diff options
Diffstat (limited to 'src/base/abci')
| -rw-r--r-- | src/base/abci/abc.c | 117 | ||||
| -rw-r--r-- | src/base/abci/abcDsdRes.c | 563 | ||||
| -rw-r--r-- | src/base/abci/module.make | 1 |
3 files changed, 681 insertions, 0 deletions
diff --git a/src/base/abci/abc.c b/src/base/abci/abc.c index e76c0261..753a2fb7 100644 --- a/src/base/abci/abc.c +++ b/src/base/abci/abc.c @@ -63,6 +63,7 @@ static int Abc_CommandSweep ( Abc_Frame_t * pAbc, int argc, char ** arg static int Abc_CommandFastExtract ( Abc_Frame_t * pAbc, int argc, char ** argv ); static int Abc_CommandDisjoint ( Abc_Frame_t * pAbc, int argc, char ** argv ); static int Abc_CommandImfs ( Abc_Frame_t * pAbc, int argc, char ** argv ); +static int Abc_CommandLutjam ( Abc_Frame_t * pAbc, int argc, char ** argv ); static int Abc_CommandRewrite ( Abc_Frame_t * pAbc, int argc, char ** argv ); static int Abc_CommandRefactor ( Abc_Frame_t * pAbc, int argc, char ** argv ); @@ -217,6 +218,7 @@ void Abc_Init( Abc_Frame_t * pAbc ) Cmd_CommandAdd( pAbc, "Synthesis", "fx", Abc_CommandFastExtract, 1 ); Cmd_CommandAdd( pAbc, "Synthesis", "dsd", Abc_CommandDisjoint, 1 ); Cmd_CommandAdd( pAbc, "Synthesis", "imfs", Abc_CommandImfs, 1 ); + Cmd_CommandAdd( pAbc, "Synthesis", "lutjam", Abc_CommandLutjam, 1 ); Cmd_CommandAdd( pAbc, "Synthesis", "rewrite", Abc_CommandRewrite, 1 ); Cmd_CommandAdd( pAbc, "Synthesis", "refactor", Abc_CommandRefactor, 1 ); @@ -2876,6 +2878,121 @@ usage: return 1; } +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_CommandLutjam( Abc_Frame_t * pAbc, int argc, char ** argv ) +{ + FILE * pOut, * pErr; + Abc_Ntk_t * pNtk; + Lut_Par_t Pars, * pPars = &Pars; + int c; + extern int Abc_LutResynthesize( Abc_Ntk_t * pNtk, Lut_Par_t * pPars ); + +// printf( "Implementation of this command is not finished.\n" ); +// return 1; + + pNtk = Abc_FrameReadNtk(pAbc); + pOut = Abc_FrameReadOut(pAbc); + pErr = Abc_FrameReadErr(pAbc); + + // set defaults + memset( pPars, 0, sizeof(Lut_Par_t) ); + pPars->nLutsMax = 4; // (N) the maximum number of LUTs in the structure + pPars->nLutsOver = 1; // (Q) the maximum number of LUTs not in the MFFC + pPars->nVarsShared = 0; // (S) the maximum number of shared variables (crossbars) + pPars->fVerbose = 0; + pPars->fVeryVerbose = 0; + Extra_UtilGetoptReset(); + while ( ( c = Extra_UtilGetopt( argc, argv, "NQSvwh" ) ) != EOF ) + { + switch ( c ) + { + case 'N': + if ( globalUtilOptind >= argc ) + { + fprintf( pErr, "Command line switch \"-N\" should be followed by an integer.\n" ); + goto usage; + } + pPars->nLutsMax = atoi(argv[globalUtilOptind]); + globalUtilOptind++; + if ( pPars->nLutsMax < 2 || pPars->nLutsMax > 8 ) + goto usage; + break; + case 'Q': + if ( globalUtilOptind >= argc ) + { + fprintf( pErr, "Command line switch \"-Q\" should be followed by an integer.\n" ); + goto usage; + } + pPars->nLutsOver = atoi(argv[globalUtilOptind]); + globalUtilOptind++; + if ( pPars->nLutsOver < 0 || pPars->nLutsOver > 8 ) + goto usage; + break; + case 'S': + if ( globalUtilOptind >= argc ) + { + fprintf( pErr, "Command line switch \"-S\" should be followed by an integer.