Skip to content
Projects
Groups
Snippets
Help
This project
Loading...
Sign in / Register
Toggle navigation
A
abc
Overview
Overview
Details
Activity
Cycle Analytics
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Charts
Issues
0
Issues
0
List
Board
Labels
Milestones
Merge Requests
0
Merge Requests
0
CI / CD
CI / CD
Pipelines
Jobs
Schedules
Charts
Wiki
Wiki
Snippets
Snippets
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Charts
Create a new issue
Jobs
Commits
Issue Boards
Open sidebar
lvzhengyang
abc
Commits
b4df114e
Commit
b4df114e
authored
Mar 25, 2012
by
Alan Mishchenko
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
Logic sharing for multi-input gates.
parent
309bcf2d
Show whitespace changes
Inline
Side-by-side
Showing
6 changed files
with
606 additions
and
462 deletions
+606
-462
abclib.dsp
+0
-4
src/base/abc/abc.h
+2
-0
src/base/abci/abc.c
+92
-3
src/base/abci/abcExtract.c
+505
-5
src/base/abci/abcShare.c
+0
-448
src/base/abci/abcStrash.c
+7
-2
No files found.
abclib.dsp
View file @
b4df114e
...
@@ -423,10 +423,6 @@ SOURCE=.\src\base\abci\abcSense.c
...
@@ -423,10 +423,6 @@ SOURCE=.\src\base\abci\abcSense.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
SOURCE=.\src\base\abci\abcShare.c
# End Source File
# Begin Source File
SOURCE=.\src\base\abci\abcSpeedup.c
SOURCE=.\src\base\abci\abcSpeedup.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
...
...
src/base/abc/abc.h
View file @
b4df114e
...
@@ -572,6 +572,7 @@ extern ABC_DLL void Abc_NodeFreeCuts( void * p, Abc_Obj_t * pObj )
...
@@ -572,6 +572,7 @@ extern ABC_DLL void Abc_NodeFreeCuts( void * p, Abc_Obj_t * pObj )
/*=== abcDar.c ============================================================*/
/*=== abcDar.c ============================================================*/
extern
ABC_DLL
int
Abc_NtkPhaseFrameNum
(
Abc_Ntk_t
*
pNtk
);
extern
ABC_DLL
int
Abc_NtkPhaseFrameNum
(
Abc_Ntk_t
*
pNtk
);
extern
ABC_DLL
int
Abc_NtkDarPrintCone
(
Abc_Ntk_t
*
pNtk
);
extern
ABC_DLL
int
Abc_NtkDarPrintCone
(
Abc_Ntk_t
*
pNtk
);
extern
ABC_DLL
Abc_Ntk_t
*
Abc_NtkBalanceExor
(
Abc_Ntk_t
*
pNtk
,
int
fUpdateLevel
,
int
fVerbose
);
/*=== abcDelay.c ==========================================================*/
/*=== abcDelay.c ==========================================================*/
extern
ABC_DLL
float
Abc_NtkDelayTraceLut
(
Abc_Ntk_t
*
pNtk
,
int
fUseLutLib
);
extern
ABC_DLL
float
Abc_NtkDelayTraceLut
(
Abc_Ntk_t
*
pNtk
,
int
fUseLutLib
);
/*=== abcDfs.c ==========================================================*/
/*=== abcDfs.c ==========================================================*/
...
@@ -852,6 +853,7 @@ extern ABC_DLL word Abc_SopToTruth( char * pSop, int nInputs );
...
@@ -852,6 +853,7 @@ extern ABC_DLL word Abc_SopToTruth( char * pSop, int nInputs );
extern
ABC_DLL
void
Abc_SopToTruth7
(
char
*
pSop
,
int
nInputs
,
word
r
[
2
]
);
extern
ABC_DLL
void
Abc_SopToTruth7
(
char
*
pSop
,
int
nInputs
,
word
r
[
2
]
);
extern
ABC_DLL
void
Abc_SopToTruthBig
(
char
*
pSop
,
int
nInputs
,
word
**
pVars
,
word
*
pCube
,
word
*
pRes
);
extern
ABC_DLL
void
Abc_SopToTruthBig
(
char
*
pSop
,
int
nInputs
,
word
**
pVars
,
word
*
pCube
,
word
*
pRes
);
/*=== abcStrash.c ==========================================================*/
/*=== abcStrash.c ==========================================================*/
extern
ABC_DLL
Abc_Ntk_t
*
Abc_NtkRestrash
(
Abc_Ntk_t
*
pNtk
,
int
fCleanup
);
extern
ABC_DLL
Abc_Ntk_t
*
Abc_NtkStrash
(
Abc_Ntk_t
*
pNtk
,
int
fAllNodes
,
int
fCleanup
,
int
fRecord
);
extern
ABC_DLL
Abc_Ntk_t
*
Abc_NtkStrash
(
Abc_Ntk_t
*
pNtk
,
int
fAllNodes
,
int
fCleanup
,
int
fRecord
);
extern
ABC_DLL
Abc_Obj_t
*
Abc_NodeStrash
(
Abc_Ntk_t
*
pNtkNew
,
Abc_Obj_t
*
pNode
,
int
fRecord
);
extern
ABC_DLL
Abc_Obj_t
*
Abc_NodeStrash
(
Abc_Ntk_t
*
pNtkNew
,
Abc_Obj_t
*
pNode
,
int
fRecord
);
extern
ABC_DLL
int
Abc_NtkAppend
(
Abc_Ntk_t
*
pNtk1
,
Abc_Ntk_t
*
pNtk2
,
int
fAddPos
);
extern
ABC_DLL
int
Abc_NtkAppend
(
Abc_Ntk_t
*
pNtk1
,
Abc_Ntk_t
*
pNtk2
,
int
fAddPos
);
...
...
src/base/abci/abc.c
View file @
b4df114e
...
@@ -115,6 +115,7 @@ static int Abc_CommandRestructure ( Abc_Frame_t * pAbc, int argc, cha
...
@@ -115,6 +115,7 @@ static int Abc_CommandRestructure ( Abc_Frame_t * pAbc, int argc, cha
static
int
Abc_CommandResubstitute
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandResubstitute
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandRr
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandRr
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandCascade
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandCascade
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandExtract
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandLogic
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandLogic
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandComb
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
static
int
Abc_CommandComb
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
);
...
@@ -560,6 +561,7 @@ void Abc_Init( Abc_Frame_t * pAbc )
...
@@ -560,6 +561,7 @@ void Abc_Init( Abc_Frame_t * pAbc )
Cmd_CommandAdd
(
pAbc
,
"Synthesis"
,
"resub"
,
Abc_CommandResubstitute
,
1
);
Cmd_CommandAdd
(
pAbc
,
"Synthesis"
,
"resub"
,
Abc_CommandResubstitute
,
1
);
// Cmd_CommandAdd( pAbc, "Synthesis", "rr", Abc_CommandRr, 1 );
// Cmd_CommandAdd( pAbc, "Synthesis", "rr", Abc_CommandRr, 1 );
Cmd_CommandAdd
(
pAbc
,
"Synthesis"
,
"cascade"
,
Abc_CommandCascade
,
1
);
Cmd_CommandAdd
(
pAbc
,
"Synthesis"
,
"cascade"
,
Abc_CommandCascade
,
1
);
Cmd_CommandAdd
(
pAbc
,
"Synthesis"
,
"extract"
,
Abc_CommandExtract
,
1
);
Cmd_CommandAdd
(
pAbc
,
"Various"
,
"logic"
,
Abc_CommandLogic
,
1
);
Cmd_CommandAdd
(
pAbc
,
"Various"
,
"logic"
,
Abc_CommandLogic
,
1
);
Cmd_CommandAdd
(
pAbc
,
"Various"
,
"comb"
,
Abc_CommandComb
,
1
);
Cmd_CommandAdd
(
pAbc
,
"Various"
,
"comb"
,
Abc_CommandComb
,
1
);
...
