/**CFile**************************************************************** FileName [abcGen.c] SystemName [ABC: Logic synthesis and verification system.] PackageName [Network and node package.] Synopsis [Procedures to generate various type of circuits.] Author [Alan Mishchenko] Affiliation [UC Berkeley] Date [Ver. 1.0. Started - June 20, 2005.] Revision [$Id: abcGen.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $] ***********************************************************************/ #include "base/abc/abc.h" #include "aig/miniaig/miniaig.h" ABC_NAMESPACE_IMPL_START //////////////////////////////////////////////////////////////////////// /// DECLARATIONS /// //////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////// /// FUNCTION DEFINITIONS /// //////////////////////////////////////////////////////////////////////// /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_WriteFullAdder( FILE * pFile ) { int fNaive = 0; fprintf( pFile, ".model FA\n" ); fprintf( pFile, ".inputs a b cin\n" ); fprintf( pFile, ".outputs s cout\n" ); if ( fNaive ) { fprintf( pFile, ".names a b k\n" ); fprintf( pFile, "10 1\n" ); fprintf( pFile, "01 1\n" ); fprintf( pFile, ".names k cin s\n" ); fprintf( pFile, "10 1\n" ); fprintf( pFile, "01 1\n" ); fprintf( pFile, ".names a b cin cout\n" ); fprintf( pFile, "11- 1\n" ); fprintf( pFile, "1-1 1\n" ); fprintf( pFile, "-11 1\n" ); } else { fprintf( pFile, ".names a b and1\n" ); fprintf( pFile, "11 1\n" ); fprintf( pFile, ".names a b and1_\n" ); fprintf( pFile, "00 1\n" ); fprintf( pFile, ".names and1 and1_ xor\n" ); fprintf( pFile, "00 1\n" ); fprintf( pFile, ".names cin xor and2\n" ); fprintf( pFile, "11 1\n" ); fprintf( pFile, ".names cin xor and2_\n" ); fprintf( pFile, "00 1\n" ); fprintf( pFile, ".names and2 and2_ s\n" ); fprintf( pFile, "00 1\n" ); fprintf( pFile, ".names and1 and2 cout\n" ); fprintf( pFile, "00 0\n" ); } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); } void Abc_WriteAdder( FILE * pFile, int nVars ) { int i, nDigits = Abc_Base10Log( nVars ); assert( nVars > 0 ); fprintf( pFile, ".model ADD%d\n", nVars ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " a%0*d", nDigits, i ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " b%0*d", nDigits, i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); for ( i = 0; i <= nVars; i++ ) fprintf( pFile, " s%0*d", nDigits, i ); fprintf( pFile, "\n" ); fprintf( pFile, ".names c\n" ); if ( nVars == 1 ) fprintf( pFile, ".subckt FA a=a0 b=b0 cin=c s=y0 cout=s1\n" ); else { fprintf( pFile, ".subckt FA a=a%0*d b=b%0*d cin=c s=s%0*d cout=%0*d\n", nDigits, 0, nDigits, 0, nDigits, 0, nDigits, 0 ); for ( i = 1; i < nVars-1; i++ ) fprintf( pFile, ".subckt FA a=a%0*d b=b%0*d cin=%0*d s=s%0*d cout=%0*d\n", nDigits, i, nDigits, i, nDigits, i-1, nDigits, i, nDigits, i ); fprintf( pFile, ".subckt FA a=a%0*d b=b%0*d cin=%0*d s=s%0*d cout=s%0*d\n", nDigits, i, nDigits, i, nDigits, i-1, nDigits, i, nDigits, i+1 ); } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); Abc_WriteFullAdder( pFile ); } void Abc_GenAdder( char * pFileName, int nVars ) { FILE * pFile; assert( nVars > 0 ); pFile = fopen( pFileName, "w" ); fprintf( pFile, "# %d-bit ripple-carry adder generated by ABC on %s\n", nVars, Extra_TimeStamp() ); Abc_WriteAdder( pFile, nVars ); fclose( pFile ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_WriteMulti( FILE * pFile, int nVars ) { int i, k, nDigits = Abc_Base10Log( nVars ), nDigits2 = Abc_Base10Log( 2*nVars ); assert( nVars > 0 ); fprintf( pFile, ".model Multi%d\n", nVars ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " a%0*d", nDigits, i ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " b%0*d", nDigits, i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, " m%0*d", nDigits2, i ); fprintf( pFile, "\n" ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, ".names x%0*d_%0*d\n", nDigits, 0, nDigits2, i ); for ( k = 0; k < nVars; k++ ) { for ( i = 0; i < 2 * nVars; i++ ) if ( i >= k && i < k + nVars ) fprintf( pFile, ".names b%0*d a%0*d y%0*d_%0*d\n11 1\n", nDigits, k, nDigits, i-k, nDigits, k, nDigits2, i ); else fprintf( pFile, ".names y%0*d_%0*d\n", nDigits, k, nDigits2, i ); fprintf( pFile, ".subckt ADD%d", 2*nVars ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, " a%0*d=x%0*d_%0*d", nDigits2, i, nDigits, k, nDigits2, i ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, " b%0*d=y%0*d_%0*d", nDigits2, i, nDigits, k, nDigits2, i ); for ( i = 0; i <= 2*nVars; i++ ) fprintf( pFile, " s%0*d=x%0*d_%0*d", nDigits2, i, nDigits, k+1, nDigits2, i ); fprintf( pFile, "\n" ); } for ( i = 0; i < 2 * nVars; i++ ) fprintf( pFile, ".names x%0*d_%0*d m%0*d\n1 1\n", nDigits, k, nDigits2, i, nDigits2, i ); fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); Abc_WriteAdder( pFile, 2*nVars ); } void Abc_GenMulti( char * pFileName, int nVars ) { FILE * pFile; assert( nVars > 0 ); pFile = fopen( pFileName, "w" ); fprintf( pFile, "# %d-bit multiplier generated by ABC on %s\n", nVars, Extra_TimeStamp() ); Abc_WriteMulti( pFile, nVars ); fclose( pFile ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_WriteComp( FILE * pFile ) { fprintf( pFile, ".model Comp\n" ); fprintf( pFile, ".inputs a b\n" ); fprintf( pFile, ".outputs x y\n" ); fprintf( pFile, ".names a b x\n" ); fprintf( pFile, "11 1\n" ); fprintf( pFile, ".names a b y\n" ); fprintf( pFile, "1- 1\n" ); fprintf( pFile, "-1 1\n" ); fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); } void Abc_WriteLayer( FILE * pFile, int nVars, int fSkip1 ) { int i; fprintf( pFile, ".model Layer%d\n", fSkip1 ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " x%02d", i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " y%02d", i ); fprintf( pFile, "\n" ); if ( fSkip1 ) { fprintf( pFile, ".names x00 y00\n" ); fprintf( pFile, "1 1\n" ); i = 1; } else i = 0; for ( ; i + 1 < nVars; i += 2 ) fprintf( pFile, ".subckt Comp a=x%02d b=x%02d x=y%02d y=y%02d\n", i, i+1, i, i+1 ); if ( i < nVars ) { fprintf( pFile, ".names x%02d y%02d\n", i, i ); fprintf( pFile, "1 1\n" ); } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_GenSorter( char * pFileName, int nVars ) { FILE * pFile; int i, k, Counter, nDigits; assert( nVars > 1 ); pFile = fopen( pFileName, "w" ); fprintf( pFile, "# %d-bit sorter generated by ABC on %s\n", nVars, Extra_TimeStamp() ); fprintf( pFile, ".model Sorter%02d\n", nVars ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " x%02d", i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " y%02d", i ); fprintf( pFile, "\n" ); Counter = 0; nDigits = Abc_Base10Log( (nVars-2)*nVars ); if ( nVars == 2 ) fprintf( pFile, ".subckt Comp a=x00 b=x01 x=y00 y=y01\n" ); else { fprintf( pFile, ".subckt Layer0" ); for ( k = 0; k < nVars; k++ ) fprintf( pFile, " x%02d=x%02d", k, k ); for ( k = 0; k < nVars; k++ ) fprintf( pFile, " y%02d=%0*d", k, nDigits, Counter++ ); fprintf( pFile, "\n" ); Counter -= nVars; for ( i = 1; i < 2*nVars-2; i++ ) { fprintf( pFile, ".subckt Layer%d", (i&1) ); for ( k = 0; k < nVars; k++ ) fprintf( pFile, " x%02d=%0*d", k, nDigits, Counter++ ); for ( k = 0; k < nVars; k++ ) fprintf( pFile, " y%02d=%0*d", k, nDigits, Counter++ ); fprintf( pFile, "\n" ); Counter -= nVars; } fprintf( pFile, ".subckt Layer%d", (i&1) ); for ( k = 0; k < nVars; k++ ) fprintf( pFile, " x%02d=%0*d", k, nDigits, Counter++ ); for ( k = 0; k < nVars; k++ ) fprintf( pFile, " y%02d=y%02d", k, k ); fprintf( pFile, "\n" ); } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); Abc_WriteLayer( pFile, nVars, 0 ); Abc_WriteLayer( pFile, nVars, 1 ); Abc_WriteComp( pFile ); fclose( pFile ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_WriteCell( FILE * pFile ) { fprintf( pFile, ".model cell\n" ); fprintf( pFile, ".inputs px1 px2 py1 py2 x y\n" ); fprintf( pFile, ".outputs fx fy\n" ); fprintf( pFile, ".names x y a\n" ); fprintf( pFile, "11 1\n" ); fprintf( pFile, ".names px1 a x nx\n" ); fprintf( pFile, "11- 1\n" ); fprintf( pFile, "0-1 1\n" ); fprintf( pFile, ".names py1 a y ny\n" ); fprintf( pFile, "11- 1\n" ); fprintf( pFile, "0-1 1\n" ); fprintf( pFile, ".names px2 nx fx\n" ); fprintf( pFile, "10 1\n" ); fprintf( pFile, "01 1\n" ); fprintf( pFile, ".names py2 ny fy\n" ); fprintf( pFile, "10 1\n" ); fprintf( pFile, "01 1\n" ); fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_GenMesh( char * pFileName, int nVars ) { FILE * pFile; int i, k; assert( nVars > 0 ); pFile = fopen( pFileName, "w" ); fprintf( pFile, "# %dx%d mesh generated by ABC on %s\n", nVars, nVars, Extra_TimeStamp() ); fprintf( pFile, ".model mesh%d\n", nVars ); for ( i = 0; i < nVars; i++ ) for ( k = 0; k < nVars; k++ ) { fprintf( pFile, ".inputs" ); fprintf( pFile, " p%d%dx1", i, k ); fprintf( pFile, " p%d%dx2", i, k ); fprintf( pFile, " p%d%dy1", i, k ); fprintf( pFile, " p%d%dy2", i, k ); fprintf( pFile, "\n" ); } fprintf( pFile, ".inputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " v%02d v%02d", 2*i, 2*i+1 ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); fprintf( pFile, " fx00" ); fprintf( pFile, "\n" ); for ( i = 0; i < nVars; i++ ) // horizontal for ( k = 0; k < nVars; k++ ) // vertical { fprintf( pFile, ".subckt cell" ); fprintf( pFile, " px1=p%d%dx1", i, k ); fprintf( pFile, " px2=p%d%dx2", i, k ); fprintf( pFile, " py1=p%d%dy1", i, k ); fprintf( pFile, " py2=p%d%dy2", i, k ); if ( k == nVars - 1 ) fprintf( pFile, " x=v%02d", i ); else fprintf( pFile, " x=fx%d%d", i, k+1 ); if ( i == nVars - 1 ) fprintf( pFile, " y=v%02d", nVars+k ); else fprintf( pFile, " y=fy%d%d", i+1, k ); // outputs fprintf( pFile, " fx=fx%d%d", i, k ); fprintf( pFile, " fy=fy%d%d", i, k ); fprintf( pFile, "\n" ); } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); fprintf( pFile, "\n" ); Abc_WriteCell( pFile ); fclose( pFile ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_WriteKLut( FILE * pFile, int nLutSize ) { int i, iVar, iNext, nPars = (1 << nLutSize); fprintf( pFile, "\n" ); fprintf( pFile, ".model lut%d\n", nLutSize ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nPars; i++ ) fprintf( pFile, " p%02d", i ); fprintf( pFile, "\n" ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nLutSize; i++ ) fprintf( pFile, " i%d", i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs o\n" ); fprintf( pFile, ".names n01 o\n" ); fprintf( pFile, "1 1\n" ); // write internal MUXes iVar = 0; iNext = 2; for ( i = 1; i < nPars; i++ ) { if ( i == iNext ) { iNext *= 2; iVar++; } if ( iVar == nLutSize - 1 ) fprintf( pFile, ".names i%d p%02d p%02d n%02d\n", iVar, 2*(i-nPars/2), 2*(i-nPars/2)+1, i ); else fprintf( pFile, ".names i%d n%02d n%02d n%02d\n", iVar, 2*i, 2*i+1, i ); fprintf( pFile, "01- 1\n" ); fprintf( pFile, "1-1 1\n" ); } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); } /**Function************************************************************* Synopsis [Generates structure of L K-LUTs implementing an N-var function.