Commit 84c0b9d6 by Alan Mishchenko

Tuning standard-cell mapping flow.

parent 038f2964
......@@ -398,13 +398,12 @@ Vec_Ptr_t * Aig_ManDfsChoices( Aig_Man_t * p )
{
if ( Aig_ObjEquiv(p, pObj) == NULL )
continue;
Counter = 0;
for ( pObj = Aig_ObjEquiv(p, pObj) ; pObj; pObj = Aig_ObjEquiv(p, pObj) )
Counter++;
printf( "%d ", Counter );
// printf( "%d ", Counter );
}
printf( "\n" );
// printf( "\n" );
assert( p->pEquivs != NULL );
Aig_ManIncrementTravId( p );
......
......@@ -300,8 +300,8 @@ void Abc_NtkTimeInitialize( Abc_Ntk_t * pNtk, Abc_Ntk_t * pNtkOld )
Abc_Time_t ** ppTimes, * pTime;
int i;
assert( pNtkOld == NULL || pNtkOld->pManTime != NULL );
assert( pNtkOld == NULL || Abc_NtkPiNum(pNtk) == Abc_NtkPiNum(pNtkOld) );
assert( pNtkOld == NULL || Abc_NtkPoNum(pNtk) == Abc_NtkPoNum(pNtkOld) );
assert( pNtkOld == NULL || Abc_NtkCiNum(pNtk) == Abc_NtkCiNum(pNtkOld) );
assert( pNtkOld == NULL || Abc_NtkCoNum(pNtk) == Abc_NtkCoNum(pNtkOld) );
if ( pNtk->pManTime == NULL )
return;
Abc_ManTimeExpand( pNtk->pManTime, Abc_NtkObjNumMax(pNtk), 0 );
......@@ -314,7 +314,7 @@ void Abc_NtkTimeInitialize( Abc_Ntk_t * pNtk, Abc_Ntk_t * pNtkOld )
}
// set the default timing
ppTimes = (Abc_Time_t **)pNtk->pManTime->vArrs->pArray;
Abc_NtkForEachPi( pNtk, pObj, i )
Abc_NtkForEachCi( pNtk, pObj, i )
{
pTime = ppTimes[pObj->Id];
if ( Abc_MaxFloat(pTime->Fall, pTime->Rise) != -ABC_INFINITY )
......@@ -323,10 +323,10 @@ void Abc_NtkTimeInitialize( Abc_Ntk_t * pNtk, Abc_Ntk_t * pNtkOld )
}
// set the default timing
ppTimes = (Abc_Time_t **)pNtk->pManTime->vReqs->pArray;
Abc_NtkForEachPo( pNtk, pObj, i )
Abc_NtkForEachCo( pNtk, pObj, i )
{
pTime = ppTimes[pObj->Id];
if ( Abc_MaxFloat(pTime->Fall, pTime->Rise) != -ABC_INFINITY )
if ( Abc_MaxFloat(pTime->Fall, pTime->Rise) != ABC_INFINITY )
continue;
*pTime = pNtkOld ? *Abc_NodeReadRequired(Abc_NtkPo(pNtkOld, i)) : pNtk->pManTime->tReqDef;
}
......@@ -371,7 +371,7 @@ void Abc_NtkTimePrepare( Abc_Ntk_t * pNtk )
pTime = ppTimes[pObj->Id];
pTime->Fall = pTime->Rise = -ABC_INFINITY;
}
Abc_NtkForEachPo( pNtk, pObj, i )
Abc_NtkForEachCo( pNtk, pObj, i )
{
pTime = ppTimes[pObj->Id];
pTime->Fall = pTime->Rise = -ABC_INFINITY;
......@@ -381,12 +381,12 @@ void Abc_NtkTimePrepare( Abc_Ntk_t * pNtk )
Abc_NtkForEachNode( pNtk, pObj, i )
{
pTime = ppTimes[pObj->Id];
pTime->Fall = pTime->Rise = -ABC_INFINITY;
pTime->Fall = pTime->Rise = ABC_INFINITY;
}
Abc_NtkForEachPi( pNtk, pObj, i )
Abc_NtkForEachCi( pNtk, pObj, i )
{
pTime = ppTimes[pObj->Id];
pTime->Fall = pTime->Rise = -ABC_INFINITY;