@@ -2805,7 +2807,6 @@ int Abc_CommandBalance( Abc_Frame_t * pAbc, int argc, char ** argv )
...
@@ -2805,7 +2807,6 @@ int Abc_CommandBalance( Abc_Frame_t * pAbc, int argc, char ** argv )
int
fUpdateLevel
;
int
fUpdateLevel
;
int
fExor
;
int
fExor
;
int
fVerbose
;
int
fVerbose
;
extern
Abc_Ntk_t
*
Abc_NtkBalanceExor
(
Abc_Ntk_t
*
pNtk
,
int
fUpdateLevel
,
int
fVerbose
);
pNtk
=
Abc_FrameReadNtk
(
pAbc
);
pNtk
=
Abc_FrameReadNtk
(
pAbc
);
// set defaults
// set defaults
...
@@ -5381,6 +5382,88 @@ usage:
...
@@ -5381,6 +5382,88 @@ usage:
return
1
;
return
1
;
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
Abc_CommandExtract
(
Abc_Frame_t
*
pAbc
,
int
argc
,
char
**
argv
)
{
extern
Abc_Ntk_t
*
Abc_NtkShareXor
(
Abc_Ntk_t
*
pNtk
,
int
nMultiSize
,
int
fAnd
,
int
fVerbose
);
Abc_Ntk_t
*
pNtk
,
*
pNtkRes
;
int
c
,
nMultiSize
,
fAnd
,
fVerbose
;
pNtk
=
Abc_FrameReadNtk
(
pAbc
);
// set defaults
nMultiSize
=
3
;
fAnd
=
0
;
fVerbose
=
0
;
Extra_UtilGetoptReset
();
while
(
(
c
=
Extra_UtilGetopt
(
argc
,
argv
,
"Kavh"
)
)
!=
EOF
)
{
switch
(
c
)
{
case
'K'
:
if
(
globalUtilOptind
>=
argc
)
{
Abc_Print
(
-
1
,
"Command line switch
\"
-K
\"
should be followed by an integer.
\n
"
);
goto
usage
;
}
nMultiSize
=
atoi
(
argv
[
globalUtilOptind
]);
globalUtilOptind
++
;
if
(
nMultiSize
<
0
)
goto
usage
;
break
;
case
'a'
:
fAnd
^=
1
;
break
;
case
'v'
:
fVerbose
^=
1
;
break
;
case
'h'
:
goto
usage
;
default:
goto
usage
;
}
}
if
(
pNtk
==
NULL
)
{
Abc_Print
(
-
1
,
"Empty network.
\n
"
);
return
1
;
}
if
(
!
Abc_NtkIsStrash
(
pNtk
)
)
{
Abc_Print
(
-
1
,
"Can only collapse a logic network or an AIG.
\n
"
);
return
1
;
}
// get the new network
pNtkRes
=
Abc_NtkShareXor
(
pNtk
,
nMultiSize
,
fAnd
,
fVerbose
);
if
(
pNtkRes
==
NULL
)
{
Abc_Print
(
-
1
,
"Cascade synthesis has failed.
\n
"
);
return
1
;
}
// replace the current network
Abc_FrameReplaceCurrentNetwork
(
pAbc
,
pNtkRes
);
return
0
;
usage:
Abc_Print
(
-
2
,
"usage: extract [-K <num>] [-vh]
\n
"
);
Abc_Print
(
-
2
,
"
\t
extracts logic sharing from multi-input XOR gates
\n
"
);
Abc_Print
(
-
2
,
"
\t
-K <num> : the min gate size to consider for extraction [default = %d]
\n
"
,
nMultiSize
);
// Abc_Print( -2, "\t-a : toggle multi-input XOR vs multi-input AND [default = %s]\n", fAnd? "AND": "XOR" );
Abc_Print
(
-
2
,
"
\t
-v : toggle verbose printout [default = %s]
\n
"
,
fVerbose
?
"yes"
:
"no"
);
Abc_Print
(
-
2
,
"
\t
-h : print the command usage
\n
"
);
Abc_Print
(
-
2
,
"
\t
\n
"
);
return
1
;
}
/**Function*************************************************************
/**Function*************************************************************
...
@@ -9020,8 +9103,14 @@ int Abc_CommandTest( Abc_Frame_t * pAbc, int argc, char ** argv )
...
@@ -9020,8 +9103,14 @@ int Abc_CommandTest( Abc_Frame_t * pAbc, int argc, char ** argv )
}
}
Aig_ManStop( pAig );
Aig_ManStop( pAig );
*/
*/
extern
void
Abc_NtkShareXor
(
Abc_Ntk_t
*
pNtk
);
/*
Abc_NtkShareXor
(
pNtk
);
extern Abc_Ntk_t * Abc_NtkShareXor( Abc_Ntk_t * pNtk );
Abc_Ntk_t * pNtkRes = Abc_NtkShareXor( pNtk );
if ( pNtkRes == NULL )
printf( "Transformation has failed.\n" );
else
Abc_FrameReplaceCurrentNetwork( pAbc, pNtkRes );
*/
}
}
// Abc2_NtkTestGia( "", 1 );
// Abc2_NtkTestGia( "", 1 );
...
...
src/base/abci/abcExtract.c
View file @
b4df114e
/**CFile****************************************************************
/**CFile****************************************************************
FileName [abc
MvCost
.c]
FileName [abc
Share
.c]
SystemName [ABC: Logic synthesis and verification system.]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Network and node package.]
PackageName [Network and node package.]
Synopsis [
Calculating the cost of one MV block
.]
Synopsis [
Shared logic extraction
.]
Author [Alan Mishchenko]
Author [Alan Mishchenko]
...
@@ -14,7 +14,7 @@
...
@@ -14,7 +14,7 @@
Date [Ver. 1.0. Started - June 20, 2005.]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: abc
MvCost
.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
Revision [$Id: abc
Share
.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
***********************************************************************/
...
@@ -22,17 +22,143 @@
...