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_GenFpga( char * pFileName, int nLutSize, int nLuts, int nVars ) { int fGenerateFunc = 1; FILE * pFile; int nVarsLut = (1 << nLutSize); // the number of LUT variables int nVarsLog = Abc_Base2Log( nVars + nLuts - 1 ); // the number of encoding vars int nVarsDeg = (1 << nVarsLog); // the number of LUT variables (total) int nParsLut = nLuts * (1 << nLutSize); // the number of LUT params int nParsVar = nLuts * nLutSize * nVarsLog; // the number of var params int i, j, k; assert( nVars > 0 ); pFile = fopen( pFileName, "w" ); fprintf( pFile, "# Structure with %d %d-LUTs for %d-var function generated by ABC on %s\n", nLuts, nLutSize, nVars, Extra_TimeStamp() ); fprintf( pFile, ".model struct%dx%d_%d\n", nLuts, nLutSize, nVars ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nParsLut; i++ ) { // if ( i % (1 << nLutSize) == 0 && i != (nLuts - 1) * (1 << nLutSize) ) // continue; fprintf( pFile, " pl%02d", i ); } fprintf( pFile, "\n" ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nParsVar; i++ ) fprintf( pFile, " pv%02d", i ); fprintf( pFile, "\n" ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " v%02d", i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); // fprintf( pFile, " v%02d", nVars + nLuts - 1 ); fprintf( pFile, " out" ); fprintf( pFile, "\n" ); fprintf( pFile, ".names Gnd\n" ); fprintf( pFile, " 0\n" ); // generate function if ( fGenerateFunc ) { fprintf( pFile, ".names v%02d func out\n", nVars + nLuts - 1 ); fprintf( pFile, "00 1\n11 1\n" ); fprintf( pFile, ".names" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " v%02d", i ); fprintf( pFile, " func\n" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, "1" ); fprintf( pFile, " 1\n" ); } else fprintf( pFile, ".names v%02d out\n1 1\n", nVars + nLuts - 1 ); // generate LUTs for ( i = 0; i < nLuts; i++ ) { fprintf( pFile, ".subckt lut%d", nLutSize ); // generate config parameters for ( k = 0; k < nVarsLut; k++ ) fprintf( pFile, " p%02d=pl%02d", k, i * nVarsLut + k ); // generate the inputs for ( k = 0; k < nLutSize; k++ ) fprintf( pFile, " i%d=s%02d", k, i * nLutSize + k ); // generate the output fprintf( pFile, " o=v%02d", nVars + i ); fprintf( pFile, "\n" ); } // generate LUT inputs for ( i = 0; i < nLuts; i++ ) { for ( j = 0; j < nLutSize; j++ ) { fprintf( pFile, ".subckt lut%d", nVarsLog ); // generate config parameters for ( k = 0; k < nVarsDeg; k++ ) { if ( k < nVars + nLuts - 1 && k < nVars + i ) fprintf( pFile, " p%02d=v%02d", k, k ); else fprintf( pFile, " p%02d=Gnd", k ); } // generate the inputs for ( k = 0; k < nVarsLog; k++ ) fprintf( pFile, " i%d=pv%02d", k, (i * nLutSize + j) * nVarsLog + k ); // generate the output fprintf( pFile, " o=s%02d", i * nLutSize + j ); fprintf( pFile, "\n" ); } } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); // generate LUTs Abc_WriteKLut( pFile, nLutSize ); if ( nVarsLog != nLutSize ) Abc_WriteKLut( pFile, nVarsLog ); fclose( pFile ); } /**Function************************************************************* Synopsis [Generates structure of L K-LUTs implementing an N-var function.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_GenOneHot( char * pFileName, int nVars ) { FILE * pFile; int i, k, Counter, nDigitsIn, nDigitsOut; pFile = fopen( pFileName, "w" ); fprintf( pFile, "# One-hotness condition for %d vars generated by ABC on %s\n", nVars, Extra_TimeStamp() ); fprintf( pFile, ".model 1hot_%dvars\n", nVars ); fprintf( pFile, ".inputs" ); nDigitsIn = Abc_Base10Log( nVars ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " i%0*d", nDigitsIn, i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); nDigitsOut = Abc_Base10Log( nVars * (nVars - 1) / 2 ); for ( i = 0; i < nVars * (nVars - 1) / 2; i++ ) fprintf( pFile, " o%0*d", nDigitsOut, i ); fprintf( pFile, "\n" ); Counter = 0; for ( i = 0; i < nVars; i++ ) for ( k = i+1; k < nVars; k++ ) { fprintf( pFile, ".names i%0*d i%0*d o%0*d\n", nDigitsIn, i, nDigitsIn, k, nDigitsOut, Counter ); fprintf( pFile, "11 0\n" ); Counter++; } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); fclose( pFile ); } /**Function************************************************************* Synopsis [Generates structure of L K-LUTs implementing an N-var function.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_GenOneHotIntervals( char * pFileName, int nPis, int nRegs, Vec_Ptr_t * vOnehots ) { Vec_Int_t * vLine; FILE * pFile; int i, j, k, iReg1, iReg2, Counter, Counter2, nDigitsIn, nDigitsOut; pFile = fopen( pFileName, "w" ); fprintf( pFile, "# One-hotness with %d vars and %d regs generated by ABC on %s\n", nPis, nRegs, Extra_TimeStamp() ); fprintf( pFile, "# Used %d intervals of 1-hot registers: { ", Vec_PtrSize(vOnehots) ); Counter = 0; Vec_PtrForEachEntry( Vec_Int_t *, vOnehots, vLine, k ) { fprintf( pFile, "%d ", Vec_IntSize(vLine) ); Counter += Vec_IntSize(vLine) * (Vec_IntSize(vLine) - 1) / 2; } fprintf( pFile, "}\n" ); fprintf( pFile, ".model 1hot_%dvars_%dregs\n", nPis, nRegs ); fprintf( pFile, ".inputs" ); nDigitsIn = Abc_Base10Log( nPis+nRegs ); for ( i = 0; i < nPis+nRegs; i++ ) fprintf( pFile, " i%0*d", nDigitsIn, i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); nDigitsOut = Abc_Base10Log( Counter ); for ( i = 0; i < Counter; i++ ) fprintf( pFile, " o%0*d", nDigitsOut, i ); fprintf( pFile, "\n" ); Counter2 = 0; Vec_PtrForEachEntry( Vec_Int_t *, vOnehots, vLine, k ) { Vec_IntForEachEntry( vLine, iReg1, i ) Vec_IntForEachEntryStart( vLine, iReg2, j, i+1 ) { fprintf( pFile, ".names i%0*d i%0*d o%0*d\n", nDigitsIn, nPis+iReg1, nDigitsIn, nPis+iReg2, nDigitsOut, Counter2 ); fprintf( pFile, "11 0\n" ); Counter2++; } } assert( Counter == Counter2 ); fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); fclose( pFile ); } ABC_NAMESPACE_IMPL_END #include "aig/aig/aig.h" ABC_NAMESPACE_IMPL_START /**Function************************************************************* Synopsis [Generates structure of L K-LUTs implementing an N-var function.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_GenRandom( char * pFileName, int nPis ) { FILE * pFile; unsigned * pTruth; int i, b, w, nWords = Abc_TruthWordNum( nPis ); int nDigitsIn; Aig_ManRandom( 1 ); pTruth = ABC_ALLOC( unsigned, nWords ); for ( w = 0; w < nWords; w++ ) pTruth[w] = Aig_ManRandom( 0 ); pFile = fopen( pFileName, "w" ); fprintf( pFile, "# Random function with %d inputs generated by ABC on %s\n", nPis, Extra_TimeStamp() ); fprintf( pFile, ".model rand%d\n", nPis ); fprintf( pFile, ".inputs" ); nDigitsIn = Abc_Base10Log( nPis ); for ( i = 0; i < nPis; i++ ) fprintf( pFile, " i%0*d", nDigitsIn, i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs f\n" ); fprintf( pFile, ".names" ); nDigitsIn = Abc_Base10Log( nPis ); for ( i = 0; i < nPis; i++ ) fprintf( pFile, " i%0*d", nDigitsIn, i ); fprintf( pFile, " f\n" ); for ( i = 0; i < (1<= 0; b-- ) fprintf( pFile, "%d", (i>>b)&1 ); fprintf( pFile, " 1\n" ); } fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); fclose( pFile ); ABC_FREE( pTruth ); } /**Function************************************************************* Synopsis [Generates structure of L K-LUTs implementing an N-var function.