pTime->Fall = pTime->Rise = ABC_INFINITY;
}
}
......@@ -411,6 +411,8 @@ Abc_ManTime_t * Abc_ManTimeStart()
memset( p, 0, sizeof(Abc_ManTime_t) );
p->vArrs = Vec_PtrAlloc( 0 );
p->vReqs = Vec_PtrAlloc( 0 );
p->tReqDef.Rise = ABC_INFINITY;
p->tReqDef.Fall = ABC_INFINITY;
return p;
}
......@@ -540,8 +542,8 @@ void Abc_ManTimeExpand( Abc_ManTime_t * p, int nSize, int fProgressive )
for ( i = nSizeOld; i < nSizeNew; i++ )
{
pTime = (Abc_Time_t *)vTimes->pArray[i];
pTime->Rise = -ABC_INFINITY;
pTime->Fall = -ABC_INFINITY;
pTime->Rise = ABC_INFINITY;
pTime->Fall = ABC_INFINITY;
}
}
......@@ -571,7 +573,7 @@ void Abc_NtkSetNodeLevelsArrival( Abc_Ntk_t * pNtkOld )
if ( Abc_FrameReadLibGen() == NULL || Mio_LibraryReadNand2((Mio_Library_t *)Abc_FrameReadLibGen()) == NULL )
return;
tAndDelay = Mio_LibraryReadDelayNand2Max((Mio_Library_t *)Abc_FrameReadLibGen());
Abc_NtkForEachPi( pNtkOld, pNodeOld, i )
Abc_NtkForEachCi( pNtkOld, pNodeOld, i )
{
pNodeNew = pNodeOld->pCopy;
pNodeNew->Level = (int)(Abc_NodeReadArrivalWorst(pNodeOld) / tAndDelay);
......@@ -598,7 +600,7 @@ Abc_Time_t * Abc_NtkGetCiArrivalTimes( Abc_Ntk_t * pNtk )
if ( pNtk->pManTime == NULL )
return p;
// set the PI arrival times
Abc_NtkForEachPi( pNtk, pNode, i )
Abc_NtkForEachCi( pNtk, pNode, i )
p[i] = *Abc_NodeArrival(pNode);
return p;
}
......@@ -611,7 +613,7 @@ Abc_Time_t * Abc_NtkGetCoRequiredTimes( Abc_Ntk_t * pNtk )
if ( pNtk->pManTime == NULL )
return p;
// set the PO required times
Abc_NtkForEachPo( pNtk, pNode, i )
Abc_NtkForEachCo( pNtk, pNode, i )
p[i] = *Abc_NodeRequired(pNode);
return p;
}
......@@ -636,8 +638,13 @@ float * Abc_NtkGetCiArrivalFloats( Abc_Ntk_t * pNtk )
p = ABC_CALLOC( float, Abc_NtkCiNum(pNtk) );
if ( pNtk->pManTime == NULL )
return p;
Abc_NtkForEachCi( pNtk, pNode, i )
if ( Abc_NodeReadArrivalWorst(pNode) != 0 )
break;
if ( i == Abc_NtkCiNum(pNtk) )
return NULL;
// set the PI arrival times
Abc_NtkForEachPi( pNtk, pNode, i )
Abc_NtkForEachCi( pNtk, pNode, i )
p[i] = Abc_NodeReadArrivalWorst(pNode);
return p;
}
......@@ -648,9 +655,14 @@ float * Abc_NtkGetCoRequiredFloats( Abc_Ntk_t * pNtk )
int i;
if ( pNtk->pManTime == NULL )
return NULL;
Abc_NtkForEachCo( pNtk, pNode, i )
if ( Abc_NodeReadRequiredWorst(pNode) != ABC_INFINITY )
break;
if ( i == Abc_NtkCoNum(pNtk) )
return NULL;
// set the PO required times
p = ABC_CALLOC( float, Abc_NtkCoNum(pNtk) );
Abc_NtkForEachPo( pNtk, pNode, i )
Abc_NtkForEachCo( pNtk, pNode, i )
p[i] = Abc_NodeReadRequiredWorst(pNode);
return p;
}
......