\n" ); + goto usage; + } + pPars->nVarsShared = atoi(argv[globalUtilOptind]); + globalUtilOptind++; + if ( pPars->nVarsShared < 0 || pPars->nVarsShared > 4 ) + goto usage; + break; + case 'v': + pPars->fVerbose ^= 1; + break; + case 'w': + pPars->fVeryVerbose ^= 1; + break; + case 'h': + goto usage; + default: + goto usage; + } + } + + if ( pNtk == NULL ) + { + fprintf( pErr, "Empty network.\n" ); + return 1; + } + if ( !Abc_NtkIsLogic(pNtk) ) + { + fprintf( pErr, "This command can only be applied to a logic network.\n" ); + return 1; + } + + // modify the current network + if ( !Abc_LutResynthesize( pNtk, pPars ) ) + { + fprintf( pErr, "Resynthesis has failed.\n" ); + return 1; + } + return 0; + +usage: + fprintf( pErr, "usage: lutjam [-N <num>] [-Q <num>] [-S <num>] [-vwh]\n" ); + fprintf( pErr, "\t performs \"rewriting\" for LUT networks\n" ); + fprintf( pErr, "\t-N <num> : the max number of LUTs in the structure (2 <= num) [default = %d]\n", pPars->nLutsMax ); + fprintf( pErr, "\t-Q <num> : the max number of LUTs not in MFFC (0 <= num) [default = %d]\n", pPars->nLutsOver ); + fprintf( pErr, "\t-S <num> : the max number of LUT inputs shared (0 <= num) [default = %d]\n", pPars->nVarsShared ); + fprintf( pErr, "\t-v : toggle verbose printout [default = %s]\n", pPars->fVerbose? "yes": "no" ); + fprintf( pErr, "\t-w : toggle printout subgraph statistics [default = %s]\n", pPars->fVeryVerbose? "yes": "no" ); + fprintf( pErr, "\t-h : print the command usage\n"); + return 1; +} + /**Function************************************************************* diff --git a/src/base/abci/abcDsdRes.c b/src/base/abci/abcDsdRes.c new file mode 100644 index 00000000..68748577 --- /dev/null +++ b/src/base/abci/abcDsdRes.c @@ -0,0 +1,563 @@ +/**CFile**************************************************************** + + FileName [abcDsdRes.c] + + SystemName [ABC: Logic synthesis and verification system.] + + PackageName [Network and node package.] + + Synopsis [] + + Author [Alan Mishchenko] + + Affiliation [UC Berkeley] + + Date [Ver. 1.0. Started - June 20, 2005.] + + Revision [$Id: abcDsdRes.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $] + +***********************************************************************/ + +#include "abc.h" + +//////////////////////////////////////////////////////////////////////// +/// DECLARATIONS /// +//////////////////////////////////////////////////////////////////////// + +#define LUT_SIZE_MAX 16 // the largest size of the function +#define LUT_CUTS_MAX 128 // the largest number of cuts considered + +typedef struct Lut_Man_t_ Lut_Man_t; +typedef struct Lut_Cut_t_ Lut_Cut_t; + +struct Lut_Cut_t_ +{ + unsigned nLeaves : 6; // (L) the number of leaves + unsigned nNodes : 6; // (M) the number of nodes + unsigned nNodesMarked : 6; // (Q) nodes outside of MFFC + unsigned nNodesMax : 6; // the max number of nodes + unsigned nLeavesMax : 6; // the max number of leaves + unsigned fHasDsd : 1; // set to 1 if the cut has structural DSD (and so cannot be used) + unsigned fMark : 1; // multipurpose mark +// unsigned uSign[2]; // the signature + float Weight; // the weight of the cut: (M - Q)/N(V) (the larger the better) + int pLeaves[LUT_SIZE_MAX]; // the leaves of the cut + int pNodes[LUT_SIZE_MAX]; // the nodes of the cut +}; + +struct Lut_Man_t_ +{ + // parameters + Lut_Par_t * pPars; // the set of parameters + // current representation + Abc_Ntk_t * pNtk; // the network + Abc_Obj_t * pObj; // the node to resynthesize + // cut representation + int nCuts; // the total number of cuts + int nCutsMax; // the largest possible number of cuts + int nEvals; // the number of good cuts + Lut_Cut_t pCuts[LUT_CUTS_MAX]; // the storage for cuts + int pEvals[LUT_SIZE_MAX]; // the good cuts + // temporary variables + int pRefs[LUT_SIZE_MAX]; // fanin reference counters + int pCands[LUT_SIZE_MAX]; // internal nodes pointing only to the leaves + // truth table representation + Vec_Ptr_t * vTtElems; // elementary truth tables + Vec_Ptr_t * vTtNodes; // storage for temporary truth tables of the nodes +}; + +static int Abc_LutResynthesizeNode( Lut_Man_t * p ); + +#define Abc_LutCutForEachLeaf( pNtk, pCut, pObj, i ) \ + for ( i = 0; (i < (int)(pCut)->nLeaves) && (((pObj) = Abc_NtkObj(pNtk, (pCut)->pLeaves[i])), 1); i++ ) +#define Abc_LutCutForEachNode( pNtk, pCut, pObj, i ) \ + for ( i = 0; (i < (int)(pCut)->nNodes) && (((pObj) = Abc_NtkObj(pNtk, (pCut)->pNodes[i])), 1); i++ ) + +//////////////////////////////////////////////////////////////////////// +/// FUNCTION DEFINITIONS /// +//////////////////////////////////////////////////////////////////////// + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +Lut_Man_t * Abc_LutManStart( Lut_Par_t * pPars ) +{ + Lut_Man_t * p; + int i; + assert( pPars->nLutsMax <= 16 ); + p = ALLOC( Lut_Man_t, 1 ); + memset( p, 0, sizeof(Lut_Man_t) ); + p->pPars = pPars; + p->nCutsMax = LUT_CUTS_MAX; + for ( i = 0; i < p->nCuts; i++ ) + p->pCuts[i].nLeavesMax = p->pCuts[i].nNodesMax = LUT_SIZE_MAX; + p->vTtElems = Vec_PtrAllocTruthTables( pPars->nLutsMax ); + p->vTtNodes = Vec_PtrAllocSimInfo( 256, Abc_TruthWordNum(pPars->nLutsMax) ); + return p; +} + +/**Function************************************************************* + + Synopsis [] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Abc_LutManStop( Lut_Man_t * p ) +{ + Vec_PtrFree( p->vTtElems ); + Vec_PtrFree( p->vTtNodes ); + free( p ); +} + +/**Function************************************************************* + + Synopsis [Performs resynthesis for one network.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_LutResynthesize( Abc_Ntk_t * pNtk, Lut_Par_t * pPars ) +{ + Lut_Man_t * p; + Abc_Obj_t * pObj; + int i; + assert( Abc_NtkIsLogic(pNtk) ); + // convert logic to AIGs + Abc_NtkToAig( pNtk ); + // compute the levels + Abc_NtkLevel( pNtk ); + // start the manager + p = Abc_LutManStart( pPars ); + p->pNtk = pNtk; + // get the number of inputs + p->pPars->nLutSize = Abc_NtkGetFaninMax( pNtk ); + p->pPars->nVarsMax = p->pPars->nLutsMax * (p->pPars->nLutSize - 1) + 1; // V = N * (K-1) + 1 + printf( "Resynthesis for %d %d-LUTs with %d non-MFFC LUTs, %d crossbars, and %d-input cuts.\n", + p->pPars->nLutsMax, p->pPars->nLutSize, p->pPars->nLutsOver, p->pPars->nVarsShared, p->pPars->nVarsMax ); + // consider all nodes + Abc_NtkForEachNode( pNtk, pObj, i ) + { + p->pObj = pObj; + Abc_LutResynthesizeNode( p ); + } + Abc_LutManStop( p ); + // check the resulting network + if ( !Abc_NtkCheck( pNtk ) ) + { + printf( "Abc_LutResynthesize: The network check has failed.