@@ -22,17 +22,143 @@
ABC_NAMESPACE_IMPL_START
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
#define SHARE_NUM 2
typedef
struct
Abc_ShaMan_t_
Abc_ShaMan_t
;
struct
Abc_ShaMan_t_
{
int
nMultiSize
;
int
fVerbose
;
Abc_Ntk_t
*
pNtk
;
Vec_Ptr_t
*
vBuckets
;
Vec_Int_t
*
vObj2Lit
;
int
nStartCols
;
int
nCountXors
;
int
nFoundXors
;
};
static
inline
word
Abc_NtkSharePack
(
int
Lev
,
int
Id
)
{
return
(((
word
)
Lev
)
<<
32
)
|
Id
;
}
static
inline
int
Abc_NtkShareUnpackLev
(
word
Num
)
{
return
(
Num
>>
32
);
}
static
inline
int
Abc_NtkShareUnpackId
(
word
Num
)
{
return
Num
&
0xFFFF
;
}
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
/**Function*************************************************************
Synopsis [Working with the manager.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Abc_ShaMan_t
*
Abc_ShaManStart
(
Abc_Ntk_t
*
pNtk
)
{
Abc_ShaMan_t
*
p
;
p
=
ABC_CALLOC
(
Abc_ShaMan_t
,
1
);
p
->
pNtk
=
pNtk
;
p
->
vObj2Lit
=
Vec_IntAlloc
(
1000
);
return
p
;
}
void
Abc_ShaManStop
(
Abc_ShaMan_t
*
p
)
{
Vec_Ptr_t
*
vBucket
;
int
i
;
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
p
->
vBuckets
,
vBucket
,
i
)
Vec_VecFree
(
(
Vec_Vec_t
*
)
vBucket
);
Vec_PtrFreeP
(
&
p
->
vBuckets
);
Vec_IntFreeP
(
&
p
->
vObj2Lit
);
ABC_FREE
(
p
);
}
/**Function*************************************************************
Synopsis [Collects one multi-input XOR.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Vec_Wrd_t
*
Abc_NtkShareSuperXor
(
Abc_Obj_t
*
pObjInit
,
int
*
pfCompl
,
int
*
pCounter
)
{
int
fCompl
=
Abc_ObjIsComplement
(
pObjInit
);
Abc_Obj_t
*
pObj
=
Abc_ObjRegular
(
pObjInit
);
Abc_Ntk_t
*
pNtk
=
Abc_ObjNtk
(
pObj
);
Abc_Obj_t
*
pObjC
,
*
pObj0
,
*
pObj1
,
*
pRoot
;
Vec_Wrd_t
*
vSuper
;
word
Num
,
NumNext
;
int
i
,
k
;
assert
(
Abc_NodeIsExorType
(
pObj
)
);
// start iteration
vSuper
=
Vec_WrdAlloc
(
10
);
Vec_WrdPush
(
vSuper
,
Abc_NtkSharePack
(
Abc_ObjLevel
(
pObj
),
Abc_ObjId
(
pObj
))
);
while
(
Vec_WrdSize
(
vSuper
)
>
0
)
{
// make sure there are no duplicates
Num
=
Vec_WrdEntry
(
vSuper
,
0
);
Vec_WrdForEachEntryStart
(
vSuper
,
NumNext
,
i
,
1
)
{
assert
(
Num
!=
NumNext
);
Num
=
NumNext
;
}
// extract XOR gate decomposable on the topmost level
Vec_WrdForEachEntryReverse
(
vSuper
,
Num
,
i
)
{
pRoot
=
Abc_NtkObj
(
pNtk
,
Abc_NtkShareUnpackId
(
Num
)
);
if
(
Abc_NodeIsExorType
(
pRoot
)
)
{
Vec_WrdRemove
(
vSuper
,
Num
);
break
;
}
}
if
(
i
==
-
1
)
break
;
// extract
pObjC
=
Abc_NodeRecognizeMux
(
pRoot
,
&
pObj1
,
&
pObj0
);
assert
(
pObj1
==
Abc_ObjNot
(
pObj0
)
);
fCompl
^=
Abc_ObjIsComplement
(
pObjC
);
pObjC
=
Abc_ObjRegular
(
pObjC
);
fCompl
^=
Abc_ObjIsComplement
(
pObj0
);
pObj0
=
Abc_ObjRegular
(
pObj0
);
Vec_WrdPushOrder
(
vSuper
,
Abc_NtkSharePack
(
Abc_ObjLevel
(
pObjC
),
Abc_ObjId
(
pObjC
))
);
Vec_WrdPushOrder
(
vSuper
,
Abc_NtkSharePack
(
Abc_ObjLevel
(
pObj0
),
Abc_ObjId
(
pObj0
))
);
(
*
pCounter
)
++
;
// remove duplicates
k
=
0
;
Vec_WrdForEachEntry
(
vSuper
,
Num
,
i
)
{
if
(
i
+
1
==
Vec_WrdSize
(
vSuper
)
)
{
Vec_WrdWriteEntry
(
vSuper
,
k
++
,
Num
);
break
;
}
NumNext
=
Vec_WrdEntry
(
vSuper
,
i
+
1
);
assert
(
Num
<=
NumNext
);
if
(
Num
==
NumNext
)
i
++
;
else
Vec_WrdWriteEntry
(
vSuper
,
k
++
,
Num
);
}
Vec_WrdShrink
(
vSuper
,
k
);
}
*
pfCompl
=
fCompl
;
Vec_WrdForEachEntry
(
vSuper
,
Num
,
i
)
Vec_WrdWriteEntry
(
vSuper
,
i
,
Abc_NtkShareUnpackId
(
Num
)
);
return
vSuper
;
}
/**Function*************************************************************
Synopsis []
Synopsis []
Description []
Description []
...
@@ -42,11 +168,385 @@ ABC_NAMESPACE_IMPL_START
...
@@ -42,11 +168,385 @@ ABC_NAMESPACE_IMPL_START
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
void
Abc_
MvCostTest
(
Abc_Ntk_t
*
pNtk
)
void
Abc_
NtkSharePrint
(
Abc_ShaMan_t
*
p
)
{
{
Vec_Ptr_t
*
vBucket
;
Vec_Int_t
*
vInput
;
int
i
,
k
,
j
,
ObjId
;
char
*
pBuffer
=
ABC_ALLOC
(
char
,
Vec_IntSize
(
p
->
vObj2Lit
)
+
1
);
int
*
pCounters
=
ABC_CALLOC
(
int
,
Vec_IntSize
(
p
->
vObj2Lit
)
+
1
);
int
nTotal
=
0
;
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
p
->
vBuckets
,
vBucket
,
i
)
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vBucket
,
vInput
,
j
)
{
for
(
k
=
0
;
k
<
Vec_IntSize
(
p
->
vObj2Lit
);
k
++
)
pBuffer
[
k
]
=
'0'
;
pBuffer
[
k
]
=
0
;
Vec_IntForEachEntryStart
(
vInput
,
ObjId
,
k
,
SHARE_NUM
)
{
assert
(
ObjId
<
Vec_IntSize
(
p
->
vObj2Lit
)
);
pBuffer
[
ObjId
]
=
'1'
;
pCounters
[
ObjId
]
++
;
}
printf
(
"%4d%3d: %s
\n
"
,
Vec_IntEntry
(
vInput
,
0
),
Vec_IntEntry
(
vInput
,
1
),
pBuffer
);
}
for
(
i
=
0
;
i
<
Vec_IntSize
(
p
->
vObj2Lit
);
i
++
)
if
(
pCounters
[
i
]
>
0
)
printf
(
"%d=%d "
,
i
,
pCounters
[
i
]
);
printf
(
"
\n
"
);
nTotal
=
0
;
for
(
i
=
0
;
i
<
p
->
nStartCols
;
i
++
)
nTotal
+=
pCounters
[
i
]
-
1
;
printf
(
"Total = %d. "
,
nTotal
);
printf
(
"Xors = %d.
