void Mpm_CutPrint( Mpm_Cut_t * pCut ) { int i; printf( "%d : { ", pCut->nLeaves ); for ( i = 0; i < (int)pCut->nLeaves; i++ ) printf( "%d ", pCut->pLeaves[i] ); printf( "}\n" ); } static inline void Mpm_CutPrintAll( Mpm_Man_t * p ) { int i; for ( i = 0; i < p->nCutStore; i++ ) { printf( "%2d : ", i ); Mpm_CutPrint( &p->pCutStore[i]->pCut ); } } static inline int Mpm_CutFindLeaf( Mpm_Cut_t * pNew, int iObj ) { int i; for ( i = 0; i < (int)pNew->nLeaves; i++ ) if ( Abc_Lit2Var(pNew->pLeaves[i]) == iObj ) return i; return i; } static inline int Mpm_CutIsContained( Mpm_Man_t * p, Mpm_Cut_t * pBase, Mpm_Cut_t * pCut ) // check if pCut is contained pBase { int i; for ( i = 0; i < (int)pCut->nLeaves; i++ ) if ( Mpm_CutFindLeaf( pBase, Abc_Lit2Var(pCut->pLeaves[i]) ) == (int)pBase->nLeaves ) return 0; return 1; } /**Function************************************************************* Synopsis [Cut attibutes.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Mpm_CutGetArea( Mpm_Man_t * p, Mpm_Cut_t * pCut ) { if ( p->pPars->fMap4Cnf ) return MPM_UNIT_AREA * p->pDsd6[Abc_Lit2Var(pCut->iFunc)].nClauses; if ( p->pPars->fMap4Aig ) return MPM_UNIT_AREA * p->pDsd6[Abc_Lit2Var(pCut->iFunc)].nAnds; if ( p->pPars->fMap4Gates ) return MPM_UNIT_AREA * 1; return p->pLibLut->pLutAreas[pCut->nLeaves]; } static inline word Mpm_CutGetSign( Mpm_Cut_t * pCut ) { int i, iLeaf; word uSign = 0; Mpm_CutForEachLeafId( pCut, iLeaf, i ) uSign |= ((word)1 << (iLeaf & 0x3F)); return uSign; } static inline int Mpm_CutGetArrTime( Mpm_Man_t * p, Mpm_Cut_t * pCut ) { int * pmTimes = Vec_IntArray( &p->vTimes ); int * pDelays = p->pLibLut->pLutDelays[pCut->nLeaves]; int i, iLeaf, ArrTime = 0; Mpm_CutForEachLeafId( pCut, iLeaf, i ) ArrTime = Abc_MaxInt( ArrTime, pmTimes[iLeaf] + pDelays[i] ); return ArrTime; } static inline Mpm_Uni_t * Mpm_CutSetupInfo( Mpm_Man_t * p, Mpm_Cut_t * pCut, int ArrTime ) { int * pMigRefs = Vec_IntArray( &p->vMigRefs ); int * pMapRefs = Vec_IntArray( &p->vMapRefs ); int * pEstRefs = Vec_IntArray( &p->vEstRefs ); int * pmArea = Vec_IntArray( &p->vAreas ); int * pmEdge = Vec_IntArray( &p->vEdges ); int i, iLeaf; Mpm_Uni_t * pUnit = (Mpm_Uni_t *)Vec_PtrEntryLast(&p->vFreeUnits); assert( &pUnit->pCut == pCut ); pUnit->mTime = ArrTime; pUnit->mArea = Mpm_CutGetArea( p, pCut ); pUnit->mEdge = MPM_UNIT_EDGE * pCut->nLeaves; pUnit->mAveRefs = 0; pUnit->Cost = 0; pUnit->uSign = 0; Mpm_CutForEachLeafId( pCut, iLeaf, i ) { if ( p->fMainRun && pMapRefs[iLeaf] == 0 ) // not used in the mapping { pUnit->mArea += pmArea[iLeaf]; pUnit->mEdge += pmEdge[iLeaf]; } else { assert( pEstRefs[iLeaf] > 0 ); pUnit->mArea += MPM_UNIT_REFS * pmArea[iLeaf] / pEstRefs[iLeaf]; pUnit->mEdge += MPM_UNIT_REFS * pmEdge[iLeaf] / pEstRefs[iLeaf]; pUnit->mAveRefs += p->fMainRun ? pMapRefs[iLeaf] : pMigRefs[iLeaf]; } pUnit->uSign |= ((word)1 << (iLeaf & 0x3F)); } pUnit->mAveRefs = pUnit->mAveRefs * MPM_UNIT_EDGE / Abc_MaxInt(pCut->nLeaves, 1); assert( pUnit->mTime <= 0x3FFFFFFF ); assert( pUnit->mArea <= 0x3FFFFFFF ); assert( pUnit->mEdge <= 0x3FFFFFFF ); return pUnit; } /**Function************************************************************* Synopsis [Compares cut against those present in the store.