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_GenFsmCond( Vec_Str_t * vCond, int nPis, int Prob ) { int i, Rand; Vec_StrClear( vCond ); for ( i = 0; i < nPis; i++ ) { Rand = Aig_ManRandom( 0 ); if ( Rand % 100 > Prob ) Vec_StrPush( vCond, '-' ); else if ( Rand & 1 ) Vec_StrPush( vCond, '1' ); else Vec_StrPush( vCond, '0' ); } Vec_StrPush( vCond, '\0' ); } void Abc_GenFsm( char * pFileName, int nPis, int nPos, int nStates, int nLines, int ProbI, int ProbO ) { FILE * pFile; Vec_Wrd_t * vStates; Vec_Str_t * vCond; int i, iState, iState2; int nDigits = Abc_Base10Log( nStates ); Aig_ManRandom( 1 ); vStates = Vec_WrdAlloc( nLines ); vCond = Vec_StrAlloc( 1000 ); for ( i = 0; i < nStates; ) { iState = Aig_ManRandom( 0 ) % nStates; if ( iState == i ) continue; Vec_WrdPush( vStates, ((word)i << 32) | iState ); i++; } for ( ; i < nLines; ) { iState = Aig_ManRandom( 0 ) % nStates; iState2 = Aig_ManRandom( 0 ) % nStates; if ( iState2 == iState ) continue; Vec_WrdPush( vStates, ((word)iState << 32) | iState2 ); i++; } Vec_WrdSort( vStates, 0 ); // write the file pFile = fopen( pFileName, "w" ); fprintf( pFile, "# This random FSM was generated by ABC on %s\n", Extra_TimeStamp() ); fprintf( pFile, "# Command line was: \"genfsm -I %d -O %d -S %d -L %d -P %d -Q %d %s\"\n", nPis, nPos, nStates, nLines, ProbI, ProbO, pFileName ); fprintf( pFile, "# FSM has %d inputs, %d outputs, %d states, and %d products\n", nPis, nPos, nStates, nLines ); fprintf( pFile, ".i %d\n", nPis ); fprintf( pFile, ".o %d\n", nPos ); fprintf( pFile, ".p %d\n", nLines ); fprintf( pFile, ".s %d\n", nStates ); for ( i = 0; i < nLines; i++ ) { Abc_GenFsmCond( vCond, nPis, ProbI ); fprintf( pFile, "%s ", Vec_StrArray(vCond) ); fprintf( pFile, "%0*d ", nDigits, (int)(Vec_WrdEntry(vStates, i) >> 32) ); fprintf( pFile, "%0*d ", nDigits, (int)(Vec_WrdEntry(vStates, i)) ); if ( nPos > 0 ) { Abc_GenFsmCond( vCond, nPos, ProbO ); fprintf( pFile, "%s", Vec_StrArray(vCond) ); } fprintf( pFile, "\n" ); } fprintf( pFile, ".e" ); fprintf( pFile, "\n" ); fclose( pFile ); Vec_WrdFree( vStates ); Vec_StrFree( vCond ); } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_AdderTree( FILE * pFile, int nArgs, int nBits ) { int i, k, nDigits = Abc_Base10Log( nBits ), Log2 = Abc_Base2Log( nArgs ); assert( nArgs > 1 && nBits > 1 ); fprintf( pFile, "module adder_tree_%d_%d (\n ", nArgs, nBits ); for ( i = 0; i < nBits; i++, fprintf(pFile, "\n ") ) for ( k = 0; k < nArgs; k++ ) fprintf( pFile, " i%0*d_%0*d,", nDigits, k, nDigits, nBits-1-i ); fprintf( pFile, " z\n" ); fprintf( pFile, " );\n" ); for ( i = 0; i < nBits; i++ ) { fprintf( pFile, " input" ); for ( k = 0; k < nArgs; k++ ) fprintf( pFile, " i%0*d_%0*d%s", nDigits, k, nDigits, nBits-1-i, k==nArgs-1 ? "":"," ); fprintf( pFile, ";\n" ); } fprintf( pFile, " output [%d:0] z;\n", nBits+Log2-1 ); for ( i = 0; i < nArgs; i++ ) { fprintf( pFile, " wire [%d:0] t%d = {", nBits-1, i ); for ( k = 0; k < nBits; k++ ) fprintf( pFile, " i%0*d_%0*d%s", nDigits, i, nDigits, nBits-1-k, k==nBits-1 ? "":"," ); fprintf( pFile, " };\n" ); } for ( i = 0; i < nArgs-1; i++ ) fprintf( pFile, " wire [%d:0] s%d = t%d + %s%d;\n", nBits+Log2-1, i+1, i+1, i ? "s":"t", i ); fprintf( pFile, " assign z = s%d;\n", nArgs-1 ); fprintf( pFile, "endmodule\n\n" ); } void Abc_GenAdderTree( char * pFileName, int nArgs, int nBits ) { FILE * pFile = fopen( pFileName, "w" ); fprintf( pFile, "// %d-argument %d-bit adder-tree generated by ABC on %s\n", nArgs, nBits, Extra_TimeStamp() ); Abc_AdderTree( pFile, nArgs, nBits ); fclose( pFile ); } /**Function************************************************************* Synopsis [Generating signed Booth multiplier.] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ int Abc_GenSignedBoothPP( Gia_Man_t * p, int a, int b, int c, int d, int e ) { /* abc> lutexact -I 5 -N 7 -g F335ACC0 05 = 4'b0110( d e ) 06 = 4'b0110( c d ) 07 = 4'b0100( a 06 ) 08 = 4'b1000( b 06 ) 09 = 4'b0100( 05 07 ) 10 = 4'b0110( 08 09 ) 11 = 4'b0110( d 10 ) */ int n05 = Gia_ManHashXor( p, d, e ); int n06 = Gia_ManHashXor( p, c, d ); int n07 = Gia_ManHashAnd( p, a, Abc_LitNot(n06) ); int n08 = Gia_ManHashAnd( p, b, n06 ); int n09 = Gia_ManHashAnd( p, n05, Abc_LitNot(n07) ); int n10 = Gia_ManHashXor( p, n08, n09 ); int n11 = Gia_ManHashXor( p, d, n10 ); return n11; } Gia_Man_t * Abc_GenSignedBoothPPTest( int nArgA, int nArgB ) { Gia_Man_t * pNew; int i, iLit; pNew = Gia_ManStart( 1000 ); pNew->pName = Abc_UtilStrsav( "booth" ); for ( i = 0; i < 5; i++ ) Gia_ManAppendCi(pNew); iLit = Abc_GenSignedBoothPP( pNew, 2, 4, 6, 8, 10 ); Gia_ManAppendCo(pNew, iLit); return pNew; } /* // parametrized implementation of signed Booth multiplier module booth #( parameter N = 4 // bit-width of input a ,parameter M = 4 // bit-width of input b )( input [N-1:0] a // input data ,input [M-1:0] b // input data ,output [N+M-1:0] z // output data ); localparam TT = 32'hF335ACC0; localparam W = N+M+1; localparam L = (M+1)/2; wire [W-1:0] data1[L:0]; wire [W-1:0] data2[L:0]; assign data2[0] = data1[0]; assign z = data2[L][N+M-1:0]; wire [N+1:0] a2 = {a[N-1], a, 1'b0}; wire [M+1:0] b2 = {b[M-1], b, 1'b0}; genvar j; generate for ( j = 0; j < W; j = j + 1 ) begin : J assign data1[0][j] = (j%2 == 0 && j/2 < L) ? b2[j+2] : 1'b0; end endgenerate genvar k, i0, i1, i2; generate for ( k = 0; k < 2*L; k = k + 2 ) begin : K for ( i0 = 0; i0 < k; i0 = i0 + 1 ) begin : I0 assign data1[k/2+1][i0] = 1'b0; end for ( i1 = 0; i1 <= N; i1 = i1 + 1 ) begin : I1 wire [4:0] in = {b2[k+2], b2[k+1], b2[k], a2[i1+1], a2[i1]}; assign data1[k/2+1][k+i1] = (k > 0 && i1 == N) ? ~TT[in] : TT[in]; end assign data1[k/2+1][k+N+1] = k > 0 ? 1'b1 : data1[k/2+1][k+N]; for ( i2 = k+N+2; i2 < W; i2 = i2 + 1 ) begin : I2 assign data1[k/2+1][i2] = (k > 0 || i2 > k+N+2)? 1'b0 : ~data1[k/2+1][k+N]; end assign data2[k/2+1] = data2[k/2] + data1[k/2+1]; end endgenerate endmodule */ Gia_Man_t * Abc_GenSignedBooth( int nArgN, int nArgM ) { int nWidth = nArgN + nArgM + 1; int Length = (nArgM + 1) / 2; int i, k, iLit; Vec_Int_t * vPPs = Vec_IntAlloc( nWidth * (Length + 1) ); Vec_Int_t * vArgN = Vec_IntAlloc( nArgN + 2 ); Vec_Int_t * vArgM = Vec_IntAlloc( nArgM + 2 ); int * pArgN = Vec_IntArray( vArgN ); int * pArgM = Vec_IntArray( vArgM ); Gia_Man_t * pTemp, * pNew; pNew = Gia_ManStart( 1000 ); pNew->pName = Abc_UtilStrsav( "booth" ); Vec_IntPush( vArgN, 0 ); for ( i = 0; i < nArgN; i++ ) Vec_IntPush( vArgN, Gia_ManAppendCi(pNew) ); Vec_IntPush( vArgN, Vec_IntEntryLast(vArgN) ); Vec_IntPush( vArgM, 0 ); for ( i = 0; i < nArgM; i++ ) Vec_IntPush( vArgM, Gia_ManAppendCi(pNew) ); Vec_IntPush( vArgM, Vec_IntEntryLast(vArgM) ); for ( i = 0; i < nWidth; i++ ) Vec_IntPush( vPPs, (i%2 == 0 && i/2 < Length) ? pArgM[i+2] : 0 ); Gia_ManHashAlloc( pNew ); for ( k = 0; k < 2*Length; k += 2 ) { for ( i = 0; i < k; i++ ) Vec_IntPush( vPPs, 0 ); for ( i = 0; i <= nArgN; i++ ) { iLit = Abc_GenSignedBoothPP( pNew, pArgN[i], pArgN[i+1], pArgM[k], pArgM[k+1], pArgM[k+2] ); Vec_IntPush( vPPs, Abc_LitNotCond( iLit, k > 0 && i == nArgN ) ); } iLit = Vec_IntEntryLast(vPPs); Vec_IntPush( vPPs, k > 0 ? 1 : iLit ); for ( i = k+nArgN+2; i < nWidth; i++ ) Vec_IntPush( vPPs, (k > 0 || i > k+nArgN+2) ? 