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author | Alan Mishchenko <alanmi@berkeley.edu> | 2007-10-01 08:01:00 -0700 |
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committer | Alan Mishchenko <alanmi@berkeley.edu> | 2007-10-01 08:01:00 -0700 |
commit | 4812c90424dfc40d26725244723887a2d16ddfd9 (patch) | |
tree | b32ace96e7e2d84d586e09ba605463b6f49c3271 /src/sat/fraig/fraigChoice.c | |
parent | e54d9691616b9a0326e2fdb3156bb4eeb8abfcd7 (diff) | |
download | abc-4812c90424dfc40d26725244723887a2d16ddfd9.tar.gz abc-4812c90424dfc40d26725244723887a2d16ddfd9.tar.bz2 abc-4812c90424dfc40d26725244723887a2d16ddfd9.zip |
Version abc71001
Diffstat (limited to 'src/sat/fraig/fraigChoice.c')
-rw-r--r-- | src/sat/fraig/fraigChoice.c | 241 |
1 files changed, 241 insertions, 0 deletions
diff --git a/src/sat/fraig/fraigChoice.c b/src/sat/fraig/fraigChoice.c new file mode 100644 index 00000000..896e5d2d --- /dev/null +++ b/src/sat/fraig/fraigChoice.c @@ -0,0 +1,241 @@ +/**CFile**************************************************************** + + FileName [fraigTrans.c] + + PackageName [MVSIS 1.3: Multi-valued logic synthesis system.] + + Synopsis [Adds the additive and distributive choices to the AIG.] + + Author [MVSIS Group] + + Affiliation [UC Berkeley] + + Date [Ver. 1.0. Started - February 1, 2003.] + + Revision [$Id: fraigTrans.c,v 1.1 2005/02/28 05:34:34 alanmi Exp $] + +***********************************************************************/ + +#include "fraigInt.h" + +//////////////////////////////////////////////////////////////////////// +/// DECLARATIONS /// +//////////////////////////////////////////////////////////////////////// + +//////////////////////////////////////////////////////////////////////// +/// FUNCTION DEFITIONS /// +//////////////////////////////////////////////////////////////////////// + +/**Function************************************************************* + + Synopsis [Adds choice nodes based on associativity.] + + Description [Make nLimit big AND gates and add all decompositions + to the Fraig.] + + SideEffects [] + + SeeAlso [] + +***********************************************************************/ +void Fraig_ManAddChoices( Fraig_Man_t * pMan, int fVerbose, int nLimit ) +{ +// ProgressBar * pProgress; + char Buffer[100]; + int clkTotal = clock(); + int i, nNodesBefore, nNodesAfter, nInputs, nMaxNodes; + int /*nMaxLevel,*/ nDistributive; + Fraig_Node_t *pNode, *pRepr; + Fraig_Node_t *pX, *pA, *pB, *pC, /* *pD,*/ *pN, /* *pQ, *pR,*/ *pT; + int fShortCut = 0; + + nDistributive = 0; + +// Fraig_ManSetApprox( pMan, 1 ); + + // NO functional reduction + if (fShortCut) Fraig_ManSetFuncRed( pMan, 0 ); + + // First we mark critical functions i.e. compute those + // nodes which lie on the critical path. Note that this + // doesn't update the required times on any choice nodes + // which are not the representatives +/* + nMaxLevel = Fraig_GetMaxLevel( pMan ); + for ( i = 0; i < pMan->nOutputs; i++ ) + { + Fraig_SetNodeRequired( pMan, pMan->pOutputs[i], nMaxLevel ); + } +*/ + nNodesBefore = Fraig_ManReadNodeNum( pMan ); + nInputs = Fraig_ManReadInputNum( pMan ); + nMaxNodes = nInputs + nLimit * ( nNodesBefore - nInputs ); + + printf ("Limit = %d, Before = %d\n", nMaxNodes, nNodesBefore ); + + if (0) + { + char buffer[128]; + sprintf (buffer, "test" ); +// Fraig_MappingShow( pMan, buffer ); + } + +// pProgress = Extra_ProgressBarStart( stdout, nMaxNodes ); +Fraig_ManCheckConsistency( pMan ); + + for ( i = nInputs+1; (i < Fraig_ManReadNodeNum( pMan )) + && (nMaxNodes > Fraig_ManReadNodeNum( pMan )); ++i ) + { +// if ( i == nNodesBefore ) +// break; + + pNode = Fraig_ManReadIthNode( pMan, i ); + assert ( pNode ); + + pRepr = pNode->pRepr ? pNode->pRepr : pNode; + //printf ("Slack: %d\n", Fraig_NodeReadSlack( pRepr )); + + // All the new associative choices we add will have