......@@ -703,7 +703,7 @@ void Io_WriteTimingInfo( FILE * pFile, Abc_Ntk_t * pNtk )
}
pTimeDef = Abc_NtkReadDefaultRequired( pNtk );
if ( pTimeDef->Rise != 0.0 || pTimeDef->Fall != 0.0 )
if ( pTimeDef->Rise != ABC_INFINITY || pTimeDef->Fall != ABC_INFINITY )
fprintf( pFile, ".default_output_required %g %g\n", pTimeDef->Rise, pTimeDef->Fall );
Abc_NtkForEachPo( pNtk, pNode, i )
{
......
......@@ -127,7 +127,7 @@ int Abc_SclComputeReverseLevel( Abc_Obj_t * pObj )
Level = Abc_MaxInt( Level, pFanout->Level );
return Level + 1;
}
Abc_Obj_t * Abc_SclPerformBufferingOne( Abc_Obj_t * pObj, int Degree, int fVerbose )
Abc_Obj_t * Abc_SclPerformBufferingOne( Abc_Obj_t * pObj, int Degree, int fUseInvs, int fVerbose )
{
Vec_Ptr_t * vFanouts;
Abc_Obj_t * pBuffer, * pFanout;
......@@ -138,6 +138,9 @@ Abc_Obj_t * Abc_SclPerformBufferingOne( Abc_Obj_t * pObj, int Degree, int fVerbo
Abc_NodeCollectFanouts( pObj, vFanouts );
Vec_PtrSort( vFanouts, (int (*)(void))Abc_NodeCompareLevels );
// select the first Degree fanouts
if ( fUseInvs )
pBuffer = Abc_NtkCreateNodeInv( pObj->pNtk, NULL );
else
pBuffer = Abc_NtkCreateNodeBuf( pObj->pNtk, NULL );
// check if it is possible to not increase level
if ( Vec_PtrSize(vFanouts) < 2 * Degree )
......@@ -176,7 +179,7 @@ Abc_Obj_t * Abc_SclPerformBufferingOne( Abc_Obj_t * pObj, int Degree, int fVerbo
pBuffer->Level = Abc_SclComputeReverseLevel( pBuffer );
return pBuffer;
}
void Abc_SclPerformBuffering_rec( Abc_Obj_t * pObj, int Degree, int fVerbose )
void Abc_SclPerformBuffering_rec( Abc_Obj_t * pObj, int Degree, int fUseInvs, int fVerbose )
{
Abc_Obj_t * pFanout;
int i;
......@@ -189,20 +192,22 @@ void Abc_SclPerformBuffering_rec( Abc_Obj_t * pObj, int Degree, int fVerbose )
assert( Abc_ObjIsCi(pObj) || Abc_ObjIsNode(pObj) );
// buffer fanouts and collect reverse levels
Abc_ObjForEachFanout( pObj, pFanout, i )
Abc_SclPerformBuffering_rec( pFanout, Degree, fVerbose );
Abc_SclPerformBuffering_rec( pFanout, Degree, fUseInvs, fVerbose );
// perform buffering as long as needed
while ( Abc_ObjFanoutNum(pObj) > Degree )
Abc_SclPerformBufferingOne( pObj, Degree, fVerbose );
Abc_SclPerformBufferingOne( pObj, Degree, fUseInvs, fVerbose );
// compute the new level of the node
pObj->Level = Abc_SclComputeReverseLevel( pObj );
}
Abc_Ntk_t * Abc_SclPerformBuffering( Abc_Ntk_t * p, int Degree, int fVerbose )
Abc_Ntk_t * Abc_SclPerformBuffering( Abc_Ntk_t * p, int Degree, int fUseInvs, int fVerbose )
{
Vec_Int_t * vCiLevs;
Abc_Ntk_t * pNew;
Abc_Obj_t * pObj;
int i;
assert( Abc_NtkHasMapping(p) );
if ( fUseInvs )
printf( "Warning!!! Using inverters instead of buffers.\n" );
// remember CI levels
vCiLevs = Vec_IntAlloc( Abc_NtkCiNum(p) );
Abc_NtkForEachCi( p, pObj, i )
......@@ -210,7 +215,7 @@ Abc_Ntk_t * Abc_SclPerformBuffering( Abc_Ntk_t * p, int Degree, int fVerbose )
// perform buffering
Abc_NtkIncrementTravId( p );
Abc_NtkForEachCi( p, pObj, i )
Abc_SclPerformBuffering_rec( pObj, Degree, fVerbose );
Abc_SclPerformBuffering_rec( pObj, Degree, fUseInvs, fVerbose );
// recompute logic levels
Abc_NtkForEachCi( p, pObj, i )
pObj->Level = Vec_IntEntry( vCiLevs, i );
......