0 : Abc_LitNot(iLit) ); } Gia_ManHashStop( pNew ); for ( k = 0; k <= Length; k++ ) for ( i = 0; i < nArgN+nArgM; i++ ) Gia_ManAppendCo( pNew, Vec_IntEntry(vPPs, k*(nArgN+nArgM+1) + i) ); Vec_IntFree( vPPs ); Vec_IntFree( vArgN ); Vec_IntFree( vArgM ); pNew = Gia_ManCleanup( pTemp = pNew ); Gia_ManStop( pTemp ); return pNew; } Mini_Aig_t * Abc_GenSignedBoothMini( int nArgN, int nArgM ) { extern Mini_Aig_t * Gia_ManToMiniAig( Gia_Man_t * pGia ); Gia_Man_t * pGia = Abc_GenSignedBooth( nArgN, nArgM ); Mini_Aig_t * pMini = Gia_ManToMiniAig( pGia ); Gia_ManStop( pGia ); return pMini; } /**Function************************************************************* Synopsis [] Description [] SideEffects [] SeeAlso [] ***********************************************************************/ void Abc_WriteBoothPartialProducts( FILE * pFile, int nVars ) { Mini_Aig_t * p = Abc_GenSignedBoothMini( nVars, nVars ); int i, nNodes = Mini_AigNodeNum(p); int nDigits = Abc_Base10Log( nVars ); int nDigits2 = Abc_Base10Log( 2*nVars ); int nDigits3 = Abc_Base10Log( nNodes ); int nOut = 0; fprintf( pFile, ".names pp%0*d\n", nDigits3, 0 ); for ( i = 1; i < nNodes; i++ ) { if ( Mini_AigNodeIsPi( p, i ) ) { if ( i > 0 && i <= nVars ) fprintf( pFile, ".names a%0*d pp%0*d\n1 1\n", nDigits, i-1, nDigits3, i ); else if ( i > nVars && i <= 2*nVars ) fprintf( pFile, ".names b%0*d pp%0*d\n1 1\n", nDigits, i-1-nVars, nDigits3, i ); else assert( 0 ); } else if ( Mini_AigNodeIsPo( p, i ) ) { int Lit = Mini_AigNodeFanin0( p, i ); fprintf( pFile, ".names pp%0*d y%0*d_%0*d\n%d 1\n", nDigits3, Abc_Lit2Var(Lit), nDigits, nOut/(2*nVars), nDigits2, nOut%(2*nVars), !Abc_LitIsCompl(Lit) ); nOut++; } else if ( Mini_AigNodeIsAnd( p, i ) ) { int Lit0 = Mini_AigNodeFanin0( p, i ); int Lit1 = Mini_AigNodeFanin1( p, i ); fprintf( pFile, ".names pp%0*d pp%0*d pp%0*d\n%d%d 1\n", nDigits3, Abc_Lit2Var(Lit0), nDigits3, Abc_Lit2Var(Lit1), nDigits3, i, !Abc_LitIsCompl(Lit0), !Abc_LitIsCompl(Lit1) ); } else assert( 0 ); } Mini_AigStop( p ); } void Abc_WriteBooth( FILE * pFile, int nVars ) { int i, k, nDigits = Abc_Base10Log( nVars ), nDigits2 = Abc_Base10Log( 2*nVars ); int Length = 1+(nVars + 1)/2; assert( nVars > 0 ); fprintf( pFile, ".model Multi%d\n", nVars ); fprintf( pFile, ".inputs" ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " a%0*d", nDigits, i ); for ( i = 0; i < nVars; i++ ) fprintf( pFile, " b%0*d", nDigits, i ); fprintf( pFile, "\n" ); fprintf( pFile, ".outputs" ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, " m%0*d", nDigits2, i ); fprintf( pFile, "\n" ); Abc_WriteBoothPartialProducts( pFile, nVars ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, ".names x%0*d_%0*d\n", nDigits, 0, nDigits2, i ); for ( k = 0; k < Length; k++ ) { fprintf( pFile, ".subckt ADD%d", 2*nVars ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, " a%0*d=x%0*d_%0*d", nDigits2, i, nDigits, k, nDigits2, i ); for ( i = 0; i < 2*nVars; i++ ) fprintf( pFile, " b%0*d=y%0*d_%0*d", nDigits2, i, nDigits, k, nDigits2, i ); for ( i = 0; i <= 2*nVars; i++ ) fprintf( pFile, " s%0*d=x%0*d_%0*d", nDigits2, i, nDigits, k+1, nDigits2, i ); fprintf( pFile, "\n" ); } for ( i = 0; i < 2 * nVars; i++ ) fprintf( pFile, ".names x%0*d_%0*d m%0*d\n1 1\n", nDigits, k, nDigits2, i, nDigits2, i ); fprintf( pFile, ".end\n" ); fprintf( pFile, "\n" ); Abc_WriteAdder( pFile, 2*nVars ); } void Abc_GenBooth( char * pFileName, int nVars ) { FILE * pFile; assert( nVars > 0 ); pFile = fopen( pFileName, "w" ); fprintf( pFile, "# %d-bit signed Booth multiplier generated by ABC on %s\n", nVars, Extra_TimeStamp() ); Abc_WriteBooth( pFile, nVars ); fclose( pFile ); } //////////////////////////////////////////////////////////////////////// /// END OF FILE /// //////////////////////////////////////////////////////////////////////// ABC_NAMESPACE_IMPL_END