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Mpm_ObjAddCutToStore( Mpm_Man_t * p, Mpm_Cut_t * pCut, int ArrTime ) { int fEnableContainment = 1; Mpm_Uni_t * pUnit, * pUnitNew; int k, iPivot, last; // create new unit #ifdef MIG_RUNTIME abctime clk; clk = Abc_Clock(); #endif pUnitNew = Mpm_CutSetupInfo( p, pCut, ArrTime ); #ifdef MIG_RUNTIME p->timeEval += Abc_Clock() - clk; #endif // special case when the cut store is empty if ( p->nCutStore == 0 ) { p->pCutStore[p->nCutStore++] = pUnitNew; Vec_PtrPop( &p->vFreeUnits ); return 1; } // special case when the cut store is full and last cut is better than new cut if ( p->nCutStore == p->nNumCuts-1 && p->pCutCmp(pUnitNew, p->pCutStore[p->nCutStore-1]) > 0 ) return 0; // find place of the given cut in the store assert( p->nCutStore <= p->nNumCuts ); for ( iPivot = p->nCutStore - 1; iPivot >= 0; iPivot-- ) if ( p->pCutCmp(pUnitNew, p->pCutStore[iPivot]) > 0 ) // iPivot-th cut is better than new cut break; if ( fEnableContainment ) { #ifdef MIG_RUNTIME clk = Abc_Clock(); #endif // filter this cut using other cuts for ( k = 0; k <= iPivot; k++ ) { pUnit = p->pCutStore[k]; if ( pUnitNew->pCut.nLeaves >= pUnit->pCut.nLeaves && (pUnitNew->uSign & pUnit->uSign) == pUnit->uSign && Mpm_CutIsContained(p, &pUnitNew->pCut, &pUnit->pCut) ) { #ifdef MIG_RUNTIME p->timeCompare += Abc_Clock() - clk; #endif return 0; } } } // special case when the best cut is useless while the new cut is not if ( p->pCutStore[0]->pCut.fUseless && !pUnitNew->pCut.fUseless ) iPivot = -1; // add the cut to storage assert( pUnitNew == (Mpm_Uni_t *)Vec_PtrEntryLast(&p->vFreeUnits) ); Vec_PtrPop( &p->vFreeUnits ); // insert this cut at location iPivot iPivot++; for ( k = p->nCutStore++; k > iPivot; k-- ) p->pCutStore[k] = p->pCutStore[k-1]; p->pCutStore[iPivot] = pUnitNew; if ( fEnableContainment ) { // filter other cuts using this cut for ( k = last = iPivot+1; k < p->nCutStore; k++ ) { pUnit = p->pCutStore[k]; if ( pUnitNew->pCut.nLeaves <= pUnit->pCut.nLeaves && (pUnitNew->uSign & pUnit->uSign) == pUnitNew->uSign && Mpm_CutIsContained(p, &pUnit->pCut, &pUnitNew->pCut) ) { Vec_PtrPush( &p->vFreeUnits, pUnit ); continue; } p->pCutStore[last++] = p->pCutStore[k]; } p->nCutStore = last; #ifdef MIG_RUNTIME p->timeCompare += Abc_Clock() - clk; #endif } // remove the last cut if too many if ( p->nCutStore == p->nNumCuts ) Vec_PtrPush( &p->vFreeUnits, p->pCutStore[--p->nCutStore] ); assert( p->nCutStore < p->nNumCuts ); return 1; } /**Function************************************************************* Synopsis [Cut enumeration.