/**CFile**************************************************************** FileName [ifMap.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [FPGA mapping based on priority cuts.] Synopsis [Mapping procedures.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - November 21, 2006.] Revision [$Id: ifMap.c,v 1.00 2006/11/21 00:00:00 alanmi Exp $] ***********************************************************************/ #include "if.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [Counts the number of 1s in the signature.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ static inline int If_WordCountOnes( unsigned uWord ) { uWord = (uWord & 0x55555555) + ((uWord>>1) & 0x55555555); uWord = (uWord & 0x33333333) + ((uWord>>2) & 0x33333333); uWord = (uWord & 0x0F0F0F0F) + ((uWord>>4) & 0x0F0F0F0F); uWord = (uWord & 0x00FF00FF) + ((uWord>>8) & 0x00FF00FF); return (uWord & 0x0000FFFF) + (uWord>>16); } /**Function************************************************************* Synopsis [Counts the number of 1s in the signature.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ float If_CutDelaySpecial( If_Man_t * p, If_Cut_t * pCut, int fCarry ) { static float Pin2Pin[2][3] = { {1.0, 1.0, 1.0}, {1.0, 1.0, 0.0} }; If_Obj_t * pLeaf; float DelayCur, Delay = -IF_FLOAT_LARGE; int i; assert( pCut->nLeaves <= 3 ); If_CutForEachLeaf( p, pCut, pLeaf, i ) { DelayCur = If_ObjCutBest(pLeaf)->Delay; Delay = IF_MAX( Delay, Pin2Pin[fCarry][i] + DelayCur ); } return Delay; } /**Function************************************************************* Synopsis [Finds the best cut for the given node.] Description [Mapping modes: delay (0), area flow (1), area (2).] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ObjPerformMappingAnd( If_Man_t * p, If_Obj_t * pObj, int Mode, int fPreprocess ) { If_Set_t * pCutSet; If_Cut_t * pCut0, * pCut1, * pCut; int i, k; // assert( p->pPars->fSeqMap || !If_ObjIsAnd(pObj->pFanin0) || pObj->pFanin0->pCutSet->nCuts > 1 ); // assert( p->pPars->fSeqMap || !If_ObjIsAnd(pObj->pFanin1) || pObj->pFanin1->pCutSet->nCuts > 1 ); assert( p->pPars->fSeqMap || !If_ObjIsAnd(pObj->pFanin0) || pObj->pFanin0->pCutSet->nCuts > 0 ); assert( p->pPars->fSeqMap || !If_ObjIsAnd(pObj->pFanin1) || pObj->pFanin1->pCutSet->nCuts > 0 ); // prepare if ( !p->pPars->fSeqMap ) { if ( Mode == 0 ) pObj->EstRefs = (float)pObj->nRefs; else if ( Mode == 1 ) pObj->EstRefs = (float)((2.0 * pObj->EstRefs + pObj->nRefs) / 3.0); } /* // process special cut if ( p->pDriverCuts && p->pDriverCuts[pObj->Id] ) { pCut = If_ObjCutBest(pObj); if ( pCut->nLeaves == 0 ) { pCut->nLeaves = Vec_IntSize( p->pDriverCuts[pObj->Id] ); Vec_IntForEachEntry( p->pDriverCuts[pObj->Id], k, i ) pCut->pLeaves[i] = k; assert( pCut->pLeaves[0] <= pCut->pLeaves[1] ); // if ( pObj->nRefs > 0 ) // If_CutAreaRef( p, pCut ); } pCut->Delay = If_CutDelaySpecial( p, pCut, pObj->fDriver ); pCut->Area = (Mode == 2)? 1 : If_CutAreaFlow( p, pCut ); if ( p->pPars->fEdge ) pCut->Edge = (Mode == 2)? 3 : If_CutEdgeFlow( p, pCut ); if ( p->pPars->fPower ) pCut->Power = (Mode == 2)? 