\n
"
,
Vec_IntSize
(
p
->
vObj2Lit
)
-
p
->
nStartCols
+
nTotal
);
ABC_FREE
(
pCounters
);
ABC_FREE
(
pBuffer
);
printf
(
"Bucket contents: "
);
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
p
->
vBuckets
,
vBucket
,
i
)
printf
(
"%d "
,
Vec_PtrSize
(
vBucket
)
);
printf
(
"
\n
"
);
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Abc_NtkShareFindBestMatch
(
Vec_Ptr_t
*
vBuckets
,
Vec_Int_t
**
pvInput
,
Vec_Int_t
**
pvInput2
)
{
int
nPoolSize
=
40
;
Vec_Ptr_t
*
vPool
=
Vec_PtrAlloc
(
nPoolSize
);
Vec_Ptr_t
*
vBucket
;
Vec_Int_t
*
vInput
,
*
vInput2
,
*
vInputBest
=
NULL
,
*
vInputBest2
=
NULL
;
int
i
,
k
,
Cost
,
CostBest
=
0
,
Delay
,
DelayBest
=
0
;
Vec_PtrForEachEntryReverse
(
Vec_Ptr_t
*
,
vBuckets
,
vBucket
,
i
)
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vBucket
,
vInput
,
k
)
{
Vec_PtrPush
(
vPool
,
vInput
);
if
(
Vec_PtrSize
(
vPool
)
==
nPoolSize
)
goto
outside
;
}
outside:
Vec_PtrForEachEntryReverse
(
Vec_Int_t
*
,
vPool
,
vInput
,
i
)
Vec_PtrForEachEntryReverse
(
Vec_Int_t
*
,
vPool
,
vInput2
,
k
)
{
if
(
i
==
k
)
continue
;
vInput
->
pArray
+=
SHARE_NUM
;
vInput2
->
pArray
+=
SHARE_NUM
;
vInput
->
nSize
-=
SHARE_NUM
;
vInput2
->
nSize
-=
SHARE_NUM
;
Cost
=
Vec_IntTwoCountCommon
(
vInput
,
vInput2
);
vInput
->
pArray
-=
SHARE_NUM
;
vInput2
->
pArray
-=
SHARE_NUM
;
vInput
->
nSize
+=
SHARE_NUM
;
vInput2
->
nSize
+=
SHARE_NUM
;
if
(
Cost
<
2
)
continue
;
Delay
=
Abc_MaxInt
(
Vec_IntEntry
(
vInput
,
1
),
Vec_IntEntry
(
vInput2
,
1
)
);
if
(
CostBest
<
Cost
||
(
CostBest
==
Cost
&&
(
DelayBest
>
Delay
))
)
{
CostBest
=
Cost
;
DelayBest
=
Delay
;
vInputBest
=
vInput
;
vInputBest2
=
vInput2
;
}
}
Vec_PtrFree
(
vPool
);
*
pvInput
=
vInputBest
;
*
pvInput2
=
vInputBest2
;
if
(
vInputBest
==
NULL
)
return
;
Vec_PtrRemove
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vInputBest
)
-
SHARE_NUM
),
(
Vec_Int_t
*
)
vInputBest
);
Vec_PtrRemove
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vInputBest2
)
-
SHARE_NUM
),
(
Vec_Int_t
*
)
vInputBest2
);
}
void
Abc_NtkShareOptimize
(
Abc_ShaMan_t
*
p
)
{
Abc_Obj_t
*
pObj
,
*
pObj0
,
*
pObj1
;
Vec_Int_t
*
vInput
,
*
vInput2
;
Vec_Int_t
*
vNew
,
*
vOld1
,
*
vOld2
;
int
i
;
for
(
i
=
0
;
;
i
++
)
{
Abc_NtkShareFindBestMatch
(
p
->
vBuckets
,
&
vInput
,
&
vInput2
);
if
(
vInput
==
NULL
)
break
;
// create new node
pObj0
=
Abc_ObjFromLit
(
p
->
pNtk
,
Vec_IntEntry
(
vInput
,
0
)
);
pObj1
=
Abc_ObjFromLit
(
p
->
pNtk
,
Vec_IntEntry
(
vInput2
,
0
)
);
pObj
=
Abc_AigXor
(
(
Abc_Aig_t
*
)
p
->
pNtk
->
pManFunc
,
pObj0
,
pObj1
);
p
->
nCountXors
++
;
// save new node
vOld1
=
Vec_IntAlloc
(
16
);
Vec_IntPush
(
vOld1
,
Vec_IntEntry
(
vInput
,
0
)
);
Vec_IntPush
(
vOld1
,
Vec_IntEntry
(
vInput
,
1
)
);
vOld2
=
Vec_IntAlloc
(
16
);
Vec_IntPush
(
vOld2
,
Vec_IntEntry
(
vInput2
,
0
)
);
Vec_IntPush
(
vOld2
,
Vec_IntEntry
(
vInput2
,
1
)
);
vNew
=
Vec_IntAlloc
(
16
);
Vec_IntPush
(
vNew
,
Abc_ObjToLit
(
pObj
)
);
Vec_IntPush
(
vNew
,
Abc_ObjLevel
(
Abc_ObjRegular
(
pObj
))
);
// compute new arrays
vInput
->
pArray
+=
SHARE_NUM
;
vInput2
->
pArray
+=
SHARE_NUM
;
vInput
->
nSize
-=
SHARE_NUM
;
vInput2
->
nSize
-=
SHARE_NUM
;
Vec_IntTwoSplit
(
vInput
,
vInput2
,
vNew
,
vOld1
,
vOld2
);
vInput
->
pArray
-=
SHARE_NUM
;
vInput2
->
pArray
-=
SHARE_NUM
;
vInput
->
nSize
+=
SHARE_NUM
;
vInput2
->
nSize
+=
SHARE_NUM
;
// add to the old ones
Vec_IntPush
(
vOld1
,
Vec_IntSize
(
p
->
vObj2Lit
)
);
Vec_IntPush
(
vOld2
,
Vec_IntSize
(
p
->
vObj2Lit
)
);
Vec_IntPush
(
p
->
vObj2Lit
,
Abc_ObjToLit
(
pObj
)
);
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
p
->
vBuckets
,
Vec_IntSize
(
vOld1
)
-
SHARE_NUM
),
vOld1
);
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
p
->
vBuckets
,
Vec_IntSize
(
vOld2
)
-
SHARE_NUM
),
vOld2
);
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
p
->
vBuckets
,
Vec_IntSize
(
vNew
)
-
SHARE_NUM
),
vNew
);
Vec_IntFree
(
vInput
);
Vec_IntFree
(
vInput2
);
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Abc_Ntk_t
*
Abc_NtkUpdateNetwork
(
Abc_ShaMan_t
*
p
)
{
Abc_Ntk_t
*
pNtk
;
Vec_Int_t
*
vInput
,
*
vMap2Repl
;
Vec_Ptr_t
*
vOrig
,
*
vRepl
,
*
vBucket
;
Abc_Obj_t
*
pObj
,
*
pNew
;
int
i
,
j
,
k
,
ObjId
,
iLit
;
vOrig
=
Vec_PtrAlloc
(
p
->
nStartCols
);
vRepl
=
Vec_PtrAlloc
(
p
->
nStartCols
);
for
(
i
=
0
;
i
<
p
->
nStartCols
;
i
++
)
{
iLit
=
Vec_IntEntry
(
p
->
vObj2Lit
,
i
);
pObj
=
Abc_NtkObj
(
p
->
pNtk
,
Abc_Lit2Var
(
iLit
)
);
pNew
=
Abc_ObjNotCond
(
Abc_AigConst1
(
p
->
pNtk
),
!
Abc_LitIsCompl
(
iLit
)
);
Vec_PtrPush
(
vOrig
,
pObj
);
Vec_PtrPush
(
vRepl
,
pNew
);
p
->
nCountXors
--
;
}
// go through the columns
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
p
->
vBuckets
,
vBucket
,
i
)
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vBucket
,
vInput
,
j
)
{
Vec_IntForEachEntryStart
(
vInput
,
ObjId
,
k
,
SHARE_NUM
)
{
assert
(
ObjId
<
Vec_IntSize
(
p
->
vObj2Lit
)
);
if
(
ObjId
>=
p
->
nStartCols
)
break
;
assert
(
ObjId
<
p
->
nStartCols
);
iLit
=
Vec_IntEntry
(
vInput
,
0
);
pNew
=
(
Abc_Obj_t
*
)
Vec_PtrEntry
(
vRepl
,
ObjId
);
pNew
=
Abc_AigXor
(
(
Abc_Aig_t
*
)
p
->
pNtk
->
pManFunc
,
pNew
,
Abc_ObjFromLit
(
p
->
pNtk
,
iLit
)
);
Vec_PtrWriteEntry
(
vRepl
,
ObjId
,
pNew
);
p
->
nCountXors
++
;
}
}
if
(
p
->
fVerbose
)
printf
(
"Total XORs collected = %d. Total XORs constructed = %d.