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline Mpm_Cut_t * Mpm_ManMergeCuts( Mpm_Man_t * p, Mpm_Cut_t * pCut0, Mpm_Cut_t * pCut1, Mpm_Cut_t * pCut2 ) { Mpm_Cut_t * pTemp, * pCut = &((Mpm_Uni_t *)Vec_PtrEntryLast(&p->vFreeUnits))->pCut; int i, c, iPlace; // base cut memcpy( pCut->pLeaves, pCut0->pLeaves, sizeof(int) * pCut0->nLeaves ); pCut->nLeaves = pCut0->nLeaves; // remaining cuts if ( p->pPars->fUseDsd ) { for ( c = 1; c < 3; c++ ) { pTemp = (c == 1) ? pCut1 : pCut2; if ( pTemp == NULL ) break; p->uPermMask[c] = 0x3FFFF; // 18 bits p->uComplMask[c] = 0; for ( i = 0; i < (int)pTemp->nLeaves; i++ ) { iPlace = Mpm_CutFindLeaf( pCut, Abc_Lit2Var(pTemp->pLeaves[i]) ); if ( iPlace == (int)pCut->nLeaves ) { if ( (int)pCut->nLeaves == p->nLutSize ) return NULL; pCut->pLeaves[pCut->nLeaves++] = pTemp->pLeaves[i]; } p->uPermMask[c] ^= (((i & 7) ^ 7) << (3*iPlace)); if ( pTemp->pLeaves[i] != pCut->pLeaves[iPlace] ) p->uComplMask[c] |= (1 << iPlace); } } } else { for ( c = 1; c < 3; c++ ) { pTemp = (c == 1) ? pCut1 : pCut2; if ( pTemp == NULL ) break; for ( i = 0; i < (int)pTemp->nLeaves; i++ ) { iPlace = Mpm_CutFindLeaf( pCut, Abc_Lit2Var(pTemp->pLeaves[i]) ); if ( iPlace == (int)pCut->nLeaves ) { if ( (int)pCut->nLeaves == p->nLutSize ) return NULL; pCut->pLeaves[pCut->nLeaves++] = pTemp->pLeaves[i]; } } } } if ( pCut1 == NULL ) { pCut->hNext = 0; pCut->iFunc = pCut0->iFunc; pCut->fUseless = pCut0->fUseless; pCut->fCompl = pCut0->fCompl; } else { pCut->hNext = 0; pCut->iFunc = 0; pCut->iFunc = ~pCut->iFunc; pCut->fUseless = 0; pCut->fCompl = 0; } p->nCutsMerged++; p->nCutsMergedAll++; if ( p->pPars->fUseTruth ) Vec_IntSelectSort( pCut->pLeaves, pCut->nLeaves ); return pCut; } static inline int Mpm_ManExploreNewCut( Mpm_Man_t * p, Mig_Obj_t * pObj, Mpm_Cut_t * pCut0, Mpm_Cut_t * pCut1, Mpm_Cut_t * pCut2, int Required ) { Mpm_Cut_t * pCut; int ArrTime; #ifdef MIG_RUNTIME abctime clk = clock(); #endif if ( pCut0->nLeaves >= pCut1->nLeaves ) { pCut = Mpm_ManMergeCuts( p, pCut0, pCut1, pCut2 ); #ifdef MIG_RUNTIME p->timeMerge += clock() - clk; #endif if ( pCut == NULL ) return 1; if ( p->pPars->fUseTruth ) Mpm_CutComputeTruth( p, pCut, pCut0, pCut1, pCut2, Mig_ObjFaninC0(pObj), Mig_ObjFaninC1(pObj), Mig_ObjFaninC2(pObj), Mig_ObjNodeType(pObj) ); else if ( p->pPars->fUseDsd ) { if ( !Mpm_CutComputeDsd6( p, pCut, pCut0, pCut1, pCut2, Mig_ObjFaninC0(pObj), Mig_ObjFaninC1(pObj), Mig_ObjFaninC2(pObj), Mig_ObjNodeType(pObj) ) ) return 1; } } else { pCut = Mpm_ManMergeCuts( p, pCut1, pCut0, pCut2 ); #ifdef MIG_RUNTIME p->timeMerge += clock() - clk; #endif if ( pCut == NULL ) return 1; if ( p->pPars->fUseTruth ) Mpm_CutComputeTruth( p, pCut, pCut1, pCut0, pCut2, Mig_ObjFaninC1(pObj), Mig_ObjFaninC0(pObj), 1 ^ Mig_ObjFaninC2(pObj), Mig_ObjNodeType(pObj) ); else if ( p->pPars->fUseDsd ) { if ( !Mpm_CutComputeDsd6( p, pCut, pCut1, pCut0, pCut2, Mig_ObjFaninC1(pObj), Mig_ObjFaninC0(pObj), 