0 : If_CutPowerFlow( p, pCut, pObj ); // prepare the cutset pCutSet = If_ManSetupNodeCutSet( p, pObj ); // copy best cut If_CutCopy( p, pCutSet->ppCuts[pCutSet->nCuts++], If_ObjCutBest(pObj) ); // add the trivial cut to the set If_ManSetupCutTriv( p, pCutSet->ppCuts[pCutSet->nCuts++], pObj->Id ); // free the cuts If_ManDerefNodeCutSet( p, pObj ); assert( pCutSet->nCuts == 2 ); return; } */ // deref the selected cut if ( Mode && pObj->nRefs > 0 ) If_CutAreaDeref( p, If_ObjCutBest(pObj) ); // prepare the cutset pCutSet = If_ManSetupNodeCutSet( p, pObj ); // get the current assigned best cut pCut = If_ObjCutBest(pObj); if ( pCut->nLeaves > 0 ) { // recompute the parameters of the best cut /// if ( p->pPars->pLutStruct ) /// pCut->Delay = If_CutDelayLutStruct( p, pCut, p->pPars->pLutStruct, p->pPars->WireDelay ); if ( p->pPars->fUserRecLib ) pCut->Delay = If_CutDelayRecCost(p, pCut, pObj); else if(p->pPars->fDelayOpt) pCut->Delay = If_CutDelaySopCost(p,pCut); else if(p->pPars->nGateSize > 0) pCut->Delay = If_CutDelaySop(p,pCut); else pCut->Delay = If_CutDelay( p, pObj, pCut ); // assert( pCut->Delay <= pObj->Required + p->fEpsilon ); if ( pCut->Delay > pObj->Required + 2*p->fEpsilon ) Abc_Print( 1, "If_ObjPerformMappingAnd(): Warning! Delay of node %d (%f) exceeds the required times (%f).\n", pObj->Id, pCut->Delay, pObj->Required + p->fEpsilon ); pCut->Area = (Mode == 2)? If_CutAreaDerefed( p, pCut ) : If_CutAreaFlow( p, pCut ); if ( p->pPars->fEdge ) pCut->Edge = (Mode == 2)? If_CutEdgeDerefed( p, pCut ) : If_CutEdgeFlow( p, pCut ); if ( p->pPars->fPower ) pCut->Power = (Mode == 2)? If_CutPowerDerefed( p, pCut, pObj ) : If_CutPowerFlow( p, pCut, pObj ); // save the best cut from the previous iteration if ( !fPreprocess ) If_CutCopy( p, pCutSet->ppCuts[pCutSet->nCuts++], pCut ); } // generate cuts If_ObjForEachCut( pObj->pFanin0, pCut0, i ) If_ObjForEachCut( pObj->pFanin1, pCut1, k ) { // get the next free cut assert( pCutSet->nCuts <= pCutSet->nCutsMax ); pCut = pCutSet->ppCuts[pCutSet->nCuts]; // make sure K-feasible cut exists if ( If_WordCountOnes(pCut0->uSign | pCut1->uSign) > p->pPars->nLutSize ) continue; // merge the cuts if ( !If_CutMerge( pCut0, pCut1, pCut ) ) continue; if ( pObj->fSpec && pCut->nLeaves == (unsigned)p->pPars->nLutSize ) continue; assert( p->pPars->fSeqMap || pCut->nLeaves > 1 ); p->nCutsMerged++; p->nCutsTotal++; // check if this cut is contained in any of the available cuts // if ( p->pPars->pFuncCost == NULL && If_CutFilter( p, pCut ) ) // do not filter functionality cuts if ( !p->pPars->fSkipCutFilter && If_CutFilter( pCutSet, pCut ) ) continue; // compute the truth table pCut->fCompl = 0; if ( p->pPars->fTruth ) { // int clk = clock(); int RetValue = If_CutComputeTruth( p, pCut, pCut0, pCut1, pObj->fCompl0, pObj->fCompl1 ); // p->timeTruth += clock() - clk; pCut->fUseless = 0; if ( p->pPars->pFuncCell && RetValue < 2 ) { assert( pCut->nLimit >= 4 && pCut->nLimit <= 16 ); pCut->fUseless = !p->pPars->pFuncCell( p, If_CutTruth(pCut), pCut->nLimit, pCut->nLeaves, p->pPars->pLutStruct ); p->nCutsUselessAll += pCut->fUseless; p->nCutsUseless[pCut->nLeaves] += pCut->fUseless; p->nCutsCountAll++; p->nCutsCount[pCut->nLeaves]++; } } // compute the application-specific cost and depth pCut->fUser = (p->pPars->pFuncCost != NULL); pCut->Cost = p->pPars->pFuncCost? p->pPars->pFuncCost(pCut) : 0; if ( pCut->Cost == IF_COST_MAX ) continue; // check if the cut satisfies the required times /// if ( p->pPars->pLutStruct ) /// pCut->Delay = If_CutDelayLutStruct( p, pCut, p->pPars->pLutStruct, p->pPars->WireDelay ); if ( p->pPars->fUserRecLib ) pCut->Delay = If_CutDelayRecCost(p, pCut, pObj); else if (p->pPars->fDelayOpt) pCut->Delay = If_CutDelaySopCost(p, pCut); else if(p->pPars->nGateSize > 0) pCut->Delay = If_CutDelaySop(p,pCut); else