\n
"
,
p
->
nFoundXors
,
p
->
nCountXors
);
// create map of originals
vMap2Repl
=
Vec_IntStartFull
(
Abc_NtkObjNumMax
(
p
->
pNtk
)
);
Vec_PtrForEachEntry
(
Abc_Obj_t
*
,
vOrig
,
pObj
,
i
)
Vec_IntWriteEntry
(
vMap2Repl
,
Abc_ObjId
(
pObj
),
Abc_ObjToLit
((
Abc_Obj_t
*
)
Vec_PtrEntry
(
vRepl
,
i
))
);
Vec_PtrFree
(
vOrig
);
Vec_PtrFree
(
vRepl
);
// update fanin pointers
Abc_NtkForEachObj
(
p
->
pNtk
,
pObj
,
i
)
{
if
(
Abc_ObjIsCo
(
pObj
)
||
Abc_ObjIsNode
(
pObj
)
)
{
iLit
=
Vec_IntEntry
(
vMap2Repl
,
Abc_ObjFaninId0
(
pObj
)
);
if
(
iLit
>=
0
)
{
pObj
->
fCompl0
^=
Abc_LitIsCompl
(
iLit
);
Vec_IntWriteEntry
(
&
pObj
->
vFanins
,
0
,
Abc_Lit2Var
(
iLit
)
);
}
}
if
(
Abc_ObjIsNode
(
pObj
)
)
{
iLit
=
Vec_IntEntry
(
vMap2Repl
,
Abc_ObjFaninId1
(
pObj
)
);
if
(
iLit
>=
0
)
{
pObj
->
fCompl1
^=
Abc_LitIsCompl
(
iLit
);
Vec_IntWriteEntry
(
&
pObj
->
vFanins
,
1
,
Abc_Lit2Var
(
iLit
)
);
}
}
}
Vec_IntFree
(
vMap2Repl
);
// pNtk = Abc_NtkRestrash( p->pNtk, 1 );
pNtk
=
Abc_NtkBalanceExor
(
p
->
pNtk
,
1
,
0
);
return
pNtk
;
}
/**Function*************************************************************
Synopsis [Creates multi-input XOR representation for the nodes.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Abc_NtkTraverseSupers_rec
(
Abc_ShaMan_t
*
p
,
Abc_Obj_t
*
pObj
,
Vec_Ptr_t
*
vInputs
)
{
if
(
Abc_NodeIsTravIdCurrent
(
pObj
)
)
return
;
Abc_NodeSetTravIdCurrent
(
pObj
);
if
(
Abc_ObjIsCi
(
pObj
)
)
return
;
assert
(
Abc_ObjIsNode
(
pObj
)
);
if
(
Abc_NodeIsExorType
(
pObj
)
)
{
Vec_Wrd_t
*
vSuper
;
int
k
,
fCompl
;
word
Num
;
vSuper
=
Abc_NtkShareSuperXor
(
pObj
,
&
fCompl
,
&
p
->
nFoundXors
);
if
(
Vec_WrdSize
(
vSuper
)
>=
p
->
nMultiSize
)
{
Vec_WrdForEachEntry
(
vSuper
,
Num
,
k
)
{
Vec_Int_t
*
vInput
=
(
Vec_Int_t
*
)
Vec_PtrEntry
(
vInputs
,
(
int
)
Num
);
if
(
vInput
==
NULL
)
{
vInput
=
Vec_IntAlloc
(
10
);
Vec_IntPush
(
vInput
,
Abc_Var2Lit
((
int
)
Num
,
0
)
);
Vec_IntPush
(
vInput
,
Abc_ObjLevel
(
Abc_NtkObj
(
p
->
pNtk
,
(
int
)
Num
))
);
assert
(
SHARE_NUM
==
Vec_IntSize
(
vInput
)
);
Vec_PtrWriteEntry
(
vInputs
,
(
int
)
Num
,
vInput
);
}
Vec_IntPush
(
vInput
,
Vec_IntSize
(
p
->
vObj2Lit
)
);
}
Vec_IntPush
(
p
->
vObj2Lit
,
Abc_Var2Lit
(
Abc_ObjId
(
pObj
),
fCompl
)
);
}
// call recursively
Vec_WrdForEachEntry
(
vSuper
,
Num
,
k
)
Abc_NtkTraverseSupers_rec
(
p
,
Abc_NtkObj
(
p
->
pNtk
,
(
int
)
Num
),
vInputs
);
Vec_WrdFree
(
vSuper
);
}
else
{
Abc_NtkTraverseSupers_rec
(
p
,
Abc_ObjFanin0
(
pObj
),
vInputs
);
Abc_NtkTraverseSupers_rec
(
p
,
Abc_ObjFanin1
(
pObj
),
vInputs
);
}
}
void
Abc_NtkTraverseSupers
(
Abc_ShaMan_t
*
p
)
{
Vec_Ptr_t
*
vInputs
;
Vec_Int_t
*
vInput
;
Abc_Obj_t
*
pObj
;
int
i
,
nOnesMax
;
// create mapping of nodes into their column vectors
vInputs
=
Vec_PtrStart
(
Abc_NtkObjNumMax
(
p
->
pNtk
)
);
Abc_NtkIncrementTravId
(
p
->
pNtk
);
Abc_NtkForEachCo
(
p
->
pNtk
,
pObj
,
i
)
Abc_NtkTraverseSupers_rec
(
p
,
Abc_ObjFanin0
(
pObj
),
vInputs
);
p
->
nStartCols
=
Vec_IntSize
(
p
->
vObj2Lit
);
// find the largest number of 1s
nOnesMax
=
0
;
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vInputs
,
vInput
,
i
)
if
(
vInput
)
nOnesMax
=
Abc_MaxInt
(
nOnesMax
,
Vec_IntSize
(
vInput
)
-
SHARE_NUM
);
// create buckets
assert
(
p
->
vBuckets
==
NULL
);
p
->
vBuckets
=
Vec_PtrAlloc
(
nOnesMax
+
1
);
for
(
i
=
0
;
i
<=
nOnesMax
;
i
++
)
Vec_PtrPush
(
p
->
vBuckets
,
Vec_PtrAlloc
(
10
)
);
// load vectors into buckets
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vInputs
,
vInput
,
i
)
if
(
vInput
)
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
p
->
vBuckets
,
Vec_IntSize
(
vInput
)
-
SHARE_NUM
),
vInput
);
Vec_PtrFree
(
vInputs
);
}
/**Function*************************************************************
Synopsis [Extracts one multi-output XOR.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Abc_Ntk_t
*
Abc_NtkShareXor
(
Abc_Ntk_t
*
pNtk
,
int
nMultiSize
,
int
fAnd
,
int
fVerbose
)
{
Abc_Ntk_t
*
pNtkNew
;
Abc_ShaMan_t
*
p
;
assert
(
Abc_NtkIsStrash
(
pNtk
)
);
p
=
Abc_ShaManStart
(
pNtk
);
p
->
nMultiSize
=
nMultiSize
;
p
->
fVerbose
=
fVerbose
;
Abc_NtkTraverseSupers
(
p
);
if
(
p
->
nStartCols
<
2
)
{
Abc_ShaManStop
(
p
);
return
Abc_NtkDup
(
pNtk
);
}
if
(
fVerbose
)
Abc_NtkSharePrint
(
p
);
Abc_NtkShareOptimize
(
p
);
if
(
fVerbose
)
Abc_NtkSharePrint
(
p
);
pNtkNew
=
Abc_NtkUpdateNetwork
(
p
);
Abc_ShaManStop
(
p
);
return
pNtkNew
;
}
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
...
...
src/base/abci/abcShare.c
deleted
100644 → 0
View file @
309bcf2d
/**CFile****************************************************************
FileName [abcShare.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [Network and node package.]
Synopsis [Shared logic extraction.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - June 20, 2005.]