......@@ -713,6 +713,14 @@ int Abc_SclCellFind( SC_Lib * p, char * pName )
{
return *Abc_SclHashLookup( p, pName );
}
int Abc_SclClassCellNum( SC_Cell * pClass )
{
SC_Cell * pCell;
int i, Count = 0;
SC_RingForEachCell( pClass, pCell, i )
Count++;
return Count;
}
/**Function*************************************************************
......@@ -854,7 +862,7 @@ SC_WireLoad * Abc_SclFindWireLoadModel( SC_Lib * p, float Area )
SeeAlso []
***********************************************************************/
void Abc_SclComputeParametersPin( SC_Lib * p, SC_Cell * pCell, int iPin, float Slew, float * pLD, float * pPD )
void Abc_SclComputeParametersPin( SC_Lib * p, SC_Cell * pCell, int iPin, float Slew, float * pED, float * pPD )
{
SC_Timings * pRTime;
SC_Timing * pTime = NULL;
......@@ -887,59 +895,59 @@ void Abc_SclComputeParametersPin( SC_Lib * p, SC_Cell * pCell, int iPin, float S
ArrOut1.rise = 0.5 * (ArrOut1.rise + ArrOut1.fall);
ArrOut2.rise = 0.5 * (ArrOut2.rise + ArrOut2.fall);
// get tangent
*pLD = (ArrOut2.rise - ArrOut1.rise) / ((Load2.rise - Load1.rise) / SC_CellPinCap(pCell, iPin));
*pED = (ArrOut2.rise - ArrOut1.rise) / ((Load2.rise - Load1.rise) / SC_CellPinCap(pCell, iPin));
// get constant
*pPD = ArrOut0.rise;
}
void Abc_SclComputeParametersCell( SC_Lib * p, SC_Cell * pCell, float Slew, float * pLD, float * pPD )
void Abc_SclComputeParametersCell( SC_Lib * p, SC_Cell * pCell, float Slew, float * pED, float * pPD )
{
SC_Pin * pPin;
float LD, PD, ld, pd;
float ED, PD, ed, pd;
int i;
LD = PD = ld = pd = 0;
ED = PD = ed = pd = 0;
SC_CellForEachPinIn( pCell, pPin, i )
{
Abc_SclComputeParametersPin( p, pCell, i, Slew, &ld, &pd );
LD += ld; PD += pd;
Abc_SclComputeParametersPin( p, pCell, i, Slew, &ed, &pd );
ED += ed; PD += pd;
}
*pLD = LD / pCell->n_inputs;
*pED = ED / pCell->n_inputs;
*pPD = PD / pCell->n_inputs;
}
void Abc_SclComputeParametersClass( SC_Lib * p, SC_Cell * pRepr, float Slew, float * pLD, float * pPD )
void Abc_SclComputeParametersClass( SC_Lib * p, SC_Cell * pRepr, float Slew, float * pED, float * pPD )
{
SC_Cell * pCell;
float LD, PD, ld, pd;
float ED, PD, ed, pd;
int i, Count = 0;
LD = PD = ld = pd = 0;
ED = PD = ed = pd = 0;
SC_RingForEachCell( pRepr, pCell, i )
{
Abc_SclComputeParametersCell( p, pCell, Slew, &ld, &pd );
LD += ld; PD += pd;
Abc_SclComputeParametersCell( p, pCell, Slew, &ed, &pd );
ED += ed; PD += pd;
Count++;
}
*pLD = LD / Count;
*pED = ED / Count;
*pPD = PD / Count;
}
void Abc_SclComputeParametersClassPin( SC_Lib * p, SC_Cell * pRepr, int iPin, float Slew, float * pLD, float * pPD )
void Abc_SclComputeParametersClassPin( SC_Lib * p, SC_Cell * pRepr, int iPin, float Slew, float * pED, float * pPD )
{
SC_Cell * pCell;
