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/**CFile****************************************************************
FileName [saigBmc.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Sequential AIG package.]
Synopsis [Simple BMC package.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: saigBmc.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#include "saig.h"
#include "src/proof/fra/fra.h"
#include "src/sat/cnf/cnf.h"
#include "src/sat/bsat/satStore.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Create timeframes of the manager for BMC.]
Description [The resulting manager is combinational. POs correspond to \
the property outputs in each time-frame.]
SideEffects []
SeeAlso []
***********************************************************************/
Aig_Man_t * Saig_ManFramesBmc( Aig_Man_t * pAig, int nFrames )
{
Aig_Man_t * pFrames;
Aig_Obj_t * pObj, * pObjLi, * pObjLo;
int i, f;
assert( Saig_ManRegNum(pAig) > 0 );
pFrames = Aig_ManStart( Aig_ManNodeNum(pAig) * nFrames );
// map the constant node
Aig_ManConst1(pAig)->pData = Aig_ManConst1( pFrames );
// create variables for register outputs
Saig_ManForEachLo( pAig, pObj, i )
pObj->pData = Aig_ManConst0( pFrames );
// add timeframes
for ( f = 0; f < nFrames; f++ )
{
// create PI nodes for this frame
Saig_ManForEachPi( pAig, pObj, i )
pObj->pData = Aig_ObjCreatePi( pFrames );
// add internal nodes of this frame
Aig_ManForEachNode( pAig, pObj, i )
pObj->pData = Aig_And( pFrames, Aig_ObjChild0Copy(pObj), Aig_ObjChild1Copy(pObj) );
// create POs for this frame
Saig_ManForEachPo( pAig, pObj, i )
Aig_ObjCreatePo( pFrames, Aig_ObjChild0Copy(pObj) );
if ( f == nFrames - 1 )
break;
// save register inputs
Saig_ManForEachLi( pAig, pObj, i )
pObj->pData = Aig_ObjChild0Copy(pObj);
// transfer to register outputs
Saig_ManForEachLiLo( pAig, pObjLi, pObjLo, i )
pObjLo->pData = pObjLi->pData;
}
Aig_ManCleanup( pFrames );
return pFrames;
}
/**Function*************************************************************
Synopsis [Returns the number of internal nodes that are not counted yet.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Saig_ManFramesCount_rec( Aig_Man_t * p, Aig_Obj_t * pObj )
{
if ( !Aig_ObjIsNode(pObj) )
return 0;
if ( Aig_ObjIsTravIdCurrent(p, pObj) )
return 0;
Aig_ObjSetTravIdCurrent(p, pObj);
return 1 + Saig_ManFramesCount_rec( p, Aig_ObjFanin0(pObj) ) +
Saig_ManFramesCount_rec( p, Aig_ObjFanin1(pObj) );
}
/**Function*************************************************************
Synopsis [Create timeframes of the manager for BMC.]
Description [The resulting manager is combinational. POs correspond to
the property outputs in each time-frame.
The unrolling is stopped as soon as the number of nodes in the frames
exceeds the given maximum size.]
SideEffects []
SeeAlso []
***********************************************************************/
Aig_Man_t * Saig_ManFramesBmcLimit( Aig_Man_t * pAig, int nFrames, int nSizeMax )
{
Aig_Man_t * pFrames;
Aig_Obj_t * pObj, * pObjLi, * pObjLo, * pObjPo;
int i, f, Counter = 0;
assert( Saig_ManRegNum(pAig) > 0 );
pFrames = Aig_ManStart( nSizeMax );
Aig_ManIncrementTravId( pFrames );
// map the constant node
Aig_ManConst1(pAig)->pData = Aig_ManConst1( pFrames );
// create variables for register outputs
Saig_ManForEachLo( pAig, pObj, i )
pObj->pData = Aig_ManConst0( pFrames );
// add timeframes
Counter = 0;
for ( f = 0; f < nFrames; f++ )
{
// create PI nodes for this frame
Saig_ManForEachPi( pAig, pObj, i )
pObj->pData = Aig_ObjCreatePi( pFrames );
// add internal nodes of this frame
Aig_ManForEachNode( pAig, pObj, i )
pObj->pData = Aig_And( pFrames, Aig_ObjChild0Copy(pObj), Aig_ObjChild1Copy(pObj) );
// create POs for this frame
Saig_ManForEachPo( pAig, pObj, i )
{
pObjPo = Aig_ObjCreatePo( pFrames, Aig_ObjChild0Copy(pObj) );
Counter += Saig_ManFramesCount_rec( pFrames, Aig_ObjFanin0(pObjPo) );
}
if ( Counter >= nSizeMax )
{
Aig_ManCleanup( pFrames );
return pFrames;
}
if ( f == nFrames - 1 )
break;
// save register inputs
Saig_ManForEachLi( pAig, pObj, i )
pObj->pData = Aig_ObjChild0Copy(pObj);
// transfer to register outputs
Saig_ManForEachLiLo( pAig, pObjLi, pObjLo, i )
pObjLo->pData = pObjLi->pData;
}
Aig_ManCleanup( pFrames );