Revision [$Id: abcShare.c,v 1.00 2005/06/20 00:00:00 alanmi Exp $]
***********************************************************************/
#include "src/base/abc/abc.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
#define SHARE_NUM 2
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
static
inline
word
Abc_NtkSharePack
(
int
Lev
,
int
Id
)
{
return
(((
word
)
Lev
)
<<
32
)
|
Id
;
}
static
inline
int
Abc_NtkShareUnpackLev
(
word
Num
)
{
return
(
Num
>>
32
);
}
static
inline
int
Abc_NtkShareUnpackId
(
word
Num
)
{
return
Num
&
0xFFFF
;
}
/**Function*************************************************************
Synopsis [Collects one multi-input XOR.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Vec_Wrd_t
*
Abc_NtkShareSuperXor
(
Abc_Obj_t
*
pObjInit
,
int
*
pfCompl
)
{
int
fCompl
=
Abc_ObjIsComplement
(
pObjInit
);
Abc_Obj_t
*
pObj
=
Abc_ObjRegular
(
pObjInit
);
Abc_Ntk_t
*
pNtk
=
Abc_ObjNtk
(
pObj
);
Abc_Obj_t
*
pObjC
,
*
pObj0
,
*
pObj1
,
*
pRoot
;
Vec_Wrd_t
*
vSuper
;
word
Num
,
NumNext
;
int
i
,
k
;
assert
(
Abc_NodeIsExorType
(
pObj
)
);
// start iteration
vSuper
=
Vec_WrdAlloc
(
10
);
Vec_WrdPush
(
vSuper
,
Abc_NtkSharePack
(
Abc_ObjLevel
(
pObj
),
Abc_ObjId
(
pObj
))
);
while
(
Vec_WrdSize
(
vSuper
)
>
0
)
{
// make sure there are no duplicates
Num
=
Vec_WrdEntry
(
vSuper
,
0
);
Vec_WrdForEachEntryStart
(
vSuper
,
NumNext
,
i
,
1
)
{
assert
(
Num
!=
NumNext
);
Num
=
NumNext
;
}
// extract XOR gate decomposable on the topmost level
Vec_WrdForEachEntryReverse
(
vSuper
,
Num
,
i
)
{
pRoot
=
Abc_NtkObj
(
pNtk
,
Abc_NtkShareUnpackId
(
Num
)
);
if
(
Abc_NodeIsExorType
(
pRoot
)
)
{
Vec_WrdRemove
(
vSuper
,
Num
);
break
;
}
}
if
(
i
==
-
1
)
break
;
// extract
pObjC
=
Abc_NodeRecognizeMux
(
pRoot
,
&
pObj1
,
&
pObj0
);
assert
(
pObj1
==
Abc_ObjNot
(
pObj0
)
);
fCompl
^=
Abc_ObjIsComplement
(
pObjC
);
pObjC
=
Abc_ObjRegular
(
pObjC
);
fCompl
^=
Abc_ObjIsComplement
(
pObj0
);
pObj0
=
Abc_ObjRegular
(
pObj0
);
Vec_WrdPushOrder
(
vSuper
,
Abc_NtkSharePack
(
Abc_ObjLevel
(
pObjC
),
Abc_ObjId
(
pObjC
))
);
Vec_WrdPushOrder
(
vSuper
,
Abc_NtkSharePack
(
Abc_ObjLevel
(
pObj0
),
Abc_ObjId
(
pObj0
))
);
// remove duplicates
k
=
0
;
Vec_WrdForEachEntry
(
vSuper
,
Num
,
i
)
{
if
(
i
+
1
==
Vec_WrdSize
(
vSuper
)
)
{
Vec_WrdWriteEntry
(
vSuper
,
k
++
,
Num
);
break
;
}
NumNext
=
Vec_WrdEntry
(
vSuper
,
i
+
1
);
assert
(
Num
<=
NumNext
);
if
(
Num
==
NumNext
)
i
++
;
else
Vec_WrdWriteEntry
(
vSuper
,
k
++
,
Num
);
}
Vec_WrdShrink
(
vSuper
,
k
);
}
*
pfCompl
=
fCompl
;
Vec_WrdForEachEntry
(
vSuper
,
Num
,
i
)
Vec_WrdWriteEntry
(
vSuper
,
i
,
Abc_NtkShareUnpackId
(
Num
)
);
return
vSuper
;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Vec_Int_t
*
Abc_NtkShareFindBest_
(
Vec_Ptr_t
*
vBuckets
)
{
Vec_Ptr_t
*
vBucket
;
int
i
;
Vec_PtrForEachEntryReverse
(
Vec_Ptr_t
*
,
vBuckets
,
vBucket
,
i
)
{
if
(
Vec_PtrSize
(
vBucket
)
==
0
)
continue
;
return
(
Vec_Int_t
*
)
Vec_PtrPop
(
vBucket
);
}
return
NULL
;
}
Vec_Int_t
*
Abc_NtkShareFindBestMatch_
(
Vec_Ptr_t
*
vBuckets
,
Vec_Int_t
*
vInput2
)
{
Vec_Ptr_t
*
vBucket
,
*
vBucketBest
=
NULL
;
Vec_Int_t
*
vInput
,
*
vInputBest
=
NULL
;
int
i
,
k
,
Cost
,
CostBest
=
0
;
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
vBuckets
,
vBucket
,
i
)
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vBucket
,
vInput
,
k
)
{
vInput
->
pArray
+=
SHARE_NUM
;
vInput2
->
pArray
+=
SHARE_NUM
;
vInput
->
nSize
-=
SHARE_NUM
;
vInput2
->
nSize
-=
SHARE_NUM
;
Cost
=
Vec_IntTwoCountCommon
(
vInput
,
vInput2
);
vInput
->
pArray
-=
SHARE_NUM
;
vInput2
->
pArray
-=
SHARE_NUM
;
vInput
->
nSize
+=
SHARE_NUM
;
vInput2
->
nSize
+=
SHARE_NUM
;
if
(
Cost
<
2
)
continue
;
if
(
CostBest
<
Cost
)
{
CostBest
=
Cost
;
vInputBest
=
vInput
;
vBucketBest
=
vBucket
;
}
}
if
(
vInputBest
)
Vec_PtrRemove
(
vBucketBest
,
(
Vec_Int_t
*
)
vInputBest
);
printf
(
"%d "
,
CostBest
);
return
vInputBest
;
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Abc_NtkShareFindBestMatch
(
Vec_Ptr_t
*
vBuckets
,
Vec_Int_t
**
pvInput
,
Vec_Int_t
**
pvInput2
)
{
int
nPoolSize
=
40
;
Vec_Ptr_t
*
vPool
=
Vec_PtrAlloc
(
nPoolSize
);
Vec_Ptr_t
*
vBucket
;
Vec_Int_t
*
vInput
,
*
vInput2
,
*
vInputBest
=
NULL
,
*
vInputBest2
=
NULL
;
int
i
,
k
,
Cost
,
CostBest
=
0
,
Delay
,
DelayBest
=
0
;
Vec_PtrForEachEntryReverse
(
Vec_Ptr_t
*
,
vBuckets
,
vBucket
,
i
)
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vBucket
,
vInput
,
k
)
{
Vec_PtrPush
(
vPool
,
vInput
);
if
(
Vec_PtrSize
(
vPool
)
==
nPoolSize
)
goto
outside
;
}