float LD, PD, ld, pd;
float ED, PD, ed, pd;
int i, Count = 0;
LD = PD = ld = pd = 0;
ED = PD = ed = pd = 0;
SC_RingForEachCell( pRepr, pCell, i )
{
Abc_SclComputeParametersPin( p, pCell, Slew, iPin, &ld, &pd );
LD += ld; PD += pd;
Abc_SclComputeParametersPin( p, pCell, Slew, iPin, &ed, &pd );
ED += ed; PD += pd;
Count++;
}
*pLD = LD / Count;
*pED = ED / Count;
*pPD = PD / Count;
}
float Abc_SclComputeDelayCellPin( SC_Lib * p, SC_Cell * pCell, int iPin, float Slew, float Gain )
{
float LD = 0, PD = 0;
Abc_SclComputeParametersPin( p, pCell, iPin, Slew, &LD, &PD );
return LD * Gain + PD;
float ED = 0, PD = 0;
Abc_SclComputeParametersPin( p, pCell, iPin, Slew, &ED, &PD );
return 0.01 * ED * Gain + PD;
}
float Abc_SclComputeDelayClassPin( SC_Lib * p, SC_Cell * pRepr, int iPin, float Slew, float Gain )
{
......@@ -947,11 +955,14 @@ float Abc_SclComputeDelayClassPin( SC_Lib * p, SC_Cell * pRepr, int iPin, float
float Delay = 0;
int i, Count = 0;
SC_RingForEachCell( pRepr, pCell, i )
Count++;
SC_RingForEachCell( pRepr, pCell, i )
{
if ( pRepr == pCell && Count > 1 ) // skip the first gate
continue;
Delay += Abc_SclComputeDelayCellPin( p, pCell, iPin, Slew, Gain );
Count++;
}
return Delay / Count;
return Delay / Abc_MaxInt(1, Count-1);
}
float Abc_SclComputeAreaClass( SC_Cell * pRepr )
{
......@@ -977,16 +988,16 @@ float Abc_SclComputeAreaClass( SC_Cell * pRepr )
SeeAlso []
***********************************************************************/
void Abc_SclPrintCells( SC_Lib * p )
void Abc_SclPrintCells( SC_Lib * p, float Slew, float Gain )
{
SC_Cell * pCell, * pRepr;
int i, k, nLength = 0;
float LD = 0, PD = 0;
float SlewDef = 100;
float ED = 0, PD = 0;
assert( Vec_PtrSize(p->vCellClasses) > 0 );
printf( "Library \"%s\" ", p->pName );
printf( "containing %d cells in %d classes.\n",
printf( "has %d cells in %d classes. ",
Vec_PtrSize(p->vCells), Vec_PtrSize(p->vCellClasses) );
printf( "Delay estimate is based on slew %.2f and gain %.2f.\n", Slew, Gain );
// find the longest name
SC_LibForEachCellClass( p, pRepr, k )
SC_RingForEachCell( pRepr, pCell, i )
......@@ -1005,14 +1016,18 @@ void Abc_SclPrintCells( SC_Lib * p )
printf( "\n" );
SC_RingForEachCell( pRepr, pCell, i )
{
Abc_SclComputeParametersCell( p, pCell, SlewDef, &LD, &PD );
Abc_SclComputeParametersCell( p, pCell, Slew, &ED, &PD );
printf( " %3d : ", i+1 );
printf( "%-*s ", nLength, pCell->pName );
printf( "%2d ", pCell->drive_strength );
printf( "A =%8.2f ", pCell->area );
printf( "C =%6.2f ff ", Abc_SclGatePinCapAve(p, pCell) );
printf( "LD =%8.2f ps ", LD );
printf( "PD =%8.2f ps", PD );
printf( "D =%6.0f ps ", 0.01 * ED * Gain + PD );
printf( "ED =%6.0f ps ", ED );
printf( "PD =%6.0f ps ", PD );
