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/**CFile****************************************************************
FileName [cec.h]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Combinational equivalence checking.]
Synopsis [External declarations.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: cec.h,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#ifndef ABC__aig__cec__cec_h
#define ABC__aig__cec__cec_h
////////////////////////////////////////////////////////////////////////
/// INCLUDES ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// PARAMETERS ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_HEADER_START
////////////////////////////////////////////////////////////////////////
/// BASIC TYPES ///
////////////////////////////////////////////////////////////////////////
// dynamic SAT parameters
typedef struct Cec_ParSat_t_ Cec_ParSat_t;
struct Cec_ParSat_t_
{
int SolverType; // SAT solver type
int nBTLimit; // conflict limit at a node
int nSatVarMax; // the max number of SAT variables
int nCallsRecycle; // calls to perform before recycling SAT solver
int fNonChrono; // use non-chronological backtracling (for circuit SAT only)
int fPolarFlip; // flops polarity of variables
int fCheckMiter; // the circuit is the miter
// int fFirstStop; // stop on the first sat output
int fLearnCls; // perform clause learning
int fSaveCexes; // saves counter-examples
int fVerbose; // verbose stats
};
// simulation parameters
typedef struct Cec_ParSim_t_ Cec_ParSim_t;
struct Cec_ParSim_t_
{
int nWords; // the number of simulation words
int nFrames; // the number of simulation frames
int nRounds; // the number of simulation rounds
int nNonRefines; // the max number of rounds without refinement
int TimeLimit; // the runtime limit in seconds
int fDualOut; // miter with separate outputs
int fCheckMiter; // the circuit is the miter
// int fFirstStop; // stop on the first sat output
int fSeqSimulate; // performs sequential simulation
int fLatchCorr; // consider only latch outputs
int fConstCorr; // consider only constants
int fVeryVerbose; // verbose stats
int fVerbose; // verbose stats
};
// semiformal parameters
typedef struct Cec_ParSmf_t_ Cec_ParSmf_t;
struct Cec_ParSmf_t_
{
int nWords; // the number of simulation words
int nRounds; // the number of simulation rounds
int nFrames; // the max number of time frames
int nNonRefines; // the max number of rounds without refinement
int nMinOutputs; // the min outputs to accumulate
int nBTLimit; // conflict limit at a node
int TimeLimit; // the runtime limit in seconds
int fDualOut; // miter with separate outputs
int fCheckMiter; // the circuit is the miter
// int fFirstStop; // stop on the first sat output
int fVerbose; // verbose stats
};
// combinational SAT sweeping parameters
typedef struct Cec_ParFra_t_ Cec_ParFra_t;
struct Cec_ParFra_t_
{
int jType; // solver type
int nWords; // the number of simulation words
int nRounds; // the number of simulation rounds
int nItersMax; // the maximum number of iterations of SAT sweeping
int nBTLimit; // conflict limit at a node
int nBTLimitPo; // conflict limit at an output
int TimeLimit; // the runtime limit in seconds
int nLevelMax; // restriction on the level nodes to be swept
int nDepthMax; // the depth in terms of steps of speculative reduction
int nCallsRecycle; // calls to perform before recycling SAT solver
int nSatVarMax; // the max number of SAT variables
int nGenIters; // pattern generation iterations
int fRewriting; // enables AIG rewriting
int fCheckMiter; // the circuit is the miter
// int fFirstStop; // stop on the first sat output
int fDualOut; // miter with separate outputs
int fColorDiff; // miter with separate outputs
int fSatSweeping; // enable SAT sweeping
int fRunCSat; // enable another solver
int fUseCones; // use cones
int fUseOrigIds; // enable recording of original IDs
int fVeryVerbose; // verbose stats
int fVerbose; // verbose stats
int iOutFail; // the failed output
};
// combinational equivalence checking parameters
typedef struct Cec_ParCec_t_ Cec_ParCec_t;
struct Cec_ParCec_t_
{
int nBTLimit; // conflict limit at a node
int TimeLimit; // the runtime limit in seconds
// int fFirstStop; // stop on the first sat output
int fUseSmartCnf; // use smart CNF computation
int fRewriting; // enables AIG rewriting
int fNaive; // performs naive SAT-based checking
int fSilent; // print no messages
int fVeryVerbose; // verbose stats
int fVerbose; // verbose stats
