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Diffstat (limited to 'src/opt/sfm/sfmTim.c')
| -rw-r--r-- | src/opt/sfm/sfmTim.c | 454 |
1 files changed, 454 insertions, 0 deletions
diff --git a/src/opt/sfm/sfmTim.c b/src/opt/sfm/sfmTim.c new file mode 100644 index 00000000..d5ccc3e2 --- /dev/null +++ b/src/opt/sfm/sfmTim.c @@ -0,0 +1,454 @@ +/**CFile**************************************************************** + + FileName [sfmTim.c] + + SystemName [ABC: Logic synthesis and verification system.] + + PackageName [SAT-based optimization using internal don't-cares.] + + Synopsis [Timing manager.] + + Author [Alan Mishchenko] + + Affiliation [UC Berkeley] + + Date [Ver. 1.0. Started - June 20, 2005.] + + Revision [$Id: sfmTim.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $] + +***********************************************************************/ + +#include "sfmInt.h" + +ABC_NAMESPACE_IMPL_START + + +//////////////////////////////////////////////////////////////////////// +/// DECLARATIONS /// +//////////////////////////////////////////////////////////////////////// + +struct Sfm_Tim_t_ +{ + // external + Mio_Library_t * pLib; // library + Scl_Con_t * pExt; // external timing + Abc_Ntk_t * pNtk; // mapped network + int Delay; // the largest delay + int DeltaCrit; // critical delay delta + // timing info + Vec_Int_t vTimArrs; // arrivals (rise/fall) + Vec_Int_t vTimReqs; // required (rise/fall) + // incremental timing + Vec_Wec_t vLevels; // levels + // critical path + Vec_Int_t vPath; // critical path + Vec_Wrd_t vSortData; // node priority order +}; + +static inline int * Sfm_TimArrId( Sfm_Tim_t * p, int Id ) { return Vec_IntEntryP( &p->vTimArrs, Abc_Var2Lit(Id, 0) ); } +static inline int * Sfm_TimReqId( Sfm_Tim_t * p, int Id ) { return Vec_IntEntryP( &p->vTimReqs, Abc_Var2Lit(Id, 0) ); } + +static inline int * Sfm_TimArr( Sfm_Tim_t * p, Abc_Obj_t * pNode ) { return Vec_IntEntryP( &p->vTimArrs, Abc_Var2Lit(Abc_ObjId(pNode), 0) ); } +static inline int * Sfm_TimReq( Sfm_Tim_t * p, Abc_Obj_t * pNode ) { return Vec_IntEntryP( &p->vTimReqs, Abc_Var2Lit(Abc_ObjId(pNode), 0) ); } + +static inline int Sfm_TimArrMaxId( Sfm_Tim_t * p, int Id ) { int * a = Sfm_TimArrId(p, Id); return Abc_MaxInt(a[0], a[1]); } + +static inline int Sfm_TimArrMax( Sfm_Tim_t * p, Abc_Obj_t * pNode ) { int * a = Sfm_TimArr(p, pNode); return Abc_MaxInt(a[0], a[1]); } +static inline void Sfm_TimSetReq( Sfm_Tim_t * p, Abc_Obj_t * pNode, int t ) { int * r = Sfm_TimReq(p, pNode); r[0] = r[1] = t; } +static inline int Sfm_TimSlack( Sfm_Tim_t * p, Abc_Obj_t * pNode ) { int * r = Sfm_TimReq(p, pNode), * a = Sfm_TimArr(p, pNode); return Abc_MinInt(r[0]-a[0], r[1]-a[1]); } + +//////////////////////////////////////////////////////////////////////// +/// FUNCTION DEFINITIONS /// +//////////////////////////////////////////////////////////////////////// + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +static inline void Sfm_TimEdgeArrival( Sfm_Tim_t * p, Mio_Pin_t * pPin, int * pTimeIn, int * pTimeOut ) +{ + Mio_PinPhase_t PinPhase = Mio_PinReadPhase(pPin); + int tDelayBlockRise = (int)(MIO_NUM*Mio_PinReadDelayBlockRise(pPin)); + int tDelayBlockFall = (int)(MIO_NUM*Mio_PinReadDelayBlockFall(pPin)); + if ( PinPhase != MIO_PHASE_INV ) // NONINV phase is present + { + pTimeOut[0] = Abc_MaxInt( pTimeOut[0], pTimeIn[0] + tDelayBlockRise ); + pTimeOut[1] = Abc_MaxInt( pTimeOut[1], pTimeIn[1] + tDelayBlockFall ); + } + if ( PinPhase != MIO_PHASE_NONINV ) // INV phase is present + { + pTimeOut[0] = Abc_MaxInt( pTimeOut[0], pTimeIn[1] + tDelayBlockRise ); + pTimeOut[1] = Abc_MaxInt( pTimeOut[1], pTimeIn[0] + tDelayBlockFall ); + } +} +static inline void Sfm_TimGateArrival( Sfm_Tim_t * p, Mio_Gate_t * pGate, int ** pTimesIn, int * pTimeOut ) +{ + Mio_Pin_t * pPin; int i = 0; + pTimeOut[0] = pTimeOut[1] = 0; + Mio_GateForEachPin( pGate, pPin ) + Sfm_TimEdgeArrival( p, pPin, pTimesIn[i++], pTimeOut ); + assert( i == Mio_GateReadPinNum(pGate) ); +} +static inline void Sfm_TimNodeArrival( Sfm_Tim_t * p, Abc_Obj_t * pNode ) +{ + int i, iFanin, * pTimesIn[6]; + int * pTimeOut = Sfm_TimArr(p, pNode); + assert( Abc_ObjFaninNum(pNode) <= 6 ); + Abc_ObjForEachFaninId( pNode, iFanin, i ) + pTimesIn[i] = Sfm_TimArrId( p, iFanin ); + Sfm_TimGateArrival( p, (Mio_Gate_t *)pNode->pData, pTimesIn, pTimeOut ); +} + +static inline void Sfm_TimEdgeRequired( Sfm_Tim_t * p, Mio_Pin_t * pPin, int * pTimeIn, int * pTimeOut ) +{ + Mio_PinPhase_t PinPhase = Mio_PinReadPhase(pPin); + int tDelayBlockRise = (int)(MIO_NUM*Mio_PinReadDelayBlockRise(pPin)); + int tDelayBlockFall = (int)(MIO_NUM*Mio_PinReadDelayBlockFall(pPin)); + if ( PinPhase != MIO_PHASE_INV ) // NONINV phase is present + { + pTimeIn[0] = Abc_MinInt( pTimeIn[0], pTimeOut[0] - tDelayBlockRise ); + pTimeIn[1] = Abc_MinInt( pTimeIn[1], pTimeOut[1] - tDelayBlockFall ); + } + if ( PinPhase != MIO_PHASE_NONINV ) // INV phase is present + { + pTimeIn[0] = Abc_MinInt( pTimeIn[0], pTimeOut[1] - tDelayBlockRise ); + pTimeIn[1] = Abc_MinInt( pTimeIn[1], pTimeOut[0] - tDelayBlockFall ); + } +} +static inline void Sfm_TimGateRequired( Sfm_Tim_t * p, Mio_Gate_t * pGate, int ** pTimesIn, int * pTimeOut ) +{ + Mio_Pin_t * pPin; int i = 0; + Mio_GateForEachPin( pGate, pPin ) + Sfm_TimEdgeRequired( p, pPin, pTimesIn[i++], pTimeOut ); + assert( i == Mio_GateReadPinNum(pGate) ); +} +void Sfm_TimNodeRequired( Sfm_Tim_t * p, Abc_Obj_t * pNode ) +{ + int i, iFanin, * pTimesIn[6]; + int * pTimeOut = Sfm_TimReq(p, pNode); + assert( Abc_ObjFaninNum(pNode) <= 6 ); + Abc_ObjForEachFaninId( pNode, iFanin, i ) + pTimesIn[i] = Sfm_TimReqId( p, iFanin ); + Sfm_TimGateRequired( p, (Mio_Gate_t *)pNode->pData, pTimesIn, pTimeOut ); +} + + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Sfm_TimCriticalPath_int( Sfm_Tim_t * p, Abc_Obj_t * pObj, Vec_Int_t * vPath, int SlackMax ) +{ + Abc_Obj_t * pNext; int i; + if ( Abc_NodeIsTravIdCurrent( pObj ) ) + return; + Abc_NodeSetTravIdCurrent( pObj ); + assert( Abc_ObjIsNode(pObj) ); + Abc_ObjForEachFanin( pObj, pNext, i ) + { + if ( Abc_ObjIsCi(pNext) || Abc_ObjFaninNum(pNext) == 0 ) + continue; + assert( Abc_ObjIsNode(pNext) ); + if ( Sfm_TimSlack(p, pNext) <= SlackMax ) + Sfm_TimCriticalPath_int( p, pNext, vPath, SlackMax ); + } + if ( Abc_ObjFaninNum(pObj) > 0 ) + Vec_IntPush( vPath, Abc_ObjId(pObj) ); +} +int Sfm_TimCriticalPath( Sfm_Tim_t * p, int Window ) +{ + int i, SlackMax = p->Delay * Window / 100; + Abc_Obj_t * pObj, * pNext; + Vec_IntClear( &p->vPath ); + Abc_NtkIncrementTravId( p->pNtk ); + Abc_NtkForEachCo( p->pNtk, pObj, i ) + { + pNext = Abc_ObjFanin0(pObj); + if ( Abc_ObjIsCi(pNext) || Abc_ObjFaninNum(pNext) == 0 ) + continue; + assert( Abc_ObjIsNode(pNext) ); + if ( Sfm_TimSlack(p, pNext) <= SlackMax ) + Sfm_TimCriticalPath_int( p, pNext, &p->vPath, SlackMax ); + } + return Vec_IntSize(&p->vPath); +} + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Sfm_TimTrace( Sfm_Tim_t * p ) +{ + Abc_Obj_t * pObj; int i, Delay = 0; + Vec_Ptr_t * vNodes = Abc_NtkDfs( p->pNtk, 1 ); + Vec_PtrForEachEntry( Abc_Obj_t *, vNodes, pObj, i ) + Sfm_TimNodeArrival( p, pObj ); + Abc_NtkForEachCo( p->pNtk, pObj, i ) + Delay = Abc_MaxInt( Delay, Sfm_TimArrMax(p, Abc_ObjFanin0(pObj)) ); + Vec_IntFill( &p->vTimReqs, 2*Abc_NtkObjNumMax(p->pNtk), ABC_INFINITY ); + Abc_NtkForEachCo( p->pNtk, pObj, i ) + Sfm_TimSetReq( p, Abc_ObjFanin0(pObj), Delay ); + Vec_PtrForEachEntryReverse( Abc_Obj_t *, vNodes, pObj, i ) + Sfm_TimNodeRequired( p, pObj ); + Vec_PtrFree( vNodes ); + return Delay; +} + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +Sfm_Tim_t * Sfm_TimStart( Mio_Library_t * pLib, Scl_Con_t * pExt, Abc_Ntk_t * pNtk, int DeltaCrit ) +{ + Sfm_Tim_t * p = ABC_CALLOC( Sfm_Tim_t, 1 ); + p->pLib = pLib; + p->pExt = pExt; + p->pNtk = pNtk; + Vec_IntFill( &p->vTimArrs, 3*Abc_NtkObjNumMax(pNtk), 0 ); + Vec_IntFill( &p->vTimReqs, 3*Abc_NtkObjNumMax(pNtk), 0 ); + p->Delay = Sfm_TimTrace( p ); + assert( DeltaCrit > 0 && DeltaCrit < MIO_NUM*1000 ); + p->DeltaCrit = DeltaCrit; + return p; +} +void Sfm_TimStop( Sfm_Tim_t * p ) +{ + Vec_IntErase( &p->vTimArrs ); + Vec_IntErase( &p->vTimReqs ); + Vec_WecErase( &p->vLevels ); + Vec_IntErase( &p->vPath ); + Vec_WrdErase( &p->vSortData ); + ABC_FREE( p ); +} +int Sfm_TimReadNtkDelay( Sfm_Tim_t * p ) +{ + return p->Delay; +} +int Sfm_TimReadObjDelay( Sfm_Tim_t * p, int iObj ) +{ + return Sfm_TimArrMaxId(p, iObj); +} + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Sfm_TimTest( Abc_Ntk_t * pNtk ) +{ + Mio_Library_t * pLib = (Mio_Library_t *)pNtk->pManFunc; + Sfm_Tim_t * p = Sfm_TimStart( pLib, NULL, pNtk, 100 ); + printf( "Max delay = %.2f. Path = %d (%d).\n", MIO_NUMINV*p->Delay, Sfm_TimCriticalPath(p, 1), Abc_NtkNodeNum(p->pNtk) ); + Sfm_TimStop( p ); +} + +/**Function************************************************************* + + Synopsis [Levelized structure.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +static inline void Sfm_TimUpdateClean( Sfm_Tim_t * p ) +{ + Vec_Int_t * vLevel; + Abc_Obj_t * pObj; + int i, k; + Vec_WecForEachLevel( &p->vLevels, vLevel, i ) + { + Abc_NtkForEachObjVec( vLevel, p->pNtk, pObj, k ) + { + assert( pObj->fMarkC == 1 ); + pObj->fMarkC = 0; + } + Vec_IntClear( vLevel ); + } +} + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Sfm_TimUpdateTiming( Sfm_Tim_t * p, Vec_Int_t * vTimeNodes ) +{ + assert( Vec_IntSize(vTimeNodes) > 0 && Vec_IntSize(vTimeNodes) <= 2 ); + Vec_IntFillExtra( &p->vTimArrs, 2*Abc_NtkObjNumMax(p->pNtk), 0 ); + Vec_IntFillExtra( &p->vTimReqs, 2*Abc_NtkObjNumMax(p->pNtk), 0 ); + p->Delay = Sfm_TimTrace( p ); +} + +/**Function************************************************************* + + Synopsis [Sort an array of nodes using their max arrival times.] + + Description [Returns the number of new divisor nodes.] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Sfm_TimSortArrayByArrival( Sfm_Tim_t * p, Vec_Int_t * vNodes, int iPivot ) +{ + word Entry; + int i, Id, nDivNew = -1; + int MaxDelay = Sfm_TimArrMaxId(p, iPivot); + assert( p->DeltaCrit > 0 ); + // collect nodes + Vec_WrdClear( &p->vSortData ); + Vec_IntForEachEntry( vNodes, Id, i ) + Vec_WrdPush( &p->vSortData, ((word)Id << 32) | Sfm_TimArrMaxId(p, Id) ); + // sort nodes by delay + Abc_QuickSort3( Vec_WrdArray(&p->vSortData), Vec_WrdSize(&p->vSortData), 0 ); + // collect sorted nodes and find place where divisors end + Vec_IntClear( vNodes ); + Vec_WrdForEachEntry( &p->vSortData, Entry, i ) + { + Vec_IntPush( vNodes, (int)(Entry >> 32) ); + if ( nDivNew == -1 && ((int)Entry) + p->DeltaCrit > MaxDelay ) + nDivNew = i; + } + return nDivNew; +} + +/**Function************************************************************* + + Synopsis [Priority of nodes to try remapping for delay.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Sfm_TimPriorityNodes( Sfm_Tim_t * p, Vec_Int_t * vCands, int Window ) +{ + Vec_Int_t * vLevel; + Abc_Obj_t * pObj; + int i, k; + assert( Window >= 0 && Window <= 100 ); + // collect critical path + Sfm_TimCriticalPath( p, Window ); + // add nodes to the levelized structure + Sfm_TimUpdateClean( p ); + Abc_NtkForEachObjVec( &p->vPath, p->pNtk, pObj, i ) + { + assert( pObj->fMarkC == 0 ); + pObj->fMarkC = 1; + Vec_WecPush( &p->vLevels, Abc_ObjLevel(pObj), Abc_ObjId(pObj) ); + } + // prioritize nodes by expected gain + Vec_WecSort( &p->vLevels, 0 ); + Vec_IntClear( vCands ); + Vec_WecForEachLevel( &p->vLevels, vLevel, i ) + Abc_NtkForEachObjVec( vLevel, p->pNtk, pObj, k ) + if ( !pObj->fMarkA ) + Vec_IntPush( vCands, Abc_ObjId(pObj) ); +// printf( "Path = %5d Cand = %5d\n", Vec_IntSize(&p->vPath) ); + return Vec_IntSize(vCands) > 0; +} + +/**Function************************************************************* + + Synopsis [Returns 1 if node is relatively non-critical compared to the pivot.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Sfm_TimNodeIsNonCritical( Sfm_Tim_t * p, Abc_Obj_t * pPivot, Abc_Obj_t * pNode ) +{ + return Sfm_TimArrMax(p, pNode) + p->DeltaCrit <= Sfm_TimArrMax(p, pPivot); +} + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Sfm_TimEvalRemapping( Sfm_Tim_t * p, Vec_Int_t * vFanins, Vec_Int_t * vMap, Mio_Gate_t * pGate1, char * pFans1, Mio_Gate_t * pGate2, char * pFans2 ) +{ + int TimeOut[2][2]; + int * pTimesIn1[6], * pTimesIn2[6]; + int i, nFanins1, nFanins2; + // process the first gate + nFanins1 = Mio_GateReadPinNum( pGate1 ); + for ( i = 0; i < nFanins1; i++ ) + pTimesIn1[i] = Sfm_TimArrId( p, Vec_IntEntry(vMap, Vec_IntEntry(vFanins, (int)pFans1[i])) ); + Sfm_TimGateArrival( p, pGate1, pTimesIn1, TimeOut[0] ); + if ( pGate2 == NULL ) + return Abc_MaxInt(TimeOut[0][0], TimeOut[0][1]); + // process the second gate + nFanins2 = Mio_GateReadPinNum( pGate2 ); + for ( i = 0; i < nFanins2; i++ ) + if ( (int)pFans2[i] == 16 ) + pTimesIn2[i] = TimeOut[0]; + else + pTimesIn2[i] = Sfm_TimArrId( p, Vec_IntEntry(vMap, Vec_IntEntry(vFanins, (int)pFans2[i])) ); + Sfm_TimGateArrival( p, pGate2, pTimesIn2, TimeOut[1] ); + return Abc_MaxInt(TimeOut[1][0], TimeOut[1][1]); +} + + +//////////////////////////////////////////////////////////////////////// +/// END OF FILE /// +//////////////////////////////////////////////////////////////////////// + + +ABC_NAMESPACE_IMPL_END + |