1 ^ Mig_ObjFaninC2(pObj), Mig_ObjNodeType(pObj) ) ) return 1; } } #ifdef MIG_RUNTIME clk = clock(); #endif ArrTime = Mpm_CutGetArrTime( p, pCut ); #ifdef MIG_RUNTIME p->timeEval += clock() - clk; #endif if ( p->fMainRun && ArrTime > Required ) return 1; #ifdef MIG_RUNTIME clk = Abc_Clock(); #endif Mpm_ObjAddCutToStore( p, pCut, ArrTime ); #ifdef MIG_RUNTIME p->timeStore += Abc_Clock() - clk; #endif /* // return 0 if const or buffer cut is derived - reset all cuts to contain only one --- does not work // if ( pCut->nLeaves < 2 && p->nCutStore == 1 ) // return 0; if ( pCut->nLeaves < 2 ) { int i; assert( p->nCutStore >= 1 ); for ( i = 1; i < p->nCutStore; i++ ) Vec_PtrPush( &p->vFreeUnits, p->pCutStore[i] ); p->nCutStore = 1; return 0; } */ return 1; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline void Mpm_ObjRecycleCuts( Mpm_Man_t * p, Mig_Obj_t * pObj ) { Mpm_Cut_t * pCut; int hCut, hNext; Mpm_ObjForEachCutSafe( p, pObj, hCut, pCut, hNext ) Mmr_StepRecycle( p->pManCuts, hCut ); Mpm_ObjSetCutList( p, pObj, 0 ); } static inline void Mpm_ObjDerefFaninCuts( Mpm_Man_t * p, Mig_Obj_t * pObj ) { Mig_Obj_t * pFanin; int i; Mig_ObjForEachFanin( pObj, pFanin, i ) if ( Mig_ObjIsNode(pFanin) && Mig_ObjMigRefDec(p, pFanin) == 0 ) Mpm_ObjRecycleCuts( p, pFanin ); pFanin = Mig_ObjSibl(pObj); if ( pFanin && Mig_ObjMigRefDec(p, pFanin) == 0 ) Mpm_ObjRecycleCuts( p, pFanin ); if ( Mig_ObjMigRefNum(p, pObj) == 0 ) Mpm_ObjRecycleCuts( p, pObj ); } static inline void Mpm_ObjCollectFaninsAndSigns( Mpm_Man_t * p, Mig_Obj_t * pObj, int i ) { Mpm_Cut_t * pCut; int hCut, nCuts = 0; Mpm_ObjForEachCut( p, pObj, hCut, pCut ) { p->pCuts[i][nCuts] = pCut; p->pSigns[i][nCuts++] = Mpm_CutGetSign( pCut ); } p->nCuts[i] = nCuts; } static inline void Mpm_ObjPrepareFanins( Mpm_Man_t * p, Mig_Obj_t * pObj ) { Mig_Obj_t * pFanin; int i; Mig_ObjForEachFanin( pObj, pFanin, i ) Mpm_ObjCollectFaninsAndSigns( p, pFanin, i ); } // create storage from cuts at the node void Mpm_ObjAddChoiceCutsToStore( Mpm_Man_t * p, Mig_Obj_t * pRoot, Mig_Obj_t * pObj, int ReqTime ) { Mpm_Cut_t * pCut; int hCut, hNext, ArrTime; int fCompl = Mig_ObjPhase(pRoot) ^ Mig_ObjPhase(pObj); Mpm_ObjForEachCutSafe( p, pObj, hCut, pCut, hNext ) { if ( Abc_Lit2Var(pCut->pLeaves[0]) == Mig_ObjId(pObj) ) continue; ArrTime = Mpm_CutGetArrTime( p, pCut ); if ( ArrTime > ReqTime ) continue; pCut->fCompl ^= fCompl; pCut = Mpm_ManMergeCuts( p, pCut, NULL, NULL ); Mpm_ObjAddCutToStore( p, pCut, ArrTime ); } } // create cuts at the node from storage void Mpm_ObjTranslateCutsFromStore( Mpm_Man_t * p, Mig_Obj_t * pObj ) { Mpm_Cut_t * pCut = NULL; Mpm_Uni_t * pUnit; int i, *pList = Mpm_ObjCutListP( p, pObj ); assert( p->nCutStore > 0 && p->nCutStore <= p->nNumCuts ); assert( *pList == 0 ); // translate cuts for ( i = 0; i < p->nCutStore; i++ ) { pUnit = p->pCutStore[i]; *pList = Mpm_CutCreate( p, &pUnit->pCut, &pCut ); pList = &pCut->hNext; Vec_PtrPush( &p->vFreeUnits, pUnit ); } assert( Vec_PtrSize(&p->vFreeUnits) == p->nNumCuts + 1 ); if ( p->nCutStore == 1 && pCut->nLeaves < 2 ) *pList = 0; else *pList = Mpm_CutCreateUnit( p, Mig_ObjId(pObj) ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Mpm_ManDeriveCuts( Mpm_Man_t * p, Mig_Obj_t * pObj ) { Mpm_Cut_t * pCut0, * pCut1, * pCut2; int Required = Mpm_ObjRequired( p, pObj ); int hCutBest = Mpm_ObjCutBest( p, pObj ); int c0, c1, c2; #ifdef MIG_RUNTIME abctime clk; #endif assert( Vec_PtrSize( &p->vFreeUnits ) == p->nNumCuts + 1 ); assert( Mpm_ObjCutList(p, pObj) == 0 ); p->nCutStore = 0; if ( hCutBest > 0 ) // cut list is assigned { Mpm_Cut_t * pCut = Mpm_ObjCutBestP( p, pObj ); int Times = Mpm_CutGetArrTime( p, pCut ); assert( pCut->hNext == 0 ); if ( Times > Required ) printf( "Arrival time (%d) exceeds required time (%d) at object %d.\n", Times, Required, Mig_ObjId(pObj) ); if ( p->fMainRun ) Mpm_ObjAddCutToStore( p, Mpm_ManMergeCuts(p, pCut, NULL, NULL), Times ); else Mpm_ObjSetTime( p, pObj, Times ); } // start storage with choice cuts if ( Mig_ManChoiceNum(p->pMig) && Mig_ObjSiblId(pObj) ) Mpm_ObjAddChoiceCutsToStore( p, pObj, Mig_ObjSibl(pObj), Required ); #ifdef MIG_RUNTIME clk = Abc_Clock(); #endif Mpm_ObjPrepareFanins( p, pObj ); if ( Mig_ObjIsNode2(pObj) ) { // go through cut pairs for ( c0 = 0; c0 < p->nCuts[0] && (pCut0 = p->pCuts[0][c0]); c0++ ) for ( c1 = 0; c1 < p->nCuts[1] && (pCut1 = p->pCuts[1][c1]); c1++ ) if ( Abc_TtCountOnes(p->pSigns[0][c0] | p->pSigns[1][c1]) <= p->nLutSize ) if ( !Mpm_ManExploreNewCut( p, pObj, pCut0, pCut1, NULL, Required ) ) goto finish; } else if ( Mig_ObjIsNode3(pObj) ) { // go through cut triples for ( c0 = 0; c0 < p->nCuts[0] && (pCut0 = p->pCuts[0][c0]); c0++ ) for ( c1 = 0; c1 < p->nCuts[1] && (pCut1 = p->pCuts[1][c1]); c1++ ) for ( c2 = 0; c2 < p->nCuts[2] && (pCut2 = p->pCuts[2][c2]); c2++ ) if ( Abc_TtCountOnes(p->pSigns[0][c0] | p->pSigns[1][c1] | p->pSigns[2][c2]) <= p->nLutSize ) if ( !Mpm_ManExploreNewCut( p, pObj, pCut0, pCut1, pCut2, Required ) ) goto finish; } else assert( 0 ); #ifdef MIG_RUNTIME p->timeDerive += Abc_Clock() - clk; #endif finish: // save best cut assert( p->nCutStore > 0 ); if ( p->pCutStore[0]->mTime <= Required ) { Mpm_Cut_t * pCut; if ( hCutBest ) Mmr_StepRecycle( p->pManCuts, hCutBest ); hCutBest = Mpm_CutCreate( p, &p->pCutStore[0]->pCut, &pCut ); Mpm_ObjSetCutBest( p, pObj, hCutBest ); Mpm_ObjSetTime( p, pObj, p->pCutStore[0]->mTime ); Mpm_ObjSetArea( p, pObj, p->pCutStore[0]->mArea ); Mpm_ObjSetEdge( p, pObj, p->pCutStore[0]->mEdge ); } else assert( !p->fMainRun ); assert( hCutBest > 0 ); // transform internal storage into regular cuts Mpm_ObjTranslateCutsFromStore( p, pObj ); // dereference fanin cuts and reference node Mpm_ObjDerefFaninCuts( p, pObj ); return 1; } /**Function************************************************************* Synopsis [Required times.