huge slack + // since we do not redo timing, and timing doesnt handle choices + // well anyway. However every newly added node is a choice of an + // existing critical node, so they are considered critical. +// if ( (Fraig_NodeReadSlack( pRepr ) > 3) && (i < nNodesBefore) ) +// continue; + +// if ( pNode->pRepr ) +// continue; + + // Try ((ab)c), x = ab -> (a(bc)) and (b(ac)) + pX = Fraig_NodeReadOne(pNode); + pC = Fraig_NodeReadTwo(pNode); + if (Fraig_NodeIsAnd(pX) && !Fraig_IsComplement(pX)) + { + pA = Fraig_NodeReadOne(Fraig_Regular(pX)); + pB = Fraig_NodeReadTwo(Fraig_Regular(pX)); + +// pA = Fraig_NodeGetRepr( pA ); +// pB = Fraig_NodeGetRepr( pB ); +// pC = Fraig_NodeGetRepr( pC ); + + if (fShortCut) + { + pT = Fraig_NodeAnd(pMan, pB, pC); + if ( !pT->pRepr ) + { + pN = Fraig_NodeAnd(pMan, pA, pT); +// Fraig_NodeAddChoice( pMan, pNode, pN ); + } + } + else + pN = Fraig_NodeAnd(pMan, pA, Fraig_NodeAnd(pMan, pB, pC)); + // assert ( Fraig_NodesEqual(pN, pNode) ); + + + if (fShortCut) + { + pT = Fraig_NodeAnd(pMan, pA, pC); + if ( !pT->pRepr ) + { + pN = Fraig_NodeAnd(pMan, pB, pT); +// Fraig_NodeAddChoice( pMan, pNode, pN ); + } + } + else + pN = Fraig_NodeAnd(pMan, pB, Fraig_NodeAnd(pMan, pA, pC)); + // assert ( Fraig_NodesEqual(pN, pNode) ); + } + + + // Try (a(bc)), x = bc -> ((ab)c) and ((ac)b) + pA = Fraig_NodeReadOne(pNode); + pX = Fraig_NodeReadTwo(pNode); + if (Fraig_NodeIsAnd(pX) && !Fraig_IsComplement(pX)) + { + pB = Fraig_NodeReadOne(Fraig_Regular(pX)); + pC = Fraig_NodeReadTwo(Fraig_Regular(pX)); + +// pA = Fraig_NodeGetRepr( pA ); +// pB = Fraig_NodeGetRepr( pB ); +// pC = Fraig_NodeGetRepr( pC ); + + if (fShortCut) + { + pT = Fraig_NodeAnd(pMan, pA, pB); + if ( !pT->pRepr ) + { + pN = Fraig_NodeAnd(pMan, pC, pT); +// Fraig_NodeAddChoice( pMan, pNode, pN ); + } + } + else + pN = Fraig_NodeAnd(pMan, Fraig_NodeAnd(pMan, pA, pB), pC); + // assert ( Fraig_NodesEqual(pN, pNode) ); + + if (fShortCut) + { + pT = Fraig_NodeAnd(pMan, pA, pC); + if ( !pT->pRepr ) + { + pN = Fraig_NodeAnd(pMan, pB, pT); +// Fraig_NodeAddChoice( pMan, pNode, pN ); + } + } + else + pN = Fraig_NodeAnd(pMan, Fraig_NodeAnd(pMan, pA, pC), pB); + // assert ( Fraig_NodesEqual(pN, pNode) ); + } + + +/* + // Try distributive transform + pQ = Fraig_NodeReadOne(pNode); + pR = Fraig_NodeReadTwo(pNode); + if ( (Fraig_IsComplement(pQ) && Fraig_NodeIsAnd(pQ)) + && (Fraig_IsComplement(pR) && Fraig_NodeIsAnd(pR)) ) + { + pA = Fraig_NodeReadOne(Fraig_Regular(pQ)); + pB = Fraig_NodeReadTwo(Fraig_Regular(pQ)); + pC = Fraig_NodeReadOne(Fraig_Regular(pR)); + pD = Fraig_NodeReadTwo(Fraig_Regular(pR)); + + // Now detect the !(xy + xz) pattern, store + // x in pA, y in pB and z in pC and set pD = 0 to indicate + // pattern was found + assert (pD != 0); + if (pA == pC) { pC = pD; pD = 0; } + if (pA == pD) { pD = 0; } + if (pB == pC) { pB = pA; pA = pC; pC = pD; pD = 0; } + if (pB == pD) { pB = pA; pA = pD; pD = 0; } + if (pD == 0) + { + nDistributive++; + pN = Fraig_Not(Fraig_NodeAnd(pMan, pA, + Fraig_NodeOr(pMan, pB, pC))); + if (fShortCut) Fraig_NodeAddChoice( pMan, pNode, pN ); + // assert ( Fraig_NodesEqual(pN, pNode) ); + } + } +*/ + if ( i % 1000 == 0 ) + { + sprintf( Buffer, "Adding choice %6d...", i - nNodesBefore ); +// Extra_ProgressBarUpdate( pProgress, i, Buffer ); + } + } + +// Extra_ProgressBarStop( pProgress ); + +Fraig_ManCheckConsistency( pMan ); + + nNodesAfter = Fraig_ManReadNodeNum( pMan ); + printf ( "Nodes before = %6d. Nodes with associative choices = %6d. Increase = %4.2f %%.\n", + nNodesBefore, nNodesAfter, ((float)(nNodesAfter - nNodesBefore)) * 100.0/(nNodesBefore - nInputs) ); + printf ( "Distributive = %d\n", nDistributive ); + +} + +//////////////////////////////////////////////////////////////////////// +/// END OF FILE /// +//////////////////////////////////////////////////////////////////////// + + |