printf( "C =%5.1f ff ", Abc_SclGatePinCapAve(p, pCell) );
printf( "Lm =%5.1f ff ", 0.01 * Gain * Abc_SclGatePinCapAve(p, pCell) );
// printf( "MaxS =%5.1f ps ", SC_CellPin(pCell, pCell->n_inputs)->max_out_slew );
printf( "Lm2 =%5.0f ff", SC_CellPin(pCell, pCell->n_inputs)->max_out_cap );
printf( "\n" );
}
}
......@@ -1029,21 +1044,23 @@ void Abc_SclPrintCells( SC_Lib * p )
SeeAlso []
***********************************************************************/
Vec_Str_t * Abc_SclDeriveGenlib( SC_Lib * p, float Slew, float Gain )
Vec_Str_t * Abc_SclDeriveGenlib( SC_Lib * p, float Slew, float Gain, int nGatesMin, int * pnCellCount )
{
extern char * Abc_SclFindGateFormula( char * pGateName, char * pOutName );
char Buffer[200];
Vec_Str_t * vStr;
SC_Cell * pRepr;
SC_Pin * pPin;
int i, k, Count = 0;
int i, k, Count = 2;
vStr = Vec_StrAlloc( 1000 );
Vec_StrPrintStr( vStr, "GATE _const0_ 0.000000 z=CONST0;\n" );
Vec_StrPrintStr( vStr, "GATE _const1_ 0.000000 z=CONST1;\n" );
Vec_StrPrintStr( vStr, "GATE _const0_ 0.00 z=CONST0;\n" );
Vec_StrPrintStr( vStr, "GATE _const1_ 0.00 z=CONST1;\n" );
SC_LibForEachCellClass( p, pRepr, i )
{
if ( pRepr->n_outputs > 1 )
continue;
if ( Abc_SclClassCellNum(pRepr) < nGatesMin )
continue;
assert( strlen(pRepr->pName) < 200 );
Vec_StrPrintStr( vStr, "GATE " );
sprintf( Buffer, "%-16s", pRepr->pName );
......@@ -1071,22 +1088,31 @@ Vec_Str_t * Abc_SclDeriveGenlib( SC_Lib * p, float Slew, float Gain )
Vec_StrPrintStr( vStr, "\n.end\n" );
Vec_StrPush( vStr, '\0' );
// printf( "%s", Vec_StrArray(vStr) );
printf( "GENLIB library with %d gates is produced.\n", Count );
// printf( "GENLIB library with %d gates is produced.\n", Count );
*pnCellCount = Count;
return vStr;
}
void Abc_SclDumpGenlib( char * pFileName, SC_Lib * p, float Slew, float Gain )
void Abc_SclDumpGenlib( char * pFileName, SC_Lib * p, float Slew, float Gain, int nGatesMin )
{
char FileName[1000];
int nCellCount = 0;
Vec_Str_t * vStr;
FILE * pFile = fopen( pFileName, "wb" );
FILE * pFile;
if ( pFileName == NULL )
sprintf( FileName, "%s_s%03d_g%03d_m%d.genlib", p->pName, (int)Slew, (int)Gain, nGatesMin, &nCellCount );
else
sprintf( FileName, "%s", pFileName );
pFile = fopen( FileName, "wb" );
if ( pFile == NULL )
{
printf( "Cannot open file \"%s\" for writing.\n", pFileName );
printf( "Cannot open file \"%s\" for writing.\n", FileName );
return;
}
vStr = Abc_SclDeriveGenlib( p, Slew, Gain );
vStr = Abc_SclDeriveGenlib( p, Slew, Gain, nGatesMin, &nCellCount );
fprintf( pFile, "%s", Vec_StrArray(vStr) );
Vec_StrFree( vStr );
fclose( pFile );
printf( "Written GENLIB library with %d gates into file \"%s\".\n", nCellCount, FileName );
}
////////////////////////////////////////////////////////////////////////
......