\n" ); + return 0; + } + return 1; +} + +/**Function************************************************************* + + Synopsis [Returns 1 if the cut has structural DSD.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_LutNodeCutsCheckDsd( Lut_Man_t * p, Lut_Cut_t * pCut ) +{ + Abc_Obj_t * pObj, * pFanin; + int i, k, nCands, fLeavesOnly, RetValue; + assert( pCut->nLeaves > 0 ); + // clear ref counters + memset( p->pRefs, 0, sizeof(int) * pCut->nLeaves ); + // mark cut leaves + Abc_LutCutForEachLeaf( p->pNtk, pCut, pObj, i ) + { + assert( pObj->fMarkA == 0 ); + pObj->fMarkA = 1; + pObj->pCopy = (void *)i; + } + // ref leaves pointed from the internal nodes + nCands = 0; + Abc_LutCutForEachNode( p->pNtk, pCut, pObj, i ) + { + fLeavesOnly = 1; + Abc_ObjForEachFanin( pObj, pFanin, k ) + if ( pFanin->fMarkA ) + p->pRefs[(int)pFanin->pCopy]++; + else + fLeavesOnly = 0; + if ( fLeavesOnly ) + p->pCands[nCands++] = pObj->Id; + } + // look at the nodes that only point to the leaves + RetValue = 0; + for ( i = 0; i < nCands; i++ ) + { + pObj = Abc_NtkObj( p->pNtk, p->pCands[i] ); + Abc_ObjForEachFanin( pObj, pFanin, k ) + { + assert( pFanin->fMarkA == 1 ); + if ( p->pRefs[(int)pFanin->pCopy] > 1 ) + break; + } + if ( k == Abc_ObjFaninNum(pFanin) ) + { + RetValue = 1; + break; + } + } + // unmark cut leaves + Abc_LutCutForEachLeaf( p->pNtk, pCut, pObj, i ) + pObj->fMarkA = 0; + return RetValue; +} + +/**Function************************************************************* + + Synopsis [Returns 1 if pDom is contained in pCut.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +static inline int Abc_LutNodeCutsOneDominance( Lut_Cut_t * pDom, Lut_Cut_t * pCut ) +{ + int i, k; + for ( i = 0; i < (int)pDom->nLeaves; i++ ) + { + for ( k = 0; k < (int)pCut->nLeaves; k++ ) + if ( pDom->pLeaves[i] == pCut->pLeaves[k] ) + break; + if ( k == (int)pCut->nLeaves ) // node i in pDom is not contained in pCut + return 0; + } + // every node in pDom is contained in pCut + return 1; +} + +/**Function************************************************************* + + Synopsis [Check if the cut exists.] + + Description [Returns 1 if the cut exists.] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_LutNodeCutsOneFilter( Lut_Cut_t * pCuts, int nCuts, Lut_Cut_t * pCutNew ) +{ + Lut_Cut_t * pCut; + int i, k; +// assert( pCutNew->uHash ); + // try to find the cut + for ( i = 0; i < nCuts; i++ ) + { + pCut = pCuts + i; + if ( pCut->nLeaves == 0 ) + continue; + if ( pCut->nLeaves == pCutNew->nLeaves ) + { +// if ( pCut->uHash[0] == pCutNew->uHash[0] && pCut->uHash[1] == pCutNew->uHash[1] ) + { + for ( k = 0; k < (int)pCutNew->nLeaves; k++ ) + if ( pCut->pLeaves[k] != pCutNew->pLeaves[k] ) + break; + if ( k == (int)pCutNew->nLeaves ) + return 1; + } + continue; + } + if ( pCut->nLeaves < pCutNew->nLeaves ) + { + // skip the non-contained cuts +// if ( (pCut->uHash[0] & pCutNew->uHash[0]) != pCut->uHash[0] ) +// continue; +// if ( (pCut->uHash[1] & pCutNew->uHash[1]) != pCut->uHash[1] ) +// continue; + // check containment seriously + if ( Abc_LutNodeCutsOneDominance( pCut, pCutNew ) ) + return 1; + continue; + } + // check potential containment of other cut + + // skip the non-contained cuts +// if ( (pCut->uHash[0] & pCutNew->uHash[0]) != pCutNew->uHash[0] ) +// continue; +// if ( (pCut->uHash[1] & pCutNew->uHash[1]) != pCutNew->uHash[1] ) +// continue; + // check containment seriously + if ( Abc_LutNodeCutsOneDominance( pCutNew, pCut ) ) + pCut->nLeaves = 0; // removed + } + return 0; +} + +/**Function************************************************************* + + Synopsis [Computes the set of all cuts.