return pFrames;
}
ABC_NAMESPACE_IMPL_END
#include "src/misc/util/utilMem.h"
ABC_NAMESPACE_IMPL_START
/**Function*************************************************************
Synopsis [Performs BMC for the given AIG.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int Saig_ManBmcSimple( Aig_Man_t * pAig, int nFrames, int nSizeMax, int nConfLimit, int fRewrite, int fVerbose, int * piFrame, int nCofFanLit )
{
extern Aig_Man_t * Gia_ManCofactorAig( Aig_Man_t * p, int nFrames, int nCofFanLit );
sat_solver * pSat;
Cnf_Dat_t * pCnf;
Aig_Man_t * pFrames, * pAigTemp;
Aig_Obj_t * pObj;
int status, clk, Lit, i, RetValue = -1;
// derive the timeframes
clk = clock();
if ( nCofFanLit )
{
pFrames = Gia_ManCofactorAig( pAig, nFrames, nCofFanLit );
if ( pFrames == NULL )
return -1;
}
else if ( nSizeMax > 0 )
{
pFrames = Saig_ManFramesBmcLimit( pAig, nFrames, nSizeMax );
nFrames = Aig_ManPoNum(pFrames) / Saig_ManPoNum(pAig) + ((Aig_ManPoNum(pFrames) % Saig_ManPoNum(pAig)) > 0);
}
else
pFrames = Saig_ManFramesBmc( pAig, nFrames );
if ( piFrame )
*piFrame = nFrames;
if ( fVerbose )
{
printf( "Running \"bmc\". AIG: PI/PO/Reg = %d/%d/%d. Node = %6d. Lev = %5d.\n",
Saig_ManPiNum(pAig), Saig_ManPoNum(pAig), Saig_ManRegNum(pAig),
Aig_ManNodeNum(pAig), Aig_ManLevelNum(pAig) );
printf( "Time-frames (%d): PI/PO = %d/%d. Node = %6d. Lev = %5d. ",
nFrames, Aig_ManPiNum(pFrames), Aig_ManPoNum(pFrames),
Aig_ManNodeNum(pFrames), Aig_ManLevelNum(pFrames) );
ABC_PRT( "Time", clock() - clk );
fflush( stdout );
}
// rewrite the timeframes
if ( fRewrite )
{
clk = clock();
// pFrames = Dar_ManBalance( pAigTemp = pFrames, 0 );
pFrames = Dar_ManRwsat( pAigTemp = pFrames, 1, 0 );
Aig_ManStop( pAigTemp );
if ( fVerbose )
{
printf( "Time-frames after rewriting: Node = %6d. Lev = %5d. ",
Aig_ManNodeNum(pFrames), Aig_ManLevelNum(pFrames) );
ABC_PRT( "Time", clock() - clk );
fflush( stdout );
}
}
// create the SAT solver
clk = clock();
pCnf = Cnf_Derive( pFrames, Aig_ManPoNum(pFrames) );
//if ( s_fInterrupt )
//return -1;
pSat = sat_solver_new();
sat_solver_setnvars( pSat, pCnf->nVars );
for ( i = 0; i < pCnf->nClauses; i++ )
{
if ( !sat_solver_addclause( pSat, pCnf->pClauses[i], pCnf->pClauses[i+1] ) )
assert( 0 );
}
if ( fVerbose )
{
printf( "CNF: Variables = %6d. Clauses = %7d. Literals = %8d. ", pCnf->nVars, pCnf->nClauses, pCnf->nLiterals );
ABC_PRT( "Time", clock() - clk );
fflush( stdout );
}
status = sat_solver_simplify(pSat);
if ( status == 0 )
{
if ( fVerbose )
{
printf( "The BMC problem is trivially UNSAT\n" );
fflush( stdout );
}
}
else
{
int clkPart = clock();
Aig_ManForEachPo( pFrames, pObj, i )
{
//if ( s_fInterrupt )
//return -1;
Lit = toLitCond( pCnf->pVarNums[pObj->Id], 0 );
if ( fVerbose )
{
printf( "Solving output %2d of frame %3d ... \r",
i % Saig_ManPoNum(pAig), i / Saig_ManPoNum(pAig) );
}
clk = clock();
status = sat_solver_solve( pSat, &Lit, &Lit + 1, (ABC_INT64_T)nConfLimit, (ABC_INT64_T)0, (ABC_INT64_T)0, (ABC_INT64_T)0 );
if ( fVerbose && (i % Saig_ManPoNum(pAig) == Saig_ManPoNum(pAig) - 1) )
{
printf( "Solved %2d outputs of frame %3d. ",
Saig_ManPoNum(pAig), i / Saig_ManPoNum(pAig) );
printf( "Conf =%8.0f. Imp =%11.0f. ", (double)pSat->stats.conflicts, (double)pSat->stats.propagations );
ABC_PRT( "T", clock() - clkPart );
clkPart = clock();
fflush( stdout );
}
if ( status == l_False )
{
/*
Lit = lit_neg( Lit );
RetValue = sat_solver_addclause( pSat, &Lit, &Lit + 1 );
assert( RetValue );
if ( pSat->qtail != pSat->qhead )
{
RetValue = sat_solver_simplify(pSat);
assert( RetValue );
}
*/
}
else if ( status == l_True )
{
Vec_Int_t * vCiIds = Cnf_DataCollectPiSatNums( pCnf, pFrames );
int * pModel = Sat_SolverGetModel( pSat, vCiIds->pArray, vCiIds->nSize );
pModel[Aig_ManPiNum(pFrames)] = pObj->Id;
pAig->pSeqModel = Fra_SmlCopyCounterExample( pAig, pFrames, pModel );
ABC_FREE( pModel );
Vec_IntFree( vCiIds );
if ( piFrame )
*piFrame = i / Saig_ManPoNum(pAig);
RetValue = 0;
break;
}
else
{
if ( piFrame )
*piFrame = i / Saig_ManPoNum(pAig);
RetValue = -1;
break;
}
}
}
sat_solver_delete( pSat );
Cnf_DataFree( pCnf );
Aig_ManStop( pFrames );
return RetValue;
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
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