pCut->Delay = If_CutDelay( p, pObj, pCut ); //if ( pCut->Cost == IF_COST_MAX ) // continue; // Abc_Print( 1, "%.2f ", pCut->Delay ); if ( Mode && pCut->Delay > pObj->Required + p->fEpsilon ) continue; // compute area of the cut (this area may depend on the application specific cost) pCut->Area = (Mode == 2)? If_CutAreaDerefed( p, pCut ) : If_CutAreaFlow( p, pCut ); if ( p->pPars->fEdge ) pCut->Edge = (Mode == 2)? If_CutEdgeDerefed( p, pCut ) : If_CutEdgeFlow( p, pCut ); if ( p->pPars->fPower ) pCut->Power = (Mode == 2)? If_CutPowerDerefed( p, pCut, pObj ) : If_CutPowerFlow( p, pCut, pObj ); pCut->AveRefs = (Mode == 0)? (float)0.0 : If_CutAverageRefs( p, pCut ); // insert the cut into storage If_CutSort( p, pCutSet, pCut ); } assert( pCutSet->nCuts > 0 ); // add the trivial cut to the set if ( !pObj->fSkipCut ) { If_ManSetupCutTriv( p, pCutSet->ppCuts[pCutSet->nCuts++], pObj->Id ); assert( pCutSet->nCuts <= pCutSet->nCutsMax+1 ); } // update the best cut if ( !fPreprocess || pCutSet->ppCuts[0]->Delay <= pObj->Required + p->fEpsilon ) { If_CutCopy( p, If_ObjCutBest(pObj), pCutSet->ppCuts[0] ); if(p->pPars->fUserRecLib) assert(If_ObjCutBest(pObj)->Cost < IF_COST_MAX && If_ObjCutBest(pObj)->Delay < ABC_INFINITY); } assert( p->pPars->fSeqMap || If_ObjCutBest(pObj)->nLeaves > 1 ); // ref the selected cut if ( Mode && pObj->nRefs > 0 ) If_CutAreaRef( p, If_ObjCutBest(pObj) ); if ( If_ObjCutBest(pObj)->fUseless ) Abc_Print( 1, "The best cut is useless.\n" ); // call the user specified function for each cut if ( p->pPars->pFuncUser ) If_ObjForEachCut( pObj, pCut, i ) p->pPars->pFuncUser( p, pObj, pCut ); // free the cuts If_ManDerefNodeCutSet( p, pObj ); } /**Function************************************************************* Synopsis [Finds the best cut for the choice node.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void If_ObjPerformMappingChoice( If_Man_t * p, If_Obj_t * pObj, int Mode, int fPreprocess ) { If_Set_t * pCutSet; If_Obj_t * pTemp; If_Cut_t * pCutTemp, * pCut; int i; assert( pObj->pEquiv != NULL ); // prepare if ( Mode && pObj->nRefs > 0 ) If_CutAreaDeref( p, If_ObjCutBest(pObj) ); // remove elementary cuts for ( pTemp = pObj; pTemp; pTemp = pTemp->pEquiv ) pTemp->pCutSet->nCuts--; // update the cutset of the node pCutSet = pObj->pCutSet; // generate cuts for ( pTemp = pObj->pEquiv; pTemp; pTemp = pTemp->pEquiv ) { assert( pTemp->nRefs == 0 ); // assert( p->pPars->fSeqMap || pTemp->pCutSet->nCuts > 0 ); // June 9, 2009 if ( pTemp->pCutSet->nCuts == 0 ) continue; // go through the cuts of this node If_ObjForEachCut( pTemp, pCutTemp, i ) { assert( p->pPars->fSeqMap || pCutTemp->nLeaves > 1 ); // get the next free cut assert( pCutSet->nCuts <= pCutSet->nCutsMax ); pCut = pCutSet->ppCuts[pCutSet->nCuts]; // copy the cut into storage If_CutCopy( p, pCut, pCutTemp ); // check if this cut is contained in any of the available cuts if ( If_CutFilter( pCutSet, pCut ) ) continue; // check if the cut satisfies the required times assert( pCut->Delay == If_CutDelay( p, pTemp, pCut ) ); if ( Mode && pCut->Delay > pObj->Required + p->fEpsilon ) continue; // set the phase attribute assert( pCut->fCompl == 0 ); pCut->fCompl ^= (pObj->fPhase ^ pTemp->fPhase); // why ^= ? if ( p->pPars->fDelayOpt && pCut->fCompl ) continue; // compute area of the cut (this area may depend on the application specific cost) pCut->Area = (Mode == 2)? If_CutAreaDerefed( p, pCut ) : If_CutAreaFlow( p, pCut ); if ( p->pPars->fEdge ) pCut->Edge = (Mode == 2)? If_CutEdgeDerefed( p, pCut ) : If_CutEdgeFlow( p, pCut ); if ( p->pPars->fPower ) pCut->Power = (Mode == 2)? If_CutPowerDerefed( p, pCut, pObj ) : If_CutPowerFlow( p, pCut, pObj ); pCut->AveRefs = (Mode == 0)? (float)0.0 : If_CutAverageRefs( p, pCut ); // insert the cut into storage If_CutSort( p, pCutSet, pCut ); } } assert( pCutSet->nCuts > 0 ); // add the trivial cut to the set if ( !pObj->fSkipCut ) { If_ManSetupCutTriv( p, pCutSet->ppCuts[pCutSet->nCuts++], pObj->Id ); assert( pCutSet->nCuts <= pCutSet->nCutsMax+1 ); } // update the best cut if ( !fPreprocess || pCutSet->ppCuts[0]->Delay <= pObj->Required + p->fEpsilon ) If_CutCopy( p, If_ObjCutBest(pObj), pCutSet->ppCuts[0] ); assert( p->pPars->fSeqMap || If_ObjCutBest(pObj)->nLeaves > 1 ); // ref the selected cut if ( Mode && pObj->nRefs > 0 ) If_CutAreaRef( p, If_ObjCutBest(pObj) ); // free the cuts If_ManDerefChoiceCutSet( p, pObj ); } /**Function************************************************************* Synopsis [Performs one mapping pass over all nodes.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int If_ManPerformMappingRound( If_Man_t * p, int nCutsUsed, int Mode, int fPreprocess, char * pLabel ) { // ProgressBar * pProgress; If_Obj_t * pObj; int i, clk = clock(); float arrTime; assert( Mode >= 0 && Mode <= 2 ); // set the sorting function if ( Mode || p->pPars->fArea ) // area p->SortMode = 1; else if ( p->pPars->fFancy ) p->SortMode = 2; else p->SortMode = 0; // set the cut number p->nCutsUsed = nCutsUsed; p->nCutsMerged = 0; // make sure the visit counters are all zero If_ManForEachNode( p, pObj, i ) assert( pObj->nVisits == pObj->nVisitsCopy ); // map the internal nodes if ( p->pManTim != NULL ) { Tim_ManIncrementTravId( p->pManTim ); If_ManForEachObj( p, pObj, i ) { if ( If_ObjIsAnd(pObj) ) { If_ObjPerformMappingAnd( p, pObj, Mode, fPreprocess ); if ( pObj->fRepr ) If_ObjPerformMappingChoice( p, pObj, Mode, fPreprocess ); } else if ( If_ObjIsCi(pObj) ) { //Abc_Print( 1, "processing CI %d\n", pObj->Id ); arrTime = Tim_ManGetCiArrival( p->pManTim, pObj->IdPio ); If_ObjSetArrTime( pObj, arrTime ); } else if ( If_ObjIsCo(pObj) ) { arrTime = If_ObjArrTime( If_ObjFanin0(pObj) ); Tim_ManSetCoArrival( p->pManTim, pObj->IdPio, arrTime ); } else if ( If_ObjIsConst1(pObj) ) { } else assert( 0 ); } // Tim_ManPrint( p->pManTim ); } else { // pProgress = Extra_ProgressBarStart( stdout, If_ManObjNum(p) ); If_ManForEachNode( p, pObj, i ) { // Extra_ProgressBarUpdate( pProgress, i, pLabel ); If_ObjPerformMappingAnd( p, pObj, Mode, fPreprocess ); if ( pObj->fRepr ) If_ObjPerformMappingChoice( p, pObj, Mode, fPreprocess ); } } // Extra_ProgressBarStop( pProgress ); // make sure the visit counters are all zero If_ManForEachNode( p, pObj, i ) assert( pObj->nVisits == 0 ); // compute required times and stats If_ManComputeRequired( p ); // Tim_ManPrint( p->pManTim ); if ( p->pPars->fVerbose ) { char Symb = fPreprocess? 'P' : ((Mode == 0)? 'D' : ((Mode == 1)? 'F' : 'A')); Abc_Print( 1, "%c: Del = %7.2f. Ar = %9.1f. Edge = %8d. Switch = %7.2f. Cut = %8d. ", Symb, p->RequiredGlo, p->AreaGlo, p->nNets, p->dPower, p->nCutsMerged ); Abc_PrintTime( 1, "T", clock() - clk ); // Abc_Print( 1, "Max number of cuts = %d. Average number of cuts = %5.2f.\n", // p->nCutsMax, 1.0 * p->nCutsMerged / If_ManAndNum(p) ); } return 1; } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END