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int Mpm_ManFindArrivalMax( Mpm_Man_t * p ) { int * pmTimes = Vec_IntArray( &p->vTimes ); Mig_Obj_t * pObj; int i, ArrMax = 0; Mig_ManForEachCo( p->pMig, pObj, i ) ArrMax = Abc_MaxInt( ArrMax, pmTimes[ Mig_ObjFaninId0(pObj) ] ); return ArrMax; } static inline void Mpm_ManFinalizeRound( Mpm_Man_t * p ) { int * pMapRefs = Vec_IntArray( &p->vMapRefs ); int * pRequired = Vec_IntArray( &p->vRequireds ); Mig_Obj_t * pObj; Mpm_Cut_t * pCut; int * pDelays; int i, iLeaf; p->GloArea = 0; p->GloEdge = 0; p->GloRequired = Mpm_ManFindArrivalMax(p); if ( p->pPars->DelayTarget != -1 ) p->GloRequired = Abc_MaxInt( p->GloRequired, p->pPars->DelayTarget ); Mpm_ManCleanMapRefs( p ); Mpm_ManCleanRequired( p ); Mig_ManForEachObjReverse( p->pMig, pObj ) { if ( Mig_ObjIsCo(pObj) ) { pRequired[Mig_ObjFaninId0(pObj)] = p->GloRequired; pMapRefs [Mig_ObjFaninId0(pObj)]++; } else if ( Mig_ObjIsNode(pObj) ) { int Required = pRequired[Mig_ObjId(pObj)]; assert( Required > 0 ); if ( pMapRefs[Mig_ObjId(pObj)] > 0 ) { pCut = Mpm_ObjCutBestP( p, pObj ); pDelays = p->pLibLut->pLutDelays[pCut->nLeaves]; Mpm_CutForEachLeafId( pCut, iLeaf, i ) { pRequired[iLeaf] = Abc_MinInt( pRequired[iLeaf], Required - pDelays[i] ); pMapRefs [iLeaf]++; } p->GloArea += Mpm_CutGetArea( p, pCut ); p->GloEdge += pCut->nLeaves; } } else if ( Mig_ObjIsBuf(pObj) ) { } } p->GloArea /= MPM_UNIT_AREA; } static inline void Mpm_ManComputeEstRefs( Mpm_Man_t * p ) { int * pMapRefs = Vec_IntArray( &p->vMapRefs ); int * pEstRefs = Vec_IntArray( &p->vEstRefs ); int i; assert( p->fMainRun ); // pObj->EstRefs = (float)((2.0 * pObj->EstRefs + pObj->nRefs) / 3.0); for ( i = 0; i < Mig_ManObjNum(p->pMig); i++ ) pEstRefs[i] = (1 * pEstRefs[i] + MPM_UNIT_REFS * pMapRefs[i]) / 2; } /**Function************************************************************* Synopsis [Cut comparison.] Description [Returns positive number if new one is better than old one.] SideEffects [] SeeAlso [] ***********************************************************************/ int Mpm_CutCompareDelay( Mpm_Uni_t * pOld, Mpm_Uni_t * pNew ) { if ( pOld->mTime != pNew->mTime ) return pOld->mTime - pNew->mTime; if ( pOld->pCut.nLeaves != pNew->pCut.nLeaves ) return pOld->pCut.nLeaves - pNew->pCut.nLeaves; if ( pOld->mArea != pNew->mArea ) return pOld->mArea - pNew->mArea; if ( pOld->mEdge != pNew->mEdge ) return pOld->mEdge - pNew->mEdge; return 0; } int Mpm_CutCompareDelay2( Mpm_Uni_t * pOld, Mpm_Uni_t * pNew ) { if ( pOld->mTime != pNew->mTime ) return pOld->mTime - pNew->mTime; if ( pOld->mArea != pNew->mArea ) return pOld->mArea - pNew->mArea; if ( pOld->mEdge != pNew->mEdge ) return pOld->mEdge - pNew->mEdge; if ( pOld->pCut.nLeaves != pNew->pCut.nLeaves ) return pOld->pCut.nLeaves - pNew->pCut.nLeaves; return 0; } int