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Abc_LutNodeCutsOne( Lut_Man_t * p, Lut_Cut_t * pCut, int Node ) +{ + Lut_Cut_t * pCutNew; + Abc_Obj_t * pObj, * pFanin; + int i, k, j; + + // check if the cut can stand adding one more internal node + if ( pCut->nNodes == LUT_SIZE_MAX ) + return; + + // if the node is not in the MFFC, check the limit + pObj = Abc_NtkObj( p->pNtk, Node ); + if ( !Abc_NodeIsTravIdCurrent(pObj) ) + { + if ( (int)pCut->nNodesMarked == p->pPars->nLutsOver ) + return; + assert( (int)pCut->nNodesMarked < p->pPars->nLutsOver ); + } + + // create the new set of leaves + pCutNew = p->pCuts + p->nCuts; + pCutNew->nLeaves = 0; + for ( i = 0; i < (int)pCut->nLeaves; i++ ) + if ( pCut->pLeaves[i] != Node ) + pCutNew->pLeaves[pCutNew->nLeaves++] = pCut->pLeaves[i]; + + // add new nodes + Abc_ObjForEachFanin( pObj, pFanin, i ) + { + // find the place where this node belongs + for ( k = 0; k < (int)pCutNew->nLeaves; k++ ) + if ( pCutNew->pLeaves[k] >= pFanin->Id ) + break; + if ( pCutNew->pLeaves[k] == pFanin->Id ) + continue; + // check if there is room + if ( (int)pCutNew->nLeaves == p->pPars->nVarsMax ) + return; + // move all the nodes + for ( j = pCutNew->nLeaves; j > k; j-- ) + pCutNew->pLeaves[j] = pCutNew->pLeaves[j-1]; + pCutNew->pLeaves[k] = pFanin->Id; + pCutNew->nLeaves++; + assert( pCutNew->nLeaves <= LUT_SIZE_MAX ); + } + + // skip the contained cuts + if ( Abc_LutNodeCutsOneFilter( p->pCuts, p->nCuts, pCutNew ) ) + return; + + // update the set of internal nodes + assert( pCut->nNodes < LUT_SIZE_MAX ); + memcpy( pCutNew->pNodes, pCutNew->pNodes, pCut->nNodes * sizeof(int) ); + pCutNew->pNodes[ pCut->nNodes++ ] = Node; + + // add the marked node + pCutNew->nNodesMarked = pCut->nNodesMarked + !Abc_NodeIsTravIdCurrent(pObj); + + // add the cut to storage + assert( p->nCuts < LUT_CUTS_MAX ); + p->nCuts++; + +} + +/**Function************************************************************* + + Synopsis [Computes the set of all cuts.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_LutNodeCuts( Lut_Man_t * p ) +{ + Abc_Obj_t * pFanin; + Lut_Cut_t * pCut, * pCut2; + int i, k, Temp, nMffc, fChanges; + + // mark the MFFC of the node with the current trav ID + nMffc = Abc_NodeMffcLabel( p->pObj ); + assert( nMffc > 0 ); + if ( nMffc == 1 ) + return 0; + + // initialize the first cut + pCut = p->pCuts; + // assign internal nodes + pCut->nNodes = 1; + pCut->pNodes[0] = p->pObj->Id; + pCut->nNodesMarked = 0; + // assign the leaves + pCut->nLeaves = Abc_ObjFaninNum( p->pObj ); + Abc_ObjForEachFanin( p->pObj, pFanin, i ) + pCut->pLeaves[i] = pFanin->Id; + // sort the leaves + do { + fChanges = 0; + for ( i = 0; i < (int)pCut->nLeaves - 1; i++ ) + { + if ( pCut->pLeaves[i] <= pCut->pLeaves[i+1] ) + continue; + Temp = pCut->pLeaves[i]; + pCut->pLeaves[i] = pCut->pLeaves[i+1]; + pCut->pLeaves[i+1] = Temp; + fChanges = 1; + } + } while ( fChanges ); + + // perform the cut computation + for ( i = 0; i < p->nCuts; i++ ) + { + pCut = p->pCuts + p->pEvals[i]; + if ( pCut->nLeaves == 0 ) + continue; + // try to expand each fanin of each cut + for ( k = 0; k < (int)pCut->nLeaves; k++ ) + { + Abc_LutNodeCutsOne( p, pCut, pCut->pLeaves[k] ); + if ( p->nCuts == LUT_CUTS_MAX ) + break; + } + if ( p->nCuts == LUT_CUTS_MAX ) + break; + } + + // compress the cuts by removing empty ones, decomposable ones, and those with negative Weight + p->nEvals = 0; + for ( i = 0; i < p->nCuts; i++ ) + { + pCut = p->pCuts + p->pEvals[i]; + pCut->Weight = (float)1.0 * (pCut->nNodes - pCut->nNodesMarked) / p->pPars->nLutsMax; + pCut->fHasDsd = Abc_LutNodeCutsCheckDsd( p, pCut ); + if ( pCut->nLeaves == 0 || pCut->Weight <= 1.0 || pCut->fHasDsd ) + continue; + p->pEvals[p->nEvals++] = i; + } + if ( p->nEvals == 0 ) + return 0; + + // sort the cuts by Weight + do { + fChanges = 0; + for ( i = 0; i < p->nEvals - 1; i++ ) + { + pCut = p->pCuts + p->pEvals[i]; + pCut2 = p->pCuts + p->pEvals[i+1]; + if ( pCut->Weight >= pCut2->Weight ) + continue; + Temp = p->pEvals[i]; + p->pEvals[i] = p->pEvals[i+1]; + p->pEvals[i+1] = Temp; + fChanges = 1; + } + } while ( fChanges ); + return 1; +} + +/**Function************************************************************* + + Synopsis [Computes the truth able of one cut.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +unsigned * Abc_LutCutTruth( Lut_Man_t * p, Lut_Cut_t * pCut ) +{ + unsigned * pTruth = NULL; + return pTruth; +} + +/**Function************************************************************* + + Synopsis [Implements the given DSD network.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_LutCutUpdate( Lut_Man_t * p, Lut_Cut_t * pCut, void * pDsd ) +{ + return 1; +} + +/**Function************************************************************* + + Synopsis [Performs resynthesis for one node.] + + Description [] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +int Abc_LutResynthesizeNode( Lut_Man_t * p ) +{ + Lut_Cut_t * pCut; + unsigned * pTruth; + void * pDsd; + int i; + // compute the cuts + if ( !Abc_LutNodeCuts( p ) ) + return 0; + // try the good cuts + for ( i = 0; i < p->nEvals; i++ ) + { + // get the cut + pCut = p->pCuts + p->pEvals[i]; + // compute the truth table + pTruth = Abc_LutCutTruth( p, pCut ); + // check decomposition + pDsd = /***/ NULL; + // if it is not DSD decomposable, return + if ( pDsd == NULL ) + continue; + // update the network + Abc_LutCutUpdate( p, pCut, pDsd ); + } + return 1; +} + +//////////////////////////////////////////////////////////////////////// +/// END OF FILE /// +//////////////////////////////////////////////////////////////////////// + + diff --git a/src/base/abci/module.make b/src/base/abci/module.make index acac466b..e8eb6c7f 100644 --- a/src/base/abci/module.make +++ b/src/base/abci/module.make @@ -10,6 +10,7 @@ SRC += src/base/abci/abc.c \ src/base/abci/abcDebug.c \ src/base/abci/abcDress.c \ src/base/abci/abcDsd.c \ + src/base/abci/abcDsdRes.c \ src/base/abci/abcEspresso.c \ src/base/abci/abcExtract.c \ src/base/abci/abcFpga.c \ |