int iOutFail; // the number of failed output
};
// sequential register correspodence parameters
typedef struct Cec_ParCor_t_ Cec_ParCor_t;
struct Cec_ParCor_t_
{
int nWords; // the number of simulation words
int nRounds; // the number of simulation rounds
int nFrames; // the number of time frames
int nPrefix; // the number of time frames in the prefix
int nBTLimit; // conflict limit at a node
int nLevelMax; // (scorr only) the max number of levels
int nStepsMax; // (scorr only) the max number of induction steps
int fLatchCorr; // consider only latch outputs
int fConstCorr; // consider only constants
int fUseRings; // use rings
int fMakeChoices; // use equilvaences as choices
int fUseCSat; // use circuit-based solver
// int fFirstStop; // stop on the first sat output
int fUseSmartCnf; // use smart CNF computation
int fStopWhenGone; // quit when PO is not a candidate constant
int fVerboseFlops; // verbose stats
int fVeryVerbose; // verbose stats
int fVerbose; // verbose stats
// callback
void * pData;
void * pFunc;
};
// sequential register correspodence parameters
typedef struct Cec_ParChc_t_ Cec_ParChc_t;
struct Cec_ParChc_t_
{
int nWords; // the number of simulation words
int nRounds; // the number of simulation rounds
int nBTLimit; // conflict limit at a node
int fUseRings; // use rings
int fUseCSat; // use circuit-based solver
int fVeryVerbose; // verbose stats
int fVerbose; // verbose stats
};
// sequential synthesis parameters
typedef struct Cec_ParSeq_t_ Cec_ParSeq_t;
struct Cec_ParSeq_t_
{
int fUseLcorr; // enables latch correspondence
int fUseScorr; // enables signal correspondence
int nBTLimit; // (scorr/lcorr) conflict limit at a node
int nFrames; // (scorr/lcorr) the number of timeframes
int nLevelMax; // (scorr only) the max number of levels
int fConsts; // (scl only) merging constants
int fEquivs; // (scl only) merging equivalences
int fUseMiniSat; // enables MiniSat in lcorr/scorr
int nMinDomSize; // the size of minimum clock domain
int fVeryVerbose; // verbose stats
int fVerbose; // verbose stats
};
////////////////////////////////////////////////////////////////////////
/// MACRO DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
/*=== cecCec.c ==========================================================*/
extern int Cec_ManVerify( Gia_Man_t * p, Cec_ParCec_t * pPars );
extern int Cec_ManVerifyTwo( Gia_Man_t * p0, Gia_Man_t * p1, int fVerbose );
extern int Cec_ManVerifyTwoInv( Gia_Man_t * p0, Gia_Man_t * p1, int fVerbose );
extern int Cec_ManVerifySimple( Gia_Man_t * p );
/*=== cecChoice.c ==========================================================*/
extern Gia_Man_t * Cec_ManChoiceComputation( Gia_Man_t * pAig, Cec_ParChc_t * pPars );
/*=== cecCorr.c ==========================================================*/
extern int Cec_ManLSCorrespondenceClasses( Gia_Man_t * pAig, Cec_ParCor_t * pPars );
extern Gia_Man_t * Cec_ManLSCorrespondence( Gia_Man_t * pAig, Cec_ParCor_t * pPars );
/*=== cecCore.c ==========================================================*/
extern void Cec_ManSatSetDefaultParams( Cec_ParSat_t * p );
extern void Cec_ManSimSetDefaultParams( Cec_ParSim_t * p );
extern void Cec_ManSmfSetDefaultParams( Cec_ParSmf_t * p );
extern void Cec_ManFraSetDefaultParams( Cec_ParFra_t * p );
extern void Cec_ManCecSetDefaultParams( Cec_ParCec_t * p );
extern void Cec_ManCorSetDefaultParams( Cec_ParCor_t * p );
extern void Cec_ManChcSetDefaultParams( Cec_ParChc_t * p );
extern Gia_Man_t * Cec_ManSatSweeping( Gia_Man_t * pAig, Cec_ParFra_t * pPars, int fSilent );
extern Gia_Man_t * Cec_ManSatSolving( Gia_Man_t * pAig, Cec_ParSat_t * pPars, int f0Proved );
extern void Cec_ManSimulation( Gia_Man_t * pAig, Cec_ParSim_t * pPars );
/*=== cecSeq.c ==========================================================*/
extern int Cec_ManSeqResimulateCounter( Gia_Man_t * pAig, Cec_ParSim_t * pPars, Abc_Cex_t * pCex );
extern int Cec_ManSeqSemiformal( Gia_Man_t * pAig, Cec_ParSmf_t * pPars );
extern int Cec_ManCheckNonTrivialCands( Gia_Man_t * pAig );
/*=== cecSynth.c ==========================================================*/
extern int Cec_SeqReadMinDomSize( Cec_ParSeq_t * p );
extern int Cec_SeqReadVerbose( Cec_ParSeq_t * p );
extern void Cec_SeqSynthesisSetDefaultParams( Cec_ParSeq_t * pPars );
extern int Cec_SequentialSynthesisPart( Gia_Man_t * p, Cec_ParSeq_t * pPars );
ABC_NAMESPACE_HEADER_END
#endif
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
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