Mpm_CutCompareArea( Mpm_Uni_t * pOld, Mpm_Uni_t * pNew ) { if ( pOld->mArea != pNew->mArea ) return pOld->mArea - pNew->mArea; if ( pOld->pCut.nLeaves != pNew->pCut.nLeaves ) return pOld->pCut.nLeaves - pNew->pCut.nLeaves; if ( pOld->mEdge != pNew->mEdge ) return pOld->mEdge - pNew->mEdge; if ( pOld->mAveRefs != pNew->mAveRefs ) return pOld->mAveRefs - pNew->mAveRefs; if ( pOld->mTime != pNew->mTime ) return pOld->mTime - pNew->mTime; return 0; } int Mpm_CutCompareArea2( Mpm_Uni_t * pOld, Mpm_Uni_t * pNew ) { if ( pOld->mArea != pNew->mArea ) return pOld->mArea - pNew->mArea; if ( pOld->mEdge != pNew->mEdge ) return pOld->mEdge - pNew->mEdge; if ( pOld->mAveRefs != pNew->mAveRefs ) return pOld->mAveRefs - pNew->mAveRefs; if ( pOld->pCut.nLeaves != pNew->pCut.nLeaves ) return pOld->pCut.nLeaves - pNew->pCut.nLeaves; if ( pOld->mTime != pNew->mTime ) return pOld->mTime - pNew->mTime; return 0; } /**Function************************************************************* Synopsis [Technology mapping experiment.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Mpm_ManPrepare( Mpm_Man_t * p ) { Mig_Obj_t * pObj; int i, hCut; Mig_ManForEachCi( p->pMig, pObj, i ) { hCut = Mpm_CutCreateUnit( p, Mig_ObjId(pObj) ); Mpm_ObjSetCutBest( p, pObj, hCut ); Mpm_ObjSetCutList( p, pObj, hCut ); } Mig_ManForEachCand( p->pMig, pObj ) Mpm_ObjSetEstRef( p, pObj, MPM_UNIT_REFS * Mig_ObjRefNum(pObj) ); } void Mpm_ManPerformRound( Mpm_Man_t * p ) { Mig_Obj_t * pObj; abctime clk = Abc_Clock(); int i; // copy references assert( Vec_IntSize(&p->vMigRefs) == Vec_IntSize(&p->pMig->vRefs) ); memcpy( Vec_IntArray(&p->vMigRefs), Vec_IntArray(&p->pMig->vRefs), sizeof(int) * Mig_ManObjNum(p->pMig) ); Mig_ManForEachCo( p->pMig, pObj, i ) Mig_ObjMigRefDec( p, Mig_ObjFanin0(pObj) ); // derive cuts p->nCutsMerged = 0; Mig_ManForEachNode( p->pMig, pObj ) Mpm_ManDeriveCuts( p, pObj ); assert( Mig_ManCandNum(p->pMig) == p->pManCuts->nEntries ); Mpm_ManFinalizeRound( p ); // report results if ( p->pPars->fVerbose ) { printf( "Del =%5d. Ar =%8d. Edge =%8d. Cut =%10d. Max =%8d. Tru =%8d. Small =%6d. ", p->GloRequired, (int)p->GloArea, (int)p->GloEdge, p->nCutsMerged, p->pManCuts->nEntriesMax, p->vTtMem ? p->vTtMem->nEntries : 0, p->nSmallSupp ); Abc_PrintTime( 1, "Time", Abc_Clock() - clk ); } } void Mpm_ManPerform( Mpm_Man_t * p ) { if ( p->pPars->fMap4Cnf ) { p->pCutCmp = Mpm_CutCompareArea; Mpm_ManPerformRound( p ); } else { p->pCutCmp = Mpm_CutCompareDelay; Mpm_ManPerformRound( p ); if ( p->pPars->fOneRound ) return; p->pCutCmp = Mpm_CutCompareDelay2; Mpm_ManPerformRound( p ); p->pCutCmp = Mpm_CutCompareArea; Mpm_ManPerformRound( p ); p->fMainRun = 1; p->pCutCmp = Mpm_CutCompareArea; Mpm_ManComputeEstRefs( p ); Mpm_ManPerformRound( p ); p->pCutCmp = Mpm_CutCompareArea2; Mpm_ManComputeEstRefs( p ); Mpm_ManPerformRound( p ); } } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END