......@@ -544,10 +544,11 @@ extern void Abc_SclLoad( char * pFileName, SC_Lib ** ppScl );
extern void Abc_SclSave( char * pFileName, SC_Lib * pScl );
extern void Abc_SclHashCells( SC_Lib * p );
extern int Abc_SclCellFind( SC_Lib * p, char * pName );
extern int Abc_SclClassCellNum( SC_Cell * pClass );
extern void Abc_SclLinkCells( SC_Lib * p );
extern void Abc_SclPrintCells( SC_Lib * p );
extern void Abc_SclPrintCells( SC_Lib * p, float Slew, float Gain );
extern SC_WireLoad * Abc_SclFindWireLoadModel( SC_Lib * p, float Area );
extern void Abc_SclDumpGenlib( char * pFileName, SC_Lib * p, float Slew, float Gain );
extern void Abc_SclDumpGenlib( char * pFileName, SC_Lib * p, float Slew, float Gain, int nGatesMin );
ABC_NAMESPACE_HEADER_END
......
......@@ -112,19 +112,19 @@ static inline void Abc_SclTimeNodePrint( SC_Man * p, Abc_Obj_t * pObj, int fRise
printf( "%d ", Abc_ObjFaninNum(pObj) );
printf( "%2d ", Abc_ObjFanoutNum(pObj) );
printf( "%-*s ", Length, pCell ? pCell->pName : "pi" );
if ( fRise >= 0 )
printf( "(%s) ", fRise ? "rise" : "fall" );
printf( "A =%7.2f ", pCell ? pCell->area : 0.0 );
printf( "D = (" );
printf( "%8.2f ps", Abc_SclObjTimePs(p, pObj, 1) );
printf( "%8.2f ps ) ", Abc_SclObjTimePs(p, pObj, 0) );
printf( "L =%7.2f ff ", Abc_SclObjLoadFf(p, pObj, fRise >= 0 ? fRise : 0 ) );
printf( "G =%5.2f ", pCell ? Abc_SclObjLoadAve(p, pObj) / SC_CellPinCap(pCell, 0) : 0.0 );
printf( "S =%7.2f ps ", Abc_SclObjSlewPs(p, pObj, fRise >= 0 ? fRise : 0 ) );
printf( "SL =%6.2f ps", Abc_SclObjSlack(p, pObj) );
printf( "D%s =", fRise ? "r" : "f" );
printf( "%5.0f ", Abc_MaxFloat(Abc_SclObjTimePs(p, pObj, 0), Abc_SclObjTimePs(p, pObj, 1)) );
printf( "%4.0f ps ", -Abc_AbsFloat(Abc_SclObjTimePs(p, pObj, 0) - Abc_SclObjTimePs(p, pObj, 1)) );
printf( "S =%5.0f ps ", Abc_SclObjSlewPs(p, pObj, fRise >= 0 ? fRise : 0 ) );
printf( "Cin =%4.0f ff ", pCell ? Abc_SclGatePinCapAve(p->pLib, pCell) : 0.0 );
printf( "Cout =%5.0f ff ", Abc_SclObjLoadFf(p, pObj, fRise >= 0 ? fRise : 0 ) );
printf( "Cmax =%5.0f ff ", pCell ? SC_CellPin(pCell, pCell->n_inputs)->max_out_cap : 0.0 );
printf( "G =%4.1f ", pCell ? Abc_SclObjLoadAve(p, pObj) / SC_CellPinCap(pCell, 0) : 0.0 );
printf( "SL =%5.1f ps", Abc_SclObjSlack(p, pObj) );
printf( "\n" );
}
void Abc_SclTimeNtkPrint( SC_Man * p, int fShowAll, int fShort )
void Abc_SclTimeNtkPrint( SC_Man * p, int fShowAll, int fPrintPath )
{
int i, nLength = 0, fRise = 0;
Abc_Obj_t * pObj, * pPivot = Abc_SclFindCriticalCo( p, &fRise );
......@@ -134,7 +134,7 @@ void Abc_SclTimeNtkPrint( SC_Man * p, int fShowAll, int fShort )
printf( "Gates = %6d. ", Abc_NtkNodeNum(p->pNtk) );
printf( "Area = %12.2f. ", Abc_SclGetTotalArea( p ) );
printf( "Critical delay = %8.2f ps\n", maxDelay );
if ( fShort )
if ( !fPrintPath )
return;
if ( fShowAll )
......@@ -165,7 +165,7 @@ void Abc_SclTimeNtkPrint( SC_Man * p, int fShowAll, int fShort )
pObj = Abc_ObjFanin0(pPivot);