outside
:
Vec_PtrForEachEntryReverse
(
Vec_Int_t
*
,
vPool
,
vInput
,
i
)
Vec_PtrForEachEntryReverse
(
Vec_Int_t
*
,
vPool
,
vInput2
,
k
)
{
if
(
i
==
k
)
continue
;
vInput
->
pArray
+=
SHARE_NUM
;
vInput2
->
pArray
+=
SHARE_NUM
;
vInput
->
nSize
-=
SHARE_NUM
;
vInput2
->
nSize
-=
SHARE_NUM
;
Cost
=
Vec_IntTwoCountCommon
(
vInput
,
vInput2
);
vInput
->
pArray
-=
SHARE_NUM
;
vInput2
->
pArray
-=
SHARE_NUM
;
vInput
->
nSize
+=
SHARE_NUM
;
vInput2
->
nSize
+=
SHARE_NUM
;
if
(
Cost
<
2
)
continue
;
Delay
=
Abc_MaxInt
(
Vec_IntEntry
(
vInput
,
1
),
Vec_IntEntry
(
vInput2
,
1
)
);
if
(
CostBest
<
Cost
||
(
CostBest
==
Cost
&&
(
DelayBest
>
Delay
))
)
{
CostBest
=
Cost
;
DelayBest
=
Delay
;
vInputBest
=
vInput
;
vInputBest2
=
vInput2
;
}
}
Vec_PtrFree
(
vPool
);
*
pvInput
=
vInputBest
;
*
pvInput2
=
vInputBest2
;
if
(
vInputBest
==
NULL
)
return
;
Vec_PtrRemove
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vInputBest
)
-
SHARE_NUM
),
(
Vec_Int_t
*
)
vInputBest
);
Vec_PtrRemove
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vInputBest2
)
-
SHARE_NUM
),
(
Vec_Int_t
*
)
vInputBest2
);
}
void
Abc_NtkSharePrint
(
Abc_Ntk_t
*
pNtk
,
Vec_Ptr_t
*
vBuckets
,
int
Counter
)
{
Vec_Ptr_t
*
vBucket
;
Vec_Int_t
*
vInput
;
int
i
,
k
,
j
,
ObjId
;
char
*
pBuffer
=
ABC_ALLOC
(
char
,
Counter
+
1
);
int
*
pCounters
=
ABC_CALLOC
(
int
,
Counter
+
1
);
int
nTotal
=
0
;
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
vBuckets
,
vBucket
,
i
)
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vBucket
,
vInput
,
j
)
{
for
(
k
=
0
;
k
<
Counter
;
k
++
)
pBuffer
[
k
]
=
'0'
;
pBuffer
[
k
]
=
0
;
Vec_IntForEachEntryStart
(
vInput
,
ObjId
,
k
,
SHARE_NUM
)
{
assert
(
ObjId
<
Counter
);
pBuffer
[
ObjId
]
=
'1'
;
pCounters
[
ObjId
]
++
;
}
printf
(
"%4d%3d: %s
\n
"
,
Vec_IntEntry
(
vInput
,
0
),
Vec_IntEntry
(
vInput
,
1
),
pBuffer
);
}
ABC_FREE
(
pBuffer
);
for
(
i
=
0
;
i
<
Counter
;
i
++
)
if
(
pCounters
[
i
]
>
0
)
printf
(
"%d=%d "
,
i
,
pCounters
[
i
]
);
nTotal
=
0
;
for
(
i
=
0
;
i
<
Abc_NtkCoNum
(
pNtk
);
i
++
)
nTotal
+=
pCounters
[
i
]
-
1
;
printf
(
"Total = %d.
\n
"
,
nTotal
);
printf
(
"Xors = %d.
\n
"
,
Counter
-
Abc_NtkCoNum
(
pNtk
)
+
nTotal
);
ABC_FREE
(
pCounters
);
}
void
Abc_NtkShareOptimize
(
Abc_Ntk_t
*
pNtk
,
Vec_Ptr_t
*
vBuckets
,
int
*
pCounter
)
{
Abc_Obj_t
*
pObj
,
*
pObj0
,
*
pObj1
;
Vec_Int_t
*
vInput
,
*
vInput2
;
Vec_Int_t
*
vNew
,
*
vOld1
,
*
vOld2
;
int
i
,
iLit
;
for
(
i
=
0
;
;
i
++
)
{
Abc_NtkShareFindBestMatch
(
vBuckets
,
&
vInput
,
&
vInput2
);
if
(
vInput
==
NULL
)
break
;
// create new node
pObj0
=
Abc_ObjFromLit
(
pNtk
,
Vec_IntEntry
(
vInput
,
0
)
);
pObj1
=
Abc_ObjFromLit
(
pNtk
,
Vec_IntEntry
(
vInput2
,
0
)
);
pObj
=
Abc_AigXor
(
(
Abc_Aig_t
*
)
pNtk
->
pManFunc
,
pObj0
,
pObj1
);
iLit
=
Abc_ObjToLit
(
pObj
);
// save new node
vOld1
=
Vec_IntAlloc
(
16
);
Vec_IntPush
(
vOld1
,
Vec_IntEntry
(
vInput
,
0
)
);
Vec_IntPush
(
vOld1
,
Vec_IntEntry
(
vInput
,
1
)
);
vOld2
=
Vec_IntAlloc
(
16
);
Vec_IntPush
(
vOld2
,
Vec_IntEntry
(
vInput2
,
0
)
);
Vec_IntPush
(
vOld2
,
Vec_IntEntry
(
vInput2
,
1
)
);
vNew
=
Vec_IntAlloc
(
16
);
Vec_IntPush
(
vNew
,
iLit
);
Vec_IntPush
(
vNew
,
Abc_ObjLevel
(
Abc_ObjRegular
(
pObj
))
);
// compute new arrays
vInput
->
pArray
+=
SHARE_NUM
;
vInput2
->
pArray
+=
SHARE_NUM
;
vInput
->
nSize
-=
SHARE_NUM
;
vInput2
->
nSize
-=
SHARE_NUM
;
Vec_IntTwoSplit
(
vInput
,
vInput2
,
vNew
,
vOld1
,
vOld2
);
vInput
->
pArray
-=
SHARE_NUM
;
vInput2
->
pArray
-=
SHARE_NUM
;
vInput
->
nSize
+=
SHARE_NUM
;
vInput2
->
nSize
+=
SHARE_NUM
;
// add to the old ones
Vec_IntPush
(
vOld1
,
*
pCounter
);
Vec_IntPush
(
vOld2
,
*
pCounter
);
(
*
pCounter
)
++
;
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vOld1
)
-
SHARE_NUM
),
vOld1
);
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vOld2
)
-
SHARE_NUM
),
vOld2
);
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vNew
)
-
SHARE_NUM
),
vNew
);
Vec_IntFree
(
vInput
);
Vec_IntFree
(
vInput2
);
}
printf
(
"
\n
"
);
}
/**Function*************************************************************
Synopsis [Extracts one multi-output XOR.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
Abc_NtkShareXor
(
Abc_Ntk_t
*
pNtk
)
{
Vec_Ptr_t
*
vBuckets
,
*
vBucket
;
Vec_Ptr_t
*
vInputs
;
Vec_Int_t
*
vInput
;
Vec_Wrd_t
*
vSuper
;
Abc_Obj_t
*
pObj
;
word
Num
;
int
i
,
k
,
ObjId
,
fCompl
,
nOnesMax
,
Counter
;
assert
(
Abc_NtkIsStrash
(
pNtk
)
);
vInputs
=
Vec_PtrStart
(
Abc_NtkObjNumMax
(
pNtk
)
);
Abc_NtkForEachCo
(
pNtk
,
pObj
,
i
)
{
if
(
!