while ( pObj )//&& Abc_ObjIsNode(pObj) )
{
printf( "C-path %3d -- ", i-- );
printf( "Path%3d -- ", i-- );
Abc_SclTimeNodePrint( p, pObj, fRise, nLength, maxDelay );
pObj = Abc_SclFindMostCriticalFanin( p, &fRise, pObj );
}
......@@ -380,11 +380,11 @@ SC_Man * Abc_SclManStart( SC_Lib * pLib, Abc_Ntk_t * pNtk, int fUseWireLoads, in
SeeAlso []
***********************************************************************/
void Abc_SclTimePerform( SC_Lib * pLib, Abc_Ntk_t * pNtk, int fUseWireLoads, int fShowAll, int fShort, int fDumpStats )
void Abc_SclTimePerform( SC_Lib * pLib, Abc_Ntk_t * pNtk, int fUseWireLoads, int fShowAll, int fPrintPath, int fDumpStats )
{
SC_Man * p;
p = Abc_SclManStart( pLib, pNtk, fUseWireLoads, 1, 0 );
Abc_SclTimeNtkPrint( p, fShowAll, fShort );
Abc_SclTimeNtkPrint( p, fShowAll, fPrintPath );
if ( fDumpStats )
Abc_SclDumpStats( p, "stats.txt", 0 );
Abc_SclManFree( p );
......
......@@ -373,7 +373,7 @@ static inline void Abc_SclDumpStats( SC_Man * p, char * pFileName, abctime Time
/*=== sclBuff.c ===============================================================*/
extern int Abc_SclCheckNtk( Abc_Ntk_t * p, int fVerbose );
extern Abc_Ntk_t * Abc_SclPerformBuffering( Abc_Ntk_t * p, int Degree, int fVerbose );
extern Abc_Ntk_t * Abc_SclPerformBuffering( Abc_Ntk_t * p, int Degree, int fUseInvs, int fVerbose );
/*=== sclDnsize.c ===============================================================*/
extern void Abc_SclDnsizePerform( SC_Lib * pLib, Abc_Ntk_t * pNtk, SC_SizePars * pPars );
/*=== sclLoad.c ===============================================================*/
......@@ -382,11 +382,11 @@ extern void Abc_SclUpdateLoad( SC_Man * p, Abc_Obj_t * pObj, SC_Cell *
/*=== sclSize.c ===============================================================*/
extern Abc_Obj_t * Abc_SclFindCriticalCo( SC_Man * p, int * pfRise );
extern Abc_Obj_t * Abc_SclFindMostCriticalFanin( SC_Man * p, int * pfRise, Abc_Obj_t * pNode );
extern void Abc_SclTimeNtkPrint( SC_Man * p, int fShowAll, int fShort );
extern void Abc_SclTimeNtkPrint( SC_Man * p, int fShowAll, int fPrintPath );
extern SC_Man * Abc_SclManStart( SC_Lib * pLib, Abc_Ntk_t * pNtk, int fUseWireLoads, int fDept, float DUser );
extern void Abc_SclTimeCone( SC_Man * p, Vec_Int_t * vCone );
extern void Abc_SclTimeNtkRecompute( SC_Man * p, float * pArea, float * pDelay, int fReverse, float DUser );
extern void Abc_SclTimePerform( SC_Lib * pLib, Abc_Ntk_t * pNtk, int fUseWireLoads, int fShowAll, int fShort, int fDumpStats );
extern void Abc_SclTimePerform( SC_Lib * pLib, Abc_Ntk_t * pNtk, int fUseWireLoads, int fShowAll, int fPrintPath, int fDumpStats );
extern void Abc_SclPrintBuffers( SC_Lib * pLib, Abc_Ntk_t * pNtk, int fVerbose );
/*=== sclUpsize.c ===============================================================*/
extern void Abc_SclUpsizePerform( SC_Lib * pLib, Abc_Ntk_t * pNtk, SC_SizePars * pPars );
......
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