Abc_NodeIsExorType
(
Abc_ObjFanin0
(
pObj
))
)
continue
;
vSuper
=
Abc_NtkShareSuperXor
(
Abc_ObjChild0
(
pObj
),
&
fCompl
);
//printf( "%d ", Vec_WrdSize(vSuper) );
pObj
->
fMarkA
=
fCompl
;
Vec_WrdForEachEntry
(
vSuper
,
Num
,
k
)
{
ObjId
=
Abc_NtkShareUnpackId
(
Num
);
vInput
=
(
Vec_Int_t
*
)
Vec_PtrEntry
(
vInputs
,
ObjId
);
if
(
vInput
==
NULL
)
{
vInput
=
Vec_IntAlloc
(
10
);
Vec_IntPush
(
vInput
,
Abc_Var2Lit
(
ObjId
,
0
)
);
Vec_IntPush
(
vInput
,
Abc_ObjLevel
(
Abc_NtkObj
(
pNtk
,
ObjId
))
);
assert
(
SHARE_NUM
==
Vec_IntSize
(
vInput
)
);
Vec_PtrWriteEntry
(
vInputs
,
ObjId
,
vInput
);
}
// Vec_IntPush( vInput, Abc_ObjFaninId0(pObj) );
// Vec_IntPush( vInput, Abc_ObjId(pObj) );
Vec_IntPush
(
vInput
,
i
);
}
Vec_WrdFree
(
vSuper
);
}
//printf( "\n" );
// find the largest number of 1s
nOnesMax
=
0
;
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vInputs
,
vInput
,
i
)
if
(
vInput
)
nOnesMax
=
Abc_MaxInt
(
nOnesMax
,
Vec_IntSize
(
vInput
)
-
SHARE_NUM
);
vBuckets
=
Vec_PtrAlloc
(
nOnesMax
+
1
);
for
(
i
=
0
;
i
<=
nOnesMax
;
i
++
)
Vec_PtrPush
(
vBuckets
,
Vec_PtrAlloc
(
10
)
);
Vec_PtrForEachEntry
(
Vec_Int_t
*
,
vInputs
,
vInput
,
i
)
if
(
vInput
)
Vec_PtrPush
(
(
Vec_Ptr_t
*
)
Vec_PtrEntry
(
vBuckets
,
Vec_IntSize
(
vInput
)
-
SHARE_NUM
),
vInput
);
// find the best match
Counter
=
Abc_NtkCoNum
(
pNtk
);
Abc_NtkShareOptimize
(
pNtk
,
vBuckets
,
&
Counter
);
Abc_NtkSharePrint
(
pNtk
,
vBuckets
,
Counter
);
// clean up
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
vBuckets
,
vBucket
,
i
)
printf
(
"%d "
,
Vec_PtrSize
(
vBucket
)
);
printf
(
"
\n
"
);
Vec_PtrForEachEntry
(
Vec_Ptr_t
*
,
vBuckets
,
vBucket
,
i
)
Vec_VecFree
(
(
Vec_Vec_t
*
)
vBucket
);
Vec_PtrFree
(
vBuckets
);
/*
// print
Vec_PtrForEachEntry( Vec_Int_t *, vInputs, vInput, i )
{
if ( vInput == NULL )
continue;
pObj = Abc_NtkObj(pNtk, i);
assert( Abc_ObjIsCi(pObj) );
Vec_IntForEachEntryStart( vInput, ObjId, k, SHARE_NUM )
Abc_NtkObj( pNtk, ObjId )->fMarkA = 1;
Abc_NtkForEachCo( pNtk, pObj, k )
printf( "%d", pObj->fMarkA );
printf( "\n" );
Vec_IntForEachEntryStart( vInput, ObjId, k, SHARE_NUM )
Abc_NtkObj( pNtk, ObjId )->fMarkA = 0;
}
Vec_PtrForEachEntry( Vec_Int_t *, vInputs, vInput, i )
Vec_IntFreeP( &vInput );
*/
Vec_PtrFree
(
vInputs
);
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
src/base/abci/abcStrash.c
View file @
b4df114e
...
@@ -49,6 +49,7 @@ static void Abc_NtkStrashPerform( Abc_Ntk_t * pNtk, Abc_Ntk_t * pNtkNew, int fAl
...
@@ -49,6 +49,7 @@ static void Abc_NtkStrashPerform( Abc_Ntk_t * pNtk, Abc_Ntk_t * pNtkNew, int fAl
Abc_Ntk_t
*
Abc_NtkRestrash
(
Abc_Ntk_t
*
pNtk
,
int
fCleanup
)
Abc_Ntk_t
*
Abc_NtkRestrash
(
Abc_Ntk_t
*
pNtk
,
int
fCleanup
)
{
{
// extern int timeRetime;
// extern int timeRetime;
Vec_Ptr_t
*
vNodes
;
Abc_Ntk_t
*
pNtkAig
;
Abc_Ntk_t
*
pNtkAig
;
Abc_Obj_t
*
pObj
;
Abc_Obj_t
*
pObj
;
int
i
,
nNodes
;
//, RetValue;
int
i
,
nNodes
;
//, RetValue;
...
@@ -60,8 +61,10 @@ Abc_Ntk_t * Abc_NtkRestrash( Abc_Ntk_t * pNtk, int fCleanup )
...
@@ -60,8 +61,10 @@ Abc_Ntk_t * Abc_NtkRestrash( Abc_Ntk_t * pNtk, int fCleanup )
// start the new network (constants and CIs of the old network will point to the their counterparts in the new network)
// start the new network (constants and CIs of the old network will point to the their counterparts in the new network)
pNtkAig
=
Abc_NtkStartFrom
(
pNtk
,
ABC_NTK_STRASH
,
ABC_FUNC_AIG
);
pNtkAig
=
Abc_NtkStartFrom
(
pNtk
,
ABC_NTK_STRASH
,
ABC_FUNC_AIG
);
// restrash the nodes (assuming a topological order of the old network)
// restrash the nodes (assuming a topological order of the old network)
Abc_NtkForEachNode
(
pNtk
,
pObj
,
i
)
vNodes
=
Abc_NtkDfs
(
pNtk
,
0
);
Vec_PtrForEachEntry
(
Abc_Obj_t
*
,
vNodes
,
pObj
,
i
)
pObj
->
pCopy
=
Abc_AigAnd
(
(
Abc_Aig_t
*
)
pNtkAig
->
pManFunc
,
Abc_ObjChild0Copy
(
pObj
),
Abc_ObjChild1Copy
(
pObj
)
);
pObj
->
pCopy
=
Abc_AigAnd
(
(
Abc_Aig_t
*
)
pNtkAig
->
pManFunc
,
Abc_ObjChild0Copy
(
pObj
),
Abc_ObjChild1Copy
(
pObj
)
);
Vec_PtrFree
(
vNodes
);
// finalize the network
// finalize the network
Abc_NtkFinalize
(
pNtk
,
pNtkAig
);
Abc_NtkFinalize
(
pNtk
,
pNtkAig
);
// print warning about self-feed latches
// print warning about self-feed latches
...
@@ -69,7 +72,9 @@ Abc_Ntk_t * Abc_NtkRestrash( Abc_Ntk_t * pNtk, int fCleanup )
...
@@ -69,7 +72,9 @@ Abc_Ntk_t * Abc_NtkRestrash( Abc_Ntk_t * pNtk, int fCleanup )
// printf( "Warning: The network has %d self-feeding latches.\n", Abc_NtkCountSelfFeedLatches(pNtkAig) );
// printf( "Warning: The network has %d self-feeding latches.\n", Abc_NtkCountSelfFeedLatches(pNtkAig) );
// perform cleanup if requested
// perform cleanup if requested
if
(
fCleanup
&&
(
nNodes
=
Abc_AigCleanup
((
Abc_Aig_t
*
)
pNtkAig
->
pManFunc
))
)
if
(
fCleanup
&&
(
nNodes
=
Abc_AigCleanup
((
Abc_Aig_t
*
)
pNtkAig
->
pManFunc
))
)
printf
(
"Abc_NtkRestrash(): AIG cleanup removed %d nodes (this is a bug).
\n
"
,
nNodes
);
{
// printf( "Abc_NtkRestrash(): AIG cleanup removed %d nodes (this is a bug).\n", nNodes );
}
// duplicate EXDC
// duplicate EXDC
if
(
pNtk
->
pExdc
)
if
(
pNtk
->
pExdc
)
pNtkAig
->
pExdc
=
Abc_NtkDup
(
pNtk
->
pExdc
);
pNtkAig
->
pExdc
=
Abc_NtkDup
(
pNtk
->
pExdc
);
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment