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
9c502b70
Commit
9c502b70
authored
Apr 05, 2014
by
Alan Mishchenko
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
Preparing new implementation of SOP/DSD balancing in 'if' mapper.
parent
5608d947
Hide whitespace changes
Inline
Side-by-side
Showing
12 changed files
with
1074 additions
and
18 deletions
+1074
-18
abclib.dsp
+4
-0
src/aig/gia/giaIf.c
+57
-4
src/base/abci/abcIf.c
+57
-0
src/bool/kit/kit.h
+1
-0
src/bool/kit/kitIsop.c
+25
-0
src/map/if/if.h
+11
-4
src/map/if/ifDelay.c
+616
-0
src/map/if/ifDsd.c
+261
-4
src/map/if/ifMan.c
+1
-0
src/map/if/ifMap.c
+2
-0
src/map/if/ifTime.c
+38
-6
src/map/if/module.make
+1
-0
No files found.
abclib.dsp
View file @
9c502b70
...
@@ -2347,6 +2347,10 @@ SOURCE=.\src\map\if\ifDec75.c
...
@@ -2347,6 +2347,10 @@ SOURCE=.\src\map\if\ifDec75.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
SOURCE=.\src\map\if\ifDelay.c
# End Source File
# Begin Source File
SOURCE=.\src\map\if\ifDsd.c
SOURCE=.\src\map\if\ifDsd.c
# End Source File
# End Source File
# Begin Source File
# Begin Source File
...
...
src/aig/gia/giaIf.c
View file @
9c502b70
...
@@ -672,6 +672,56 @@ int Gia_ManNodeIfSopToGia( Gia_Man_t * pNew, If_Man_t * p, If_Cut_t * pCut, Vec_
...
@@ -672,6 +672,56 @@ int Gia_ManNodeIfSopToGia( Gia_Man_t * pNew, If_Man_t * p, If_Cut_t * pCut, Vec_
/**Function*************************************************************
/**Function*************************************************************
Synopsis [Rebuilds GIA from mini AIG.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
Gia_ManBuildFromMini
(
Gia_Man_t
*
pNew
,
Vec_Int_t
*
vLeaves
,
Vec_Int_t
*
vAig
,
int
fHash
)
{
assert
(
Vec_IntSize
(
vAig
)
>
0
);
assert
(
Vec_IntEntryLast
(
vAig
)
<
2
);
if
(
Vec_IntSize
(
vAig
)
==
1
)
// const
return
Vec_IntEntry
(
vAig
,
0
);
if
(
Vec_IntSize
(
vAig
)
==
2
)
// variable
{
assert
(
Vec_IntEntry
(
vAig
,
0
)
==
0
);
assert
(
Vec_IntSize
(
vLeaves
)
==
1
);
return
Abc_LitNotCond
(
Vec_IntEntry
(
vLeaves
,
0
),
Vec_IntEntry
(
vAig
,
1
)
);
}
else
{
int
nLeaves
=
Vec_IntSize
(
vLeaves
);
int
i
,
iVar0
,
iVar1
,
iLit0
,
iLit1
,
iLit
=
0
;
assert
(
Vec_IntSize
(
vAig
)
&
1
);
Vec_IntForEachEntryDouble
(
vAig
,
iLit0
,
iLit1
,
i
)
{
iVar0
=
Abc_Lit2Var
(
iLit0
);
iVar1
=
Abc_Lit2Var
(
iLit1
);
iLit0
=
Abc_LitNotCond
(
iVar0
<
nLeaves
?
Vec_IntEntry
(
vLeaves
,
iVar0
)
:
Vec_IntEntry
(
vAig
,
iVar0
-
nLeaves
),
Abc_LitIsCompl
(
iLit0
)
);
iLit1
=
Abc_LitNotCond
(
iVar1
<
nLeaves
?
Vec_IntEntry
(
vLeaves
,
iVar1
)
:
Vec_IntEntry
(
vAig
,
iVar1
-
nLeaves
),
Abc_LitIsCompl
(
iLit1
)
);
if
(
fHash
)
iLit
=
Gia_ManHashAnd
(
pNew
,
iLit0
,
iLit1
);
else
if
(
iLit0
==
iLit1
)
iLit
=
iLit0
;
else
iLit
=
Gia_ManAppendAnd
(
pNew
,
iLit0
,
iLit1
);
assert
(
(
i
&
1
)
==
0
);
Vec_IntWriteEntry
(
vAig
,
Abc_Lit2Var
(
i
),
iLit
);
// overwriting entries
}
assert
(
i
==
Vec_IntSize
(
vAig
)
-
1
);
iLit
=
Abc_LitNotCond
(
iLit
,
Vec_IntEntry
(
vAig
,
i
)
);
Vec_IntClear
(
vAig
);
// useless
return
iLit
;
}
}
/**Function*************************************************************
Synopsis [Converts IF into GIA manager.]
Synopsis [Converts IF into GIA manager.]
Description []
Description []
...
@@ -688,7 +738,7 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
...
@@ -688,7 +738,7 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
If_Obj_t
*
pIfObj
,
*
pIfLeaf
;
If_Obj_t
*
pIfObj
,
*
pIfLeaf
;
If_Cut_t
*
pCutBest
;
If_Cut_t
*
pCutBest
;
Vec_Int_t
*
vLeaves
;
Vec_Int_t
*
vLeaves
;
Vec_Int_t
*
v
Cover
;
Vec_Int_t
*
v
Aig
;
int
i
,
k
;
int
i
,
k
;
assert
(
pIfMan
->
pPars
->
pLutStruct
==
NULL
);
assert
(
pIfMan
->
pPars
->
pLutStruct
==
NULL
);
assert
(
pIfMan
->
pPars
->
fDelayOpt
||
pIfMan
->
pPars
->
fDsdBalance
||
pIfMan
->
pPars
->
fUserRecLib
);
assert
(
pIfMan
->
pPars
->
fDelayOpt
||
pIfMan
->
pPars
->
fDsdBalance
||
pIfMan
->
pPars
->
fUserRecLib
);
...
@@ -696,7 +746,7 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
...
@@ -696,7 +746,7 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
pNew
=
Gia_ManStart
(
If_ManObjNum
(
pIfMan
)
);
pNew
=
Gia_ManStart
(
If_ManObjNum
(
pIfMan
)
);
Gia_ManHashAlloc
(
pNew
);
Gia_ManHashAlloc
(
pNew
);
// iterate through nodes used in the mapping
// iterate through nodes used in the mapping
v
Cover
=
Vec_IntAlloc
(
1
<<
16
);
v
Aig
=
Vec_IntAlloc
(
1
<<
16
);
vLeaves
=
Vec_IntAlloc
(
16
);
vLeaves
=
Vec_IntAlloc
(
16
);
If_ManCleanCutData
(
pIfMan
);
If_ManCleanCutData
(
pIfMan
);
If_ManForEachObj
(
pIfMan
,
pIfObj
,
i
)
If_ManForEachObj
(
pIfMan
,
pIfObj
,
i
)
...
@@ -714,7 +764,10 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
...
@@ -714,7 +764,10 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
if
(
pIfMan
->
pPars
->
fDelayOpt
)
if
(
pIfMan
->
pPars
->
fDelayOpt
)
pIfObj
->
iCopy
=
Gia_ManNodeIfSopToGia
(
pNew
,
pIfMan
,
pCutBest
,
vLeaves
,
fHash
);
pIfObj
->
iCopy
=
Gia_ManNodeIfSopToGia
(
pNew
,
pIfMan
,
pCutBest
,
vLeaves
,
fHash
);
else
if
(
pIfMan
->
pPars
->
fDsdBalance
)
else
if
(
pIfMan
->
pPars
->
fDsdBalance
)
pIfObj
->
iCopy
=
If_DsdCutBalance
(
pNew
,
pIfMan
,
pCutBest
,
vLeaves
,
fHash
);
{
If_DsdCutBalanceAig
(
pIfMan
,
pCutBest
,
vAig
);
pIfObj
->
iCopy
=
Gia_ManBuildFromMini
(
pNew
,
vLeaves
,
vAig
,
fHash
);
}
else
if
(
pIfMan
->
pPars
->
fUserRecLib
)
else
if
(
pIfMan
->
pPars
->
fUserRecLib
)
pIfObj
->
iCopy
=
Abc_RecToGia3
(
pNew
,
pIfMan
,
pCutBest
,
vLeaves
,
fHash
);
pIfObj
->
iCopy
=
Abc_RecToGia3
(
pNew
,
pIfMan
,
pCutBest
,
vLeaves
,
fHash
);
else
assert
(
0
);
else
assert
(
0
);
...
@@ -727,7 +780,7 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
...
@@ -727,7 +780,7 @@ Gia_Man_t * Gia_ManFromIfAig( If_Man_t * pIfMan )
pIfObj
->
iCopy
=
1
;
pIfObj
->
iCopy
=
1
;
else
assert
(
0
);
else
assert
(
0
);
}
}
Vec_IntFree
(
v
Cover
);
Vec_IntFree
(
v
Aig
);
Vec_IntFree
(
vLeaves
);
Vec_IntFree
(
vLeaves
);
Gia_ManHashStop
(
pNew
);
Gia_ManHashStop
(
pNew
);
return
pNew
;
return
pNew
;
...
...
src/base/abci/abcIf.c
View file @
9c502b70
...
@@ -451,6 +451,63 @@ Hop_Obj_t * Abc_NodeFromDsdBalance( Hop_Man_t * pMan, If_Man_t * p, If_Cut_t * p
...
@@ -451,6 +451,63 @@ Hop_Obj_t * Abc_NodeFromDsdBalance( Hop_Man_t * pMan, If_Man_t * p, If_Cut_t * p
/**Function*************************************************************
/**Function*************************************************************
Synopsis [Rebuilds GIA from mini AIG.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Hop_Obj_t
*
Abc_NodeBuildFromMiniInt
(
Hop_Man_t
*
pMan
,
Vec_Int_t
*
vAig
,
int
nLeaves
)
{
assert
(
Vec_IntSize
(
vAig
)
>
0
);
assert
(
Vec_IntEntryLast
(
vAig
)
<
2
);
if
(
Vec_IntSize
(
vAig
)
==
1
)
// const
{
assert
(
nLeaves
==
0
);
return
Hop_NotCond
(
Hop_ManConst1
(
pMan
),
Vec_IntEntry
(
vAig
,
0
)
);
}
if
(
Vec_IntSize
(
vAig
)
==
2
)
// variable
{
assert
(
Vec_IntEntry
(
vAig
,
0
)
==
0
);
assert
(
nLeaves
==
1
);
return
Hop_NotCond
(
Hop_IthVar
(
pMan
,
0
),
Vec_IntEntry
(
vAig
,
1
)
);
}
else
{
int
i
,
iVar0
,
iVar1
,
iLit0
,
iLit1
;
Hop_Obj_t
*
piLit0
,
*
piLit1
,
*
piLit
=
NULL
;
assert
(
Vec_IntSize
(
vAig
)
&
1
);
Vec_IntForEachEntryDouble
(
vAig
,
iLit0
,
iLit1
,
i
)
{
iVar0
=
Abc_Lit2Var
(
iLit0
);
iVar1
=
Abc_Lit2Var
(
iLit1
);
piLit0
=
Hop_NotCond
(
iVar0
<
nLeaves
?
Hop_IthVar
(
pMan
,
iVar0
)
:
(
Hop_Obj_t
*
)
Vec_PtrEntry
((
Vec_Ptr_t
*
)
vAig
,
iVar0
-
nLeaves
),
Abc_LitIsCompl
(
iLit0
)
);
piLit1
=
Hop_NotCond
(
iVar1
<
nLeaves
?
Hop_IthVar
(
pMan
,
iVar1
)
:
(
Hop_Obj_t
*
)
Vec_PtrEntry
((
Vec_Ptr_t
*
)
vAig
,
iVar1
-
nLeaves
),
Abc_LitIsCompl
(
iLit1
)
);
piLit
=
Hop_And
(
pMan
,
piLit0
,
piLit1
);
assert
(
(
i
&
1
)
==
0
);
Vec_PtrWriteEntry
(
(
Vec_Ptr_t
*
)
vAig
,
Abc_Lit2Var
(
i
),
piLit
);
// overwriting entries
}
assert
(
i
==
Vec_IntSize
(
vAig
)
-
1
);
piLit
=
Hop_NotCond
(
piLit
,
Vec_IntEntry
(
vAig
,
i
)
);
Vec_IntClear
(
vAig
);
// useless
return
piLit
;
}
}
Hop_Obj_t
*
Abc_NodeBuildFromMini
(
Hop_Man_t
*
pMan
,
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
Hop_Obj_t
*
pResult
;
if
(
p
->
vArray
==
NULL
)
p
->
vArray
=
Vec_IntAlloc
(
100
);
If_CutDelaySopArray3
(
p
,
pCut
,
p
->
vArray
);
pResult
=
Abc_NodeBuildFromMiniInt
(
pMan
,
p
->
vArray
,
If_CutLeaveNum
(
pCut
)
);
return
pResult
;
}
/**Function*************************************************************
Synopsis [Derive one node after FPGA mapping.]
Synopsis [Derive one node after FPGA mapping.]
Description []
Description []
...
...
src/bool/kit/kit.h
View file @
9c502b70
...
@@ -568,6 +568,7 @@ extern int Kit_GraphLeafDepth_rec( Kit_Graph_t * pGraph, Kit_Node_t
...
@@ -568,6 +568,7 @@ extern int Kit_GraphLeafDepth_rec( Kit_Graph_t * pGraph, Kit_Node_t
//extern Hop_Obj_t * Kit_CoverToHop( Hop_Man_t * pMan, Vec_Int_t * vCover, int nVars, Vec_Int_t * vMemory );
//extern Hop_Obj_t * Kit_CoverToHop( Hop_Man_t * pMan, Vec_Int_t * vCover, int nVars, Vec_Int_t * vMemory );
/*=== kitIsop.c ==========================================================*/
/*=== kitIsop.c ==========================================================*/
extern
int
Kit_TruthIsop
(
unsigned
*
puTruth
,
int
nVars
,
Vec_Int_t
*
vMemory
,
int
fTryBoth
);
extern
int
Kit_TruthIsop
(
unsigned
*
puTruth
,
int
nVars
,
Vec_Int_t
*
vMemory
,
int
fTryBoth
);
extern
void
Kit_TruthIsopPrint
(
unsigned
*
puTruth
,
int
nVars
,
Vec_Int_t
*
vMemory
,
int
fTryBoth
);
/*=== kitPla.c ==========================================================*/
/*=== kitPla.c ==========================================================*/
extern
int
Kit_PlaIsConst0
(
char
*
pSop
);
extern
int
Kit_PlaIsConst0
(
char
*
pSop
);
extern
int
Kit_PlaIsConst1
(
char
*
pSop
);
extern
int
Kit_PlaIsConst1
(
char
*
pSop
);
...
...
src/bool/kit/kitIsop.c
View file @
9c502b70
...
@@ -101,6 +101,31 @@ int Kit_TruthIsop( unsigned * puTruth, int nVars, Vec_Int_t * vMemory, int fTryB
...
@@ -101,6 +101,31 @@ int Kit_TruthIsop( unsigned * puTruth, int nVars, Vec_Int_t * vMemory, int fTryB
Vec_IntShrink
(
vMemory
,
pcRes
->
nCubes
);
Vec_IntShrink
(
vMemory
,
pcRes
->
nCubes
);
return
RetValue
;
return
RetValue
;
}
}
void
Kit_TruthIsopPrint
(
unsigned
*
puTruth
,
int
nVars
,
Vec_Int_t
*
vCover
,
int
fTryBoth
)
{
int
i
,
k
,
Entry
,
Literal
;
int
RetValue
=
Kit_TruthIsop
(
puTruth
,
nVars
,
vCover
,
fTryBoth
);
if
(
Vec_IntSize
(
vCover
)
==
0
||
(
Vec_IntSize
(
vCover
)
==
1
&&
Vec_IntEntry
(
vCover
,
0
)
==
0
)
)
{
printf
(
"Constant %d
\n
"
,
Vec_IntSize
(
vCover
)
);
return
;
}
Vec_IntForEachEntry
(
vCover
,
Entry
,
i
)
{
for
(
k
=
0
;
k
<
nVars
;
k
++
)
{
Literal
=
3
&
(
Entry
>>
(
k
<<
1
));
if
(
Literal
==
1
)
// neg literal
printf
(
"0"
);
else
if
(
Literal
==
2
)
// pos literal
printf
(
"1"
);
else
if
(
Literal
==
0
)
printf
(
"-"
);
else
assert
(
0
);
}
printf
(
" %d
\n
"
,
!
RetValue
);
}
}
/**Function*************************************************************
/**Function*************************************************************
...
...
src/map/if/if.h
View file @
9c502b70
...
@@ -207,6 +207,7 @@ struct If_Man_t_
...
@@ -207,6 +207,7 @@ struct If_Man_t_
int
fReqTimeWarn
;
// warning about exceeding required times was printed
int
fReqTimeWarn
;
// warning about exceeding required times was printed
// SOP balancing
// SOP balancing
Vec_Int_t
*
vCover
;
// used to compute ISOP
Vec_Int_t
*
vCover
;
// used to compute ISOP
Vec_Int_t
*
vArray
;
// intermediate storage
Vec_Wrd_t
*
vAnds
;
// intermediate storage
Vec_Wrd_t
*
vAnds
;
// intermediate storage
Vec_Wrd_t
*
vOrGate
;
// intermediate storage
Vec_Wrd_t
*
vOrGate
;
// intermediate storage
Vec_Wrd_t
*
vAndGate
;
// intermediate storage
Vec_Wrd_t
*
vAndGate
;
// intermediate storage
...
@@ -415,13 +416,16 @@ static inline void If_CutSetData( If_Cut_t * pCut, void * pData ) { *
...
@@ -415,13 +416,16 @@ static inline void If_CutSetData( If_Cut_t * pCut, void * pData ) { *
static
inline
int
If_CutDataInt
(
If_Cut_t
*
pCut
)
{
return
*
(
int
*
)
pCut
;
}
static
inline
int
If_CutDataInt
(
If_Cut_t
*
pCut
)
{
return
*
(
int
*
)
pCut
;
}
static
inline
void
If_CutSetDataInt
(
If_Cut_t
*
pCut
,
int
Data
)
{
*
(
int
*
)
pCut
=
Data
;
}
static
inline
void
If_CutSetDataInt
(
If_Cut_t
*
pCut
,
int
Data
)
{
*
(
int
*
)
pCut
=
Data
;
}
static
inline
int
If_CutTruthLit
(
If_Cut_t
*
pCut
)
{
assert
(
pCut
->
iCutFunc
>=
0
);
return
pCut
->
iCutFunc
;
}
static
inline
int
If_CutTruthIsCompl
(
If_Cut_t
*
pCut
)
{
assert
(
pCut
->
iCutFunc
>=
0
);
return
Abc_LitIsCompl
(
pCut
->
iCutFunc
);
}
static
inline
word
*
If_CutTruthWR
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
p
->
vTtMem
?
Vec_MemReadEntry
(
p
->
vTtMem
[
pCut
->
nLeaves
],
Abc_Lit2Var
(
pCut
->
iCutFunc
))
:
NULL
;
}
static
inline
word
*
If_CutTruthWR
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
p
->
vTtMem
?
Vec_MemReadEntry
(
p
->
vTtMem
[
pCut
->
nLeaves
],
Abc_Lit2Var
(
pCut
->
iCutFunc
))
:
NULL
;
}
static
inline
unsigned
*
If_CutTruthR
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
(
unsigned
*
)
If_CutTruthWR
(
p
,
pCut
);
}
static
inline
unsigned
*
If_CutTruthUR
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
(
unsigned
*
)
If_CutTruthWR
(
p
,
pCut
);
}
static
inline
int
If_CutTruthIsCompl
(
If_Cut_t
*
pCut
)
{
assert
(
pCut
->
iCutFunc
>=
0
);
return
Abc_LitIsCompl
(
pCut
->
iCutFunc
);
}
static
inline
word
*
If_CutTruthW
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
if
(
p
->
vTtMem
==
NULL
)
return
NULL
;
assert
(
pCut
->
iCutFunc
>=
0
);
Abc_TtCopy
(
p
->
puTempW
,
If_CutTruthWR
(
p
,
pCut
),
p
->
nTruth6Words
[
pCut
->
nLeaves
],
If_CutTruthIsCompl
(
pCut
)
);
return
p
->
puTempW
;
}
static
inline
word
*
If_CutTruthW
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
if
(
p
->
vTtMem
==
NULL
)
return
NULL
;
assert
(
pCut
->
iCutFunc
>=
0
);
Abc_TtCopy
(
p
->
puTempW
,
If_CutTruthWR
(
p
,
pCut
),
p
->
nTruth6Words
[
pCut
->
nLeaves
],
If_CutTruthIsCompl
(
pCut
)
);
return
p
->
puTempW
;
}
static
inline
unsigned
*
If_CutTruth
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
(
unsigned
*
)
If_CutTruthW
(
p
,
pCut
);
}
static
inline
unsigned
*
If_CutTruth
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
(
unsigned
*
)
If_CutTruthW
(
p
,
pCut
);
}
static
inline
int
If_CutDsdLit
(
If_Cut_t
*
pCut
)
{
assert
(
pCut
->
iCutDsd
>=
0
);
return
pCut
->
iCutDsd
;
}
static
inline
If_Obj_t
*
If_CutLeaf
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
,
int
i
)
{
assert
(
i
>=
0
&&
i
<
(
int
)
pCut
->
nLeaves
);
return
If_ManObj
(
p
,
pCut
->
pLeaves
[
i
]);
}
static
inline
float
If_CutLutArea
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
pCut
->
fUser
?
(
float
)
pCut
->
Cost
:
(
p
->
pPars
->
pLutLib
?
p
->
pPars
->
pLutLib
->
pLutAreas
[
pCut
->
nLeaves
]
:
(
float
)
1
.
0
);
}
static
inline
float
If_CutLutArea
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
return
pCut
->
fUser
?
(
float
)
pCut
->
Cost
:
(
p
->
pPars
->
pLutLib
?
p
->
pPars
->
pLutLib
->
pLutAreas
[
pCut
->
nLeaves
]
:
(
float
)
1
.
0
);
}
static
inline
float
If_CutLutDelay
(
If_LibLut_t
*
p
,
int
Size
,
int
iPin
)
{
return
p
?
(
p
->
fVarPinDelays
?
p
->
pLutDelays
[
Size
][
iPin
]
:
p
->
pLutDelays
[
Size
][
0
])
:
1
.
0
;
}
static
inline
float
If_CutLutDelay
(
If_LibLut_t
*
p
,
int
Size
,
int
iPin
)
{
return
p
?
(
p
->
fVarPinDelays
?
p
->
pLutDelays
[
Size
][
iPin
]
:
p
->
pLutDelays
[
Size
][
0
])
:
1
.
0
;
}
static
inline
word
If_AndToWrd
(
If_And_t
m
)
{
union
{
If_And_t
x
;
word
y
;
}
v
;
v
.
x
=
m
;
return
v
.
y
;
}
static
inline
word
If_AndToWrd
(
If_And_t
m
)
{
union
{
If_And_t
x
;
word
y
;
}
v
;
v
.
x
=
m
;
return
v
.
y
;
}
...
@@ -531,6 +535,9 @@ extern int If_CluCheckExt( void * p, word * pTruth, int nVars, int n
...
@@ -531,6 +535,9 @@ extern int If_CluCheckExt( void * p, word * pTruth, int nVars, int n
char
*
pLut0
,
char
*
pLut1
,
word
*
pFunc0
,
word
*
pFunc1
);
char
*
pLut0
,
char
*
pLut1
,
word
*
pFunc0
,
word
*
pFunc1
);
extern
int
If_CluCheckExt3
(
void
*
p
,
word
*
pTruth
,
int
nVars
,
int
nLutLeaf
,
int
nLutLeaf2
,
int
nLutRoot
,
extern
int
If_CluCheckExt3
(
void
*
p
,
word
*
pTruth
,
int
nVars
,
int
nLutLeaf
,
int
nLutLeaf2
,
int
nLutRoot
,
char
*
pLut0
,
char
*
pLut1
,
char
*
pLut2
,
word
*
pFunc0
,
word
*
pFunc1
,
word
*
pFunc2
);
char
*
pLut0
,
char
*
pLut1
,
char
*
pLut2
,
word
*
pFunc0
,
word
*
pFunc1
,
word
*
pFunc2
);
/*=== ifDelay.c =============================================================*/
extern
int
If_CutDelaySopArray3
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
,
Vec_Int_t
*
vAig
);
extern
int
If_CutPinDelaysSopArray3
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
,
char
*
pPerm
);
/*=== ifDsd.c =============================================================*/
/*=== ifDsd.c =============================================================*/
extern
If_DsdMan_t
*
If_DsdManAlloc
(
int
nVars
,
int
nLutSize
);
extern
If_DsdMan_t
*
If_DsdManAlloc
(
int
nVars
,
int
nLutSize
);
extern
void
If_DsdManPrint
(
If_DsdMan_t
*
p
,
char
*
pFileName
,
int
Number
,
int
Support
,
int
fOccurs
,
int
fTtDump
,
int
fVerbose
);
extern
void
If_DsdManPrint
(
If_DsdMan_t
*
p
,
char
*
pFileName
,
int
Number
,
int
Support
,
int
fOccurs
,
int
fTtDump
,
int
fVerbose
);
...
@@ -548,7 +555,7 @@ extern int If_DsdManSuppSize( If_DsdMan_t * p, int iDsd );
...
@@ -548,7 +555,7 @@ extern int If_DsdManSuppSize( If_DsdMan_t * p, int iDsd );
extern
int
If_DsdManCheckDec
(
If_DsdMan_t
*
p
,
int
iDsd
);
extern
int
If_DsdManCheckDec
(
If_DsdMan_t
*
p
,
int
iDsd
);
extern
unsigned
If_DsdManCheckXY
(
If_DsdMan_t
*
p
,
int
iDsd
,
int
LutSize
,
int
fDerive
,
int
fHighEffort
,
int
fVerbose
);
extern
unsigned
If_DsdManCheckXY
(
If_DsdMan_t
*
p
,
int
iDsd
,
int
LutSize
,
int
fDerive
,
int
fHighEffort
,
int
fVerbose
);
extern
int
If_DsdCutBalanceCost
(
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
);
extern
int
If_DsdCutBalanceCost
(
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
);
extern
int
If_DsdCutBalance
(
void
*
pGia
,
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
,
Vec_Int_t
*
vLeaves
,
int
fHash
);
extern
int
If_DsdCutBalance
Aig
(
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
,
Vec_Int_t
*
vAig
);
/*=== ifLib.c =============================================================*/
/*=== ifLib.c =============================================================*/
extern
If_LibLut_t
*
If_LibLutRead
(
char
*
FileName
);
extern
If_LibLut_t
*
If_LibLutRead
(
char
*
FileName
);
extern
If_LibLut_t
*
If_LibLutDup
(
If_LibLut_t
*
p
);
extern
If_LibLut_t
*
If_LibLutDup
(
If_LibLut_t
*
p
);
...
...
src/map/if/ifDelay.c
0 → 100644
View file @
9c502b70
/**CFile****************************************************************
FileName [ifDelay.c]
SystemName [ABC: Logic synthesis and verification system.]
PackageName [FPGA mapping based on priority cuts.]
Synopsis [Delay balancing for cut functions.]
Author [Alan Mishchenko]
Affiliation [UC Berkeley]
Date [Ver. 1.0. Started - November 21, 2006.]
Revision [$Id: ifDelay.c,v 1.00 2006/11/21 00:00:00 alanmi Exp $]
***********************************************************************/
#include "if.h"
#include "bool/kit/kit.h"
ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
/// DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// FUNCTION DEFINITIONS ///
////////////////////////////////////////////////////////////////////////
/**Function*************************************************************
Synopsis [Naive implementation of log-counter.]
Description [Incrementally computes [log2(SUMi(2^di)).]
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
If_LogCounter64Eval
(
word
Count
)
{
int
n
=
((
Count
&
(
Count
-
1
))
>
0
)
?
-
1
:
0
;
assert
(
Count
>
0
);
if
(
(
Count
&
ABC_CONST
(
0xFFFFFFFF00000000
))
==
0
)
{
n
+=
32
;
Count
<<=
32
;
}
if
(
(
Count
&
ABC_CONST
(
0xFFFF000000000000
))
==
0
)
{
n
+=
16
;
Count
<<=
16
;
}
if
(
(
Count
&
ABC_CONST
(
0xFF00000000000000
))
==
0
)
{
n
+=
8
;
Count
<<=
8
;
}
if
(
(
Count
&
ABC_CONST
(
0xF000000000000000
))
==
0
)
{
n
+=
4
;
Count
<<=
4
;
}
if
(
(
Count
&
ABC_CONST
(
0xC000000000000000
))
==
0
)
{
n
+=
2
;
Count
<<=
2
;
}
if
(
(
Count
&
ABC_CONST
(
0x8000000000000000
))
==
0
)
{
n
++
;
}
return
63
-
n
;
}
static
word
If_LogCounter64Add
(
word
Count
,
int
Num
)
{
assert
(
Num
<
48
);
return
Count
+
(((
word
)
1
)
<<
Num
);
}
/**Function*************************************************************
Synopsis [Implementation of log-counter.]
Description [Incrementally computes [log2(SUMi(2^di)).
Supposed to work correctly up to 16 entries.]
SideEffects []
SeeAlso []
***********************************************************************/
static
int
If_LogCounter32Eval
(
unsigned
Count
,
int
Start
)
{
int
n
=
(
Abc_LitIsCompl
(
Start
)
||
(
Count
&
(
Count
-
1
))
>
0
)
?
-
1
:
0
;
assert
(
Count
>
0
);
if
(
(
Count
&
0xFFFF0000
)
==
0
)
{
n
+=
16
;
Count
<<=
16
;
}
if
(
(
Count
&
0xFF000000
)
==
0
)
{
n
+=
8
;
Count
<<=
8
;
}
if
(
(
Count
&
0xF0000000
)
==
0
)
{
n
+=
4
;
Count
<<=
4
;
}
if
(
(
Count
&
0xC0000000
)
==
0
)
{
n
+=
2
;
Count
<<=
2
;
}
if
(
(
Count
&
0x80000000
)
==
0
)
{
n
++
;
}
return
Abc_Lit2Var
(
Start
)
+
31
-
n
;
}
static
unsigned
If_LogCounter32Add
(
unsigned
Count
,
int
*
pStart
,
int
Num
)
{
int
Start
=
Abc_Lit2Var
(
*
pStart
);
if
(
Num
<
Start
)
{
*
pStart
|=
1
;
return
Count
;
}
if
(
Num
>
Start
+
16
)
{
int
Shift
=
Num
-
(
Start
+
16
);
if
(
!
Abc_LitIsCompl
(
*
pStart
)
&&
(
Shift
>=
32
?
Count
:
Count
&
~
(
~
0
<<
Shift
))
>
0
)
*
pStart
|=
1
;
Count
>>=
Shift
;
Start
+=
Shift
;
*
pStart
=
Abc_Var2Lit
(
Start
,
Abc_LitIsCompl
(
*
pStart
)
);
assert
(
Num
<=
Start
+
16
);
}
return
Count
+
(
1
<<
(
Num
-
Start
));
}
/**Function*************************************************************
Synopsis [Testing of the counter]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
If_LogCounterTest2
()
{
word
Count64
=
0
;
unsigned
Count
=
0
;
int
Start
=
0
;
int
Result
,
Result64
;
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
39
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
35
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
35
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
36
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
37
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
38
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
40
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
1
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
41
);
Count
=
If_LogCounter32Add
(
Count
,
&
Start
,
42
);
Count64
=
If_LogCounter64Add
(
Count64
,
1
);
Count64
=
If_LogCounter64Add
(
Count64
,
35
);
Count64
=
If_LogCounter64Add
(
Count64
,
35
);
Count64
=
If_LogCounter64Add
(
Count64
,
36
);
Count64
=
If_LogCounter64Add
(
Count64
,
37
);
Count64
=
If_LogCounter64Add
(
Count64
,
38
);
Count64
=
If_LogCounter64Add
(
Count64
,
39
);
Count64
=
If_LogCounter64Add
(
Count64
,
40
);
Count64
=
If_LogCounter64Add
(
Count64
,
41
);
Count64
=
If_LogCounter64Add
(
Count64
,
42
);
Result
=
If_LogCounter32Eval
(
Count
,
Start
);
Result64
=
If_LogCounter64Eval
(
Count64
);
printf
(
"%d %d
\n
"
,
Result
,
Result64
);
}
/**Function*************************************************************
Synopsis [Adds the number to the numbers stored.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
If_LogCounterAdd
(
int
*
pTimes
,
int
*
pnTimes
,
int
Num
,
int
fXor
)
{
int
nTimes
=
*
pnTimes
;
pTimes
[
nTimes
++
]
=
Num
;
if
(
nTimes
>
1
)
{
int
i
,
k
;
for
(
k
=
nTimes
-
1
;
k
>
0
;
k
--
)
{
if
(
pTimes
[
k
]
<
pTimes
[
k
-
1
]
)
break
;
if
(
pTimes
[
k
]
>
pTimes
[
k
-
1
]
)
{
ABC_SWAP
(
int
,
pTimes
[
k
],
pTimes
[
k
-
1
]
);
continue
;
}
pTimes
[
k
-
1
]
+=
1
+
fXor
;
for
(
nTimes
--
,
i
=
k
;
i
<
nTimes
;
i
++
)
pTimes
[
i
]
=
pTimes
[
i
+
1
];
}
}
assert
(
nTimes
>
0
);
*
pnTimes
=
nTimes
;
return
pTimes
[
0
]
+
(
nTimes
>
1
?
1
+
fXor
:
0
);
}
/**Function*************************************************************
Synopsis [Testing of the counter]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
void
If_LogCounterTest
()
{
int
pArray
[
10
]
=
{
1
,
2
,
4
,
5
,
6
,
3
,
1
};
int
i
,
nSize
=
4
;
word
Count64
=
0
;
int
Result
,
Result64
;
int
pTimes
[
100
];
int
nTimes
=
0
;
for
(
i
=
0
;
i
<
nSize
;
i
++
)
Count64
=
If_LogCounter64Add
(
Count64
,
pArray
[
i
]
);
Result64
=
If_LogCounter64Eval
(
Count64
);
for
(
i
=
0
;
i
<
nSize
;
i
++
)
Result
=
If_LogCounterAdd
(
pTimes
,
&
nTimes
,
pArray
[
i
],
0
);
printf
(
"%d %d
\n
"
,
Result64
,
Result
);
}
/**Function*************************************************************
Synopsis [Inserts the entry while sorting them by delay.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
word
If_AigVerifyArray
(
Vec_Int_t
*
vAig
,
int
nLeaves
,
int
fCompl
)
{
assert
(
Vec_IntSize
(
vAig
)
>
0
);
assert
(
Vec_IntEntryLast
(
vAig
)
<
2
);
if
(
Vec_IntSize
(
vAig
)
==
1
)
// const
return
Vec_IntEntry
(
vAig
,
0
)
?
~
((
word
)
0
)
:
0
;
if
(
Vec_IntSize
(
vAig
)
==
2
)
// variable
{
assert
(
Vec_IntEntry
(
vAig
,
0
)
==
0
);
return
Vec_IntEntry
(
vAig
,
1
)
?
~
s_Truths6
[
0
]
:
s_Truths6
[
0
];
}
else
{
word
Truth0
,
Truth1
,
TruthR
;
int
i
,
iVar0
,
iVar1
,
iLit0
,
iLit1
;
assert
(
Vec_IntSize
(
vAig
)
&
1
);
Vec_IntForEachEntryDouble
(
vAig
,
iLit0
,
iLit1
,
i
)
{
iVar0
=
Abc_Lit2Var
(
iLit0
);
iVar1
=
Abc_Lit2Var
(
iLit1
);
Truth0
=
iVar0
<
nLeaves
?
s_Truths6
[
iVar0
]
:
Vec_WrdEntry
(
(
Vec_Wrd_t
*
)
vAig
,
iVar0
-
nLeaves
);
Truth1
=
iVar1
<
nLeaves
?
s_Truths6
[
iVar1
]
:
Vec_WrdEntry
(
(
Vec_Wrd_t
*
)
vAig
,
iVar1
-
nLeaves
);
if
(
Abc_LitIsCompl
(
iLit0
)
)
Truth0
=
~
Truth0
;
if
(
Abc_LitIsCompl
(
iLit1
)
)
Truth1
=
~
Truth1
;
assert
(
(
i
&
1
)
==
0
);
Vec_WrdWriteEntry
(
(
Vec_Wrd_t
*
)
vAig
,
Abc_Lit2Var
(
i
),
Truth0
&
Truth1
);
// overwriting entries
}
assert
(
i
==
Vec_IntSize
(
vAig
)
-
1
);
TruthR
=
Truth0
&
Truth1
;
if
(
Vec_IntEntry
(
vAig
,
i
)
^
fCompl
)
TruthR
=
~
TruthR
;
Vec_IntClear
(
vAig
);
// useless
return
TruthR
;
}
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
If_LogCreateAnd
(
Vec_Int_t
*
vAig
,
int
iLit0
,
int
iLit1
,
int
nSuppAll
)
{
int
iObjId
=
Vec_IntSize
(
vAig
)
/
2
+
nSuppAll
;
Vec_IntPush
(
vAig
,
iLit0
);
Vec_IntPush
(
vAig
,
iLit1
);
return
Abc_Var2Lit
(
iObjId
,
0
);
}
static
inline
int
If_LogCreateMux
(
Vec_Int_t
*
vAig
,
int
iLitC
,
int
iLit1
,
int
iLit0
,
int
nSuppAll
)
{
int
iFanLit0
=
If_LogCreateAnd
(
vAig
,
iLitC
,
iLit1
,
nSuppAll
);
int
iFanLit1
=
If_LogCreateAnd
(
vAig
,
Abc_LitNot
(
iLitC
),
iLit0
,
nSuppAll
);
int
iResLit
=
If_LogCreateAnd
(
vAig
,
Abc_LitNot
(
iFanLit0
),
Abc_LitNot
(
iFanLit1
),
nSuppAll
);
return
Abc_LitNot
(
iResLit
);
}
static
inline
int
If_LogCreateXor
(
Vec_Int_t
*
vAig
,
int
iLit0
,
int
iLit1
,
int
nSuppAll
)
{
return
If_LogCreateMux
(
vAig
,
iLit0
,
Abc_LitNot
(
iLit1
),
iLit1
,
nSuppAll
);
}
static
inline
int
If_LogCreateAndXor
(
Vec_Int_t
*
vAig
,
int
iLit0
,
int
iLit1
,
int
nSuppAll
,
int
fXor
)
{
return
fXor
?
If_LogCreateXor
(
vAig
,
iLit0
,
iLit1
,
nSuppAll
)
:
If_LogCreateAnd
(
vAig
,
iLit0
,
iLit1
,
nSuppAll
);
}
static
inline
int
If_LogCreateAndXorMulti
(
Vec_Int_t
*
vAig
,
int
*
pFaninLits
,
int
nFanins
,
int
nSuppAll
,
int
fXor
)
{
int
i
;
assert
(
nFanins
>
0
);
for
(
i
=
nFanins
-
1
;
i
>
0
;
i
--
)
pFaninLits
[
i
-
1
]
=
If_LogCreateAndXor
(
vAig
,
pFaninLits
[
i
],
pFaninLits
[
i
-
1
],
nSuppAll
,
fXor
);
return
pFaninLits
[
0
];
}
static
inline
int
If_LogCounterAddAig
(
int
*
pTimes
,
int
*
pnTimes
,
int
*
pFaninLits
,
int
Num
,
int
iLit
,
Vec_Int_t
*
vAig
,
int
nSuppAll
,
int
fXor
)
{
int
nTimes
=
*
pnTimes
;
if
(
vAig
)
pFaninLits
[
nTimes
]
=
iLit
;
pTimes
[
nTimes
++
]
=
Num
;
if
(
nTimes
>
1
)
{
int
i
,
k
;
for
(
k
=
nTimes
-
1
;
k
>
0
;
k
--
)
{
if
(
pTimes
[
k
]
<
pTimes
[
k
-
1
]
)
break
;
if
(
pTimes
[
k
]
>
pTimes
[
k
-
1
]
)
{
ABC_SWAP
(
int
,
pTimes
[
k
],
pTimes
[
k
-
1
]
);
if
(
vAig
)
ABC_SWAP
(
int
,
pFaninLits
[
k
],
pFaninLits
[
k
-
1
]
);
continue
;
}
pTimes
[
k
-
1
]
+=
1
+
fXor
;
if
(
vAig
)
pFaninLits
[
k
-
1
]
=
If_LogCreateAndXor
(
vAig
,
pFaninLits
[
k
],
pFaninLits
[
k
-
1
],
nSuppAll
,
fXor
);
for
(
nTimes
--
,
i
=
k
;
i
<
nTimes
;
i
++
)
{
pTimes
[
i
]
=
pTimes
[
i
+
1
];
if
(
vAig
)
pFaninLits
[
i
]
=
pFaninLits
[
i
+
1
];
}
}
}
assert
(
nTimes
>
0
);
*
pnTimes
=
nTimes
;
return
pTimes
[
0
]
+
(
nTimes
>
1
?
1
+
fXor
:
0
);
}
/**Function*************************************************************
Synopsis [Compute delay/area profile of the structure.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
If_CutPinDelayGet
(
word
D
,
int
v
)
{
assert
(
v
>=
0
&&
v
<
IF_MAX_FUNC_LUTSIZE
);
return
(
int
)((
D
>>
(
v
<<
2
))
&
0xF
);
}
static
inline
void
If_CutPinDelaySet
(
word
*
pD
,
int
v
,
int
d
)
{
assert
(
v
>=
0
&&
v
<
IF_MAX_FUNC_LUTSIZE
);
assert
(
d
>=
0
&&
d
<
IF_MAX_FUNC_LUTSIZE
);
*
pD
|=
((
word
)
d
<<
(
v
<<
2
));
}
static
inline
word
If_CutPinDelayInit
(
int
v
)
{
assert
(
v
>=
0
&&
v
<
IF_MAX_FUNC_LUTSIZE
);
return
(
word
)
1
<<
(
v
<<
2
);
}
static
inline
word
If_CutPinDelayMax
(
word
D1
,
word
D2
,
int
nVars
,
int
AddOn
)
{
int
v
,
Max
;
word
D
=
0
;
for
(
v
=
0
;
v
<
nVars
;
v
++
)
if
(
(
Max
=
Abc_MaxInt
(
If_CutPinDelayGet
(
D1
,
v
),
If_CutPinDelayGet
(
D2
,
v
)))
)
If_CutPinDelaySet
(
&
D
,
v
,
Abc_MinInt
(
Max
+
AddOn
,
15
)
);
return
D
;
}
static
inline
word
If_CutPinDelayDecrement
(
word
D1
,
int
nVars
)
{
int
v
;
word
D
=
0
;
for
(
v
=
0
;
v
<
nVars
;
v
++
)
if
(
If_CutPinDelayGet
(
D1
,
v
)
)
If_CutPinDelaySet
(
&
D
,
v
,
If_CutPinDelayGet
(
D1
,
v
)
-
1
);
return
D
;
}
static
inline
int
If_CutPinDelayEqual
(
word
D1
,
word
D2
,
int
nVars
)
// returns 1 if D1 has the same delays than D2
{
int
v
;
for
(
v
=
0
;
v
<
nVars
;
v
++
)
if
(
If_CutPinDelayGet
(
D1
,
v
)
!=
If_CutPinDelayGet
(
D2
,
v
)
)
return
0
;
return
1
;
}
static
inline
int
If_CutPinDelayDom
(
word
D1
,
word
D2
,
int
nVars
)
// returns 1 if D1 has the same or smaller delays than D2
{
int
v
;
for
(
v
=
0
;
v
<
nVars
;
v
++
)
if
(
If_CutPinDelayGet
(
D1
,
v
)
>
If_CutPinDelayGet
(
D2
,
v
)
)
return
0
;
return
1
;
}
static
inline
void
If_CutPinDelayTranslate
(
word
D
,
int
nVars
,
char
*
pPerm
)
// fills up the array
{
int
v
,
Delay
;
for
(
v
=
0
;
v
<
nVars
;
v
++
)
{
Delay
=
If_CutPinDelayGet
(
D
,
v
);
assert
(
Delay
>
1
);
pPerm
[
v
]
=
Delay
-
1
;
}
}
static
inline
void
If_CutPinDelayPrint
(
word
D
,
int
nVars
)
{
int
v
;
printf
(
"Delay profile = {"
);
for
(
v
=
0
;
v
<
nVars
;
v
++
)
printf
(
" %d"
,
If_CutPinDelayGet
(
D
,
v
)
);
printf
(
" }
\n
"
);
}
static
inline
int
If_LogCounterPinDelays
(
int
*
pTimes
,
int
*
pnTimes
,
word
*
pPinDels
,
int
Num
,
word
PinDel
,
int
nSuppAll
,
int
fXor
)
{
int
nTimes
=
*
pnTimes
;
pPinDels
[
nTimes
]
=
PinDel
;
pTimes
[
nTimes
++
]
=
Num
;
if
(
nTimes
>
1
)
{
int
i
,
k
;
for
(
k
=
nTimes
-
1
;
k
>
0
;
k
--
)
{
if
(
pTimes
[
k
]
<
pTimes
[
k
-
1
]
)
break
;
if
(
pTimes
[
k
]
>
pTimes
[
k
-
1
]
)
{
ABC_SWAP
(
int
,
pTimes
[
k
],
pTimes
[
k
-
1
]
);
ABC_SWAP
(
word
,
pPinDels
[
k
],
pPinDels
[
k
-
1
]
);
continue
;
}
pTimes
[
k
-
1
]
+=
1
+
fXor
;
pPinDels
[
k
-
1
]
=
If_CutPinDelayMax
(
pPinDels
[
k
],
pPinDels
[
k
-
1
],
nSuppAll
,
1
+
fXor
);
for
(
nTimes
--
,
i
=
k
;
i
<
nTimes
;
i
++
)
{
pTimes
[
i
]
=
pTimes
[
i
+
1
];
pPinDels
[
i
]
=
pPinDels
[
i
+
1
];
}
}
}
assert
(
nTimes
>
0
);
*
pnTimes
=
nTimes
;
return
pTimes
[
0
]
+
(
nTimes
>
1
?
1
+
fXor
:
0
);
}
static
inline
word
If_LogPinDelaysMulti
(
word
*
pPinDels
,
int
nFanins
,
int
nSuppAll
,
int
fXor
)
{
int
i
;
assert
(
nFanins
>
0
);
for
(
i
=
nFanins
-
1
;
i
>
0
;
i
--
)
pPinDels
[
i
-
1
]
=
If_CutPinDelayMax
(
pPinDels
[
i
],
pPinDels
[
i
-
1
],
nSuppAll
,
1
+
fXor
);
return
pPinDels
[
0
];
}
int
If_CutPinDelaysSopArray3IntInt
(
Vec_Int_t
*
vCover
,
int
*
pTimes
,
int
nSuppAll
,
char
*
pPerm
)
{
word
pPinDelsAnd
[
IF_MAX_FUNC_LUTSIZE
],
pPinDelsOr
[
32
];
int
nCounterAnd
,
pCounterAnd
[
IF_MAX_FUNC_LUTSIZE
];
int
nCounterOr
,
pCounterOr
[
32
];
int
i
,
k
,
Entry
,
Literal
,
Delay
=
0
;
word
ResAnd
,
ResOr
;
if
(
Vec_IntSize
(
vCover
)
>
32
)
return
-
1
;
nCounterOr
=
0
;
Vec_IntForEachEntry
(
vCover
,
Entry
,
i
)
{
nCounterAnd
=
0
;
// for ( k = 0; k < nSuppAll; k++ )
for
(
k
=
nSuppAll
-
1
;
k
>=
0
;
k
--
)
{
Literal
=
3
&
(
Entry
>>
(
k
<<
1
));
if
(
Literal
==
1
||
Literal
==
2
)
// neg or pos literal
Delay
=
If_LogCounterPinDelays
(
pCounterAnd
,
&
nCounterAnd
,
pPinDelsAnd
,
pTimes
[
k
],
If_CutPinDelayInit
(
k
),
nSuppAll
,
0
);
else
if
(
Literal
!=
0
)
assert
(
0
);
}
assert
(
nCounterAnd
>
0
);
ResAnd
=
If_LogPinDelaysMulti
(
pPinDelsAnd
,
nCounterAnd
,
nSuppAll
,
0
);
Delay
=
If_LogCounterPinDelays
(
pCounterOr
,
&
nCounterOr
,
pPinDelsOr
,
Delay
,
ResAnd
,
nSuppAll
,
0
);
}
assert
(
nCounterOr
>
0
);
ResOr
=
If_LogPinDelaysMulti
(
pPinDelsOr
,
nCounterOr
,
nSuppAll
,
0
);
If_CutPinDelayTranslate
(
ResOr
,
nSuppAll
,
pPerm
);
return
Delay
;
}
int
If_CutPinDelaysSopArray3Int
(
unsigned
*
pTruth
,
int
nLeaves
,
int
*
pTimes
,
Vec_Int_t
*
vCover
,
char
*
pPerm
)
{
int
RetValue
=
Kit_TruthIsop
(
pTruth
,
nLeaves
,
vCover
,
1
);
if
(
RetValue
==
-
1
)
return
-
1
;
// Kit_TruthIsopPrint( pTruth, nLeaves, vCover, 1 );
return
If_CutPinDelaysSopArray3IntInt
(
vCover
,
pTimes
,
nLeaves
,
pPerm
);
}
int
If_CutPinDelaysSopArray3
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
,
char
*
pPerm
)
{
if
(
p
->
vCover
==
NULL
)
p
->
vCover
=
Vec_IntAlloc
(
0
);
if
(
pCut
->
nLeaves
==
0
)
// const
return
0
;
if
(
pCut
->
nLeaves
==
1
)
// variable
{
pPerm
[
0
]
=
0
;
return
(
int
)
If_ObjCutBest
(
If_CutLeaf
(
p
,
pCut
,
0
))
->
Delay
;
}
else
{
int
i
,
pTimes
[
IF_MAX_FUNC_LUTSIZE
];
for
(
i
=
0
;
i
<
If_CutLeaveNum
(
pCut
);
i
++
)
pTimes
[
i
]
=
(
int
)
If_ObjCutBest
(
If_CutLeaf
(
p
,
pCut
,
i
))
->
Delay
;
return
If_CutPinDelaysSopArray3Int
(
If_CutTruth
(
p
,
pCut
),
If_CutLeaveNum
(
pCut
),
pTimes
,
p
->
vCover
,
pPerm
);
}
}
/**Function*************************************************************
Synopsis [Evaluate delay using SOP balancing.]
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
If_CutDelaySopArray3IntInt
(
Vec_Int_t
*
vCover
,
int
*
pTimes
,
Vec_Int_t
*
vAig
,
int
*
piRes
,
int
nSuppAll
,
int
*
pArea
)
{
int
nCounterAnd
,
pCounterAnd
[
IF_MAX_FUNC_LUTSIZE
],
pFaninLitsAnd
[
IF_MAX_FUNC_LUTSIZE
];
int
nCounterOr
,
pCounterOr
[
32
],
pFaninLitsOr
[
32
];
int
i
,
k
,
Entry
,
Literal
,
nLits
,
Delay
=
0
,
iRes
=
0
;
if
(
Vec_IntSize
(
vCover
)
>
32
)
return
-
1
;
nCounterOr
=
0
;
Vec_IntForEachEntry
(
vCover
,
Entry
,
i
)
{
nCounterAnd
=
nLits
=
0
;
for
(
k
=
0
;
k
<
nSuppAll
;
k
++
)
{
Literal
=
3
&
(
Entry
>>
(
k
<<
1
));
if
(
Literal
==
1
)
// neg literal
nLits
++
,
Delay
=
If_LogCounterAddAig
(
pCounterAnd
,
&
nCounterAnd
,
pFaninLitsAnd
,
pTimes
[
k
],
Abc_Var2Lit
(
k
,
1
),
vAig
,
nSuppAll
,
0
);
else
if
(
Literal
==
2
)
// pos literal
nLits
++
,
Delay
=
If_LogCounterAddAig
(
pCounterAnd
,
&
nCounterAnd
,
pFaninLitsAnd
,
pTimes
[
k
],
Abc_Var2Lit
(
k
,
0
),
vAig
,
nSuppAll
,
0
);
else
if
(
Literal
!=
0
)
assert
(
0
);
}
assert
(
nCounterAnd
>
0
);
assert
(
nLits
>
0
);
if
(
vAig
)
iRes
=
If_LogCreateAndXorMulti
(
vAig
,
pFaninLitsAnd
,
nCounterAnd
,
nSuppAll
,
0
);
else
*
pArea
+=
nLits
==
1
?
0
:
nLits
-
1
;
Delay
=
If_LogCounterAddAig
(
pCounterOr
,
&
nCounterOr
,
pFaninLitsOr
,
Delay
,
Abc_LitNot
(
iRes
),
vAig
,
nSuppAll
,
0
);
}
assert
(
nCounterOr
>
0
);
if
(
vAig
)
*
piRes
=
Abc_LitNot
(
If_LogCreateAndXorMulti
(
vAig
,
pFaninLitsOr
,
nCounterOr
,
nSuppAll
,
0
)
);
else
*
pArea
+=
Vec_IntSize
(
vCover
)
==
1
?
0
:
Vec_IntSize
(
vCover
)
-
1
;
return
Delay
;
}
int
If_CutDelaySopArray3Int
(
unsigned
*
pTruth
,
int
nLeaves
,
int
*
pTimes
,
Vec_Int_t
*
vCover
,
Vec_Int_t
*
vAig
,
int
fCompl
,
int
*
pArea
)
{
int
iRes
=
0
,
Res
;
int
RetValue
=
Kit_TruthIsop
(
pTruth
,
nLeaves
,
vCover
,
1
);
if
(
RetValue
==
-
1
)
return
-
1
;
Res
=
If_CutDelaySopArray3IntInt
(
vCover
,
pTimes
,
vAig
,
&
iRes
,
nLeaves
,
pArea
);
assert
(
vAig
==
NULL
||
Abc_Lit2Var
(
iRes
)
==
nLeaves
+
Abc_Lit2Var
(
Vec_IntSize
(
vAig
))
-
1
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
RetValue
^
Abc_LitIsCompl
(
iRes
)
^
fCompl
);
assert
(
vAig
==
NULL
||
(
Vec_IntSize
(
vAig
)
&
1
)
);
return
Res
;
}
int
If_CutDelaySopArray3
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
,
Vec_Int_t
*
vAig
)
{
pCut
->
fUser
=
1
;
if
(
p
->
vCover
==
NULL
)
p
->
vCover
=
Vec_IntAlloc
(
0
);
if
(
vAig
)
Vec_IntClear
(
vAig
);
if
(
pCut
->
nLeaves
==
0
)
// const
{
assert
(
Abc_Lit2Var
(
If_CutTruthLit
(
pCut
))
==
0
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
Abc_LitIsCompl
(
If_CutTruthLit
(
pCut
))
);
return
0
;
}
if
(
pCut
->
nLeaves
==
1
)
// variable
{
assert
(
Abc_Lit2Var
(
If_CutTruthLit
(
pCut
))
==
1
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
0
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
Abc_LitIsCompl
(
If_CutTruthLit
(
pCut
))
);
return
(
int
)
If_ObjCutBest
(
If_CutLeaf
(
p
,
pCut
,
0
))
->
Delay
;
}
else
{
int
Delay
,
Area
=
0
;
int
i
,
pTimes
[
IF_MAX_FUNC_LUTSIZE
];
for
(
i
=
0
;
i
<
If_CutLeaveNum
(
pCut
);
i
++
)
pTimes
[
i
]
=
(
int
)
If_ObjCutBest
(
If_CutLeaf
(
p
,
pCut
,
i
))
->
Delay
;
Delay
=
If_CutDelaySopArray3Int
(
If_CutTruth
(
p
,
pCut
),
If_CutLeaveNum
(
pCut
),
pTimes
,
p
->
vCover
,
vAig
,
0
,
&
Area
);
pCut
->
Cost
=
Area
;
return
Delay
;
}
}
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
ABC_NAMESPACE_IMPL_END
src/map/if/ifDsd.c
View file @
9c502b70
...
@@ -1849,14 +1849,271 @@ void If_DsdManTest()
...
@@ -1849,14 +1849,271 @@ void If_DsdManTest()
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
inline
int
If_LogCounterAdd
(
int
*
pTimes
,
int
*
pnTimes
,
int
Num
,
int
fXor
)
{
int
nTimes
=
*
pnTimes
;
pTimes
[
nTimes
++
]
=
Num
;
if
(
nTimes
>
1
)
{
int
i
,
k
;
for
(
k
=
nTimes
-
1
;
k
>
0
;
k
--
)
{
if
(
pTimes
[
k
]
<
pTimes
[
k
-
1
]
)
break
;
if
(
pTimes
[
k
]
>
pTimes
[
k
-
1
]
)
{
ABC_SWAP
(
int
,
pTimes
[
k
],
pTimes
[
k
-
1
]
);
continue
;
}
pTimes
[
k
-
1
]
+=
1
+
fXor
;
for
(
nTimes
--
,
i
=
k
;
i
<
nTimes
;
i
++
)
pTimes
[
i
]
=
pTimes
[
i
+
1
];
}
}
assert
(
nTimes
>
0
);
*
pnTimes
=
nTimes
;
return
pTimes
[
0
]
+
(
nTimes
>
1
?
1
+
fXor
:
0
);
}
int
If_DsdCutBalanceCost_rec
(
If_DsdMan_t
*
p
,
int
Id
,
int
*
pTimes
,
int
*
pArea
,
int
*
pnSupp
)
{
If_DsdObj_t
*
pObj
=
If_DsdVecObj
(
&
p
->
vObjs
,
Id
);
if
(
If_DsdObjType
(
pObj
)
==
IF_DSD_PRIME
)
return
-
1
;
if
(
If_DsdObjType
(
pObj
)
==
IF_DSD_VAR
)
return
pTimes
[(
*
pnSupp
)
++
];
if
(
If_DsdObjType
(
pObj
)
==
IF_DSD_MUX
)
{
int
i
,
iFanin
,
Delay
[
3
];
If_DsdObjForEachFaninLit
(
&
p
->
vObjs
,
pObj
,
iFanin
,
i
)
{
Delay
[
i
]
=
If_DsdCutBalanceCost_rec
(
p
,
Abc_Lit2Var
(
iFanin
),
pTimes
,
pArea
,
pnSupp
);
if
(
Delay
[
i
]
==
-
1
)
return
-
1
;
}
*
pArea
+=
3
;
return
2
+
Abc_MaxInt
(
Delay
[
0
],
Abc_MaxInt
(
Delay
[
1
],
Delay
[
2
]));
}
else
{
int
i
,
iFanin
,
Delay
,
Result
=
0
;
int
nCounter
=
0
,
pCounter
[
IF_MAX_FUNC_LUTSIZE
];
assert
(
If_DsdObjType
(
pObj
)
==
IF_DSD_AND
||
If_DsdObjType
(
pObj
)
==
IF_DSD_XOR
);
If_DsdObjForEachFaninLit
(
&
p
->
vObjs
,
pObj
,
iFanin
,
i
)
{
Delay
=
If_DsdCutBalanceCost_rec
(
p
,
Abc_Lit2Var
(
iFanin
),
pTimes
,
pArea
,
pnSupp
);
if
(
Delay
==
-
1
)
return
-
1
;
Result
=
If_LogCounterAdd
(
pCounter
,
&
nCounter
,
Delay
,
If_DsdObjType
(
pObj
)
==
IF_DSD_XOR
);
}
*
pArea
+=
(
If_DsdObjType
(
pObj
)
==
IF_DSD_XOR
?
3
:
1
);
return
Result
;
}
}
int
If_DsdCutBalanceCostInt
(
If_DsdMan_t
*
p
,
int
iDsd
,
int
*
pTimes
,
int
*
pArea
)
{
int
nSupp
=
0
;
int
Res
=
If_DsdCutBalanceCost_rec
(
p
,
Abc_Lit2Var
(
iDsd
),
pTimes
,
pArea
,
&
nSupp
);
assert
(
nSupp
==
If_DsdVecLitSuppSize
(
&
p
->
vObjs
,
iDsd
)
);
return
Res
;
}
int
If_DsdCutBalanceCost
(
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
)
int
If_DsdCutBalanceCost
(
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
)
{
{
return
0
;
pCut
->
fUser
=
1
;
pCut
->
Cost
=
0
;
if
(
pCut
->
nLeaves
==
0
)
return
0
;
if
(
pCut
->
nLeaves
==
1
)
return
(
int
)
If_ObjCutBest
(
If_CutLeaf
(
pIfMan
,
pCut
,
0
))
->
Delay
;
else
{
If_Obj_t
*
pLeaf
;
int
i
,
Delay
,
Area
=
0
,
pTimes
[
IF_MAX_FUNC_LUTSIZE
];
If_CutForEachLeaf
(
pIfMan
,
pCut
,
pLeaf
,
i
)
pTimes
[
i
]
=
(
int
)
If_ObjCutBest
(
pLeaf
)
->
Delay
;
Delay
=
If_DsdCutBalanceCostInt
(
pIfMan
->
pIfDsdMan
,
If_CutDsdLit
(
pCut
),
pTimes
,
&
Area
);
pCut
->
Cost
=
Area
;
return
Delay
;
}
}
}
int
If_DsdCutBalance
(
void
*
pGia
,
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
,
Vec_Int_t
*
vLeaves
,
int
fHash
)
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
static
inline
int
If_LogCreateAnd
(
Vec_Int_t
*
vAig
,
int
iLit0
,
int
iLit1
,
int
nSuppAll
)
{
{
Gia_Man_t
*
p
=
(
Gia_Man_t
*
)
pGia
;
int
iObjId
=
Vec_IntSize
(
vAig
)
/
2
+
nSuppAll
;
return
0
;
Vec_IntPush
(
vAig
,
iLit0
);
Vec_IntPush
(
vAig
,
iLit1
);
return
Abc_Var2Lit
(
iObjId
,
0
);
}
static
inline
int
If_LogCreateMux
(
Vec_Int_t
*
vAig
,
int
iLitC
,
int
iLit1
,
int
iLit0
,
int
nSuppAll
)
{
int
iFanLit0
=
If_LogCreateAnd
(
vAig
,
iLitC
,
iLit1
,
nSuppAll
);
int
iFanLit1
=
If_LogCreateAnd
(
vAig
,
Abc_LitNot
(
iLitC
),
iLit0
,
nSuppAll
);
int
iResLit
=
If_LogCreateAnd
(
vAig
,
Abc_LitNot
(
iFanLit0
),
Abc_LitNot
(
iFanLit1
),
nSuppAll
);
return
Abc_LitNot
(
iResLit
);
}
static
inline
int
If_LogCreateXor
(
Vec_Int_t
*
vAig
,
int
iLit0
,
int
iLit1
,
int
nSuppAll
)
{
return
If_LogCreateMux
(
vAig
,
iLit0
,
Abc_LitNot
(
iLit1
),
iLit1
,
nSuppAll
);
}
static
inline
int
If_LogCreateAndXor
(
Vec_Int_t
*
vAig
,
int
iLit0
,
int
iLit1
,
int
nSuppAll
,
int
fXor
)
{
return
fXor
?
If_LogCreateXor
(
vAig
,
iLit0
,
iLit1
,
nSuppAll
)
:
If_LogCreateAnd
(
vAig
,
iLit0
,
iLit1
,
nSuppAll
);
}
static
inline
int
If_LogCreateAndXorMulti
(
Vec_Int_t
*
vAig
,
int
*
pFaninLits
,
int
nFanins
,
int
nSuppAll
,
int
fXor
)
{
int
i
;
assert
(
nFanins
>
0
);
for
(
i
=
nFanins
-
1
;
i
>
0
;
i
--
)
pFaninLits
[
i
-
1
]
=
If_LogCreateAndXor
(
vAig
,
pFaninLits
[
i
],
pFaninLits
[
i
-
1
],
nSuppAll
,
fXor
);
return
pFaninLits
[
0
];
}
static
inline
int
If_LogCounterAddAig
(
int
*
pTimes
,
int
*
pnTimes
,
int
*
pFaninLits
,
int
Num
,
int
iLit
,
Vec_Int_t
*
vAig
,
int
nSuppAll
,
int
fXor
)
{
int
nTimes
=
*
pnTimes
;
if
(
vAig
)
pFaninLits
[
nTimes
]
=
iLit
;
pTimes
[
nTimes
++
]
=
Num
;
if
(
nTimes
>
1
)
{
int
i
,
k
;
for
(
k
=
nTimes
-
1
;
k
>
0
;
k
--
)
{
if
(
pTimes
[
k
]
<
pTimes
[
k
-
1
]
)
break
;
if
(
pTimes
[
k
]
>
pTimes
[
k
-
1
]
)
{
ABC_SWAP
(
int
,
pTimes
[
k
],
pTimes
[
k
-
1
]
);
if
(
vAig
)
ABC_SWAP
(
int
,
pFaninLits
[
k
],
pFaninLits
[
k
-
1
]
);
continue
;
}
pTimes
[
k
-
1
]
+=
1
+
fXor
;
if
(
vAig
)
pFaninLits
[
k
-
1
]
=
If_LogCreateAndXor
(
vAig
,
pFaninLits
[
k
],
pFaninLits
[
k
-
1
],
nSuppAll
,
fXor
);
for
(
nTimes
--
,
i
=
k
;
i
<
nTimes
;
i
++
)
{
pTimes
[
i
]
=
pTimes
[
i
+
1
];
if
(
vAig
)
pFaninLits
[
i
]
=
pFaninLits
[
i
+
1
];
}
}
}
assert
(
nTimes
>
0
);
*
pnTimes
=
nTimes
;
return
pTimes
[
0
]
+
(
nTimes
>
1
?
1
+
fXor
:
0
);
}
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
int
If_DsdCutBalanceAig_rec
(
If_DsdMan_t
*
p
,
int
Id
,
int
*
pTimes
,
int
*
pnSupp
,
Vec_Int_t
*
vAig
,
int
*
piLit
,
int
nSuppAll
,
int
*
pArea
)
{
If_DsdObj_t
*
pObj
=
If_DsdVecObj
(
&
p
->
vObjs
,
Id
);
if
(
If_DsdObjType
(
pObj
)
==
IF_DSD_PRIME
)
return
-
1
;
if
(
If_DsdObjType
(
pObj
)
==
IF_DSD_VAR
)
{
if
(
vAig
)
*
piLit
=
Abc_Var2Lit
(
*
pnSupp
,
0
);
return
pTimes
[(
*
pnSupp
)
++
];
}
if
(
If_DsdObjType
(
pObj
)
==
IF_DSD_MUX
)
{
int
i
,
iFanin
,
Delay
[
3
],
pFaninLits
[
3
];
If_DsdObjForEachFaninLit
(
&
p
->
vObjs
,
pObj
,
iFanin
,
i
)
{
Delay
[
i
]
=
If_DsdCutBalanceAig_rec
(
p
,
Abc_Lit2Var
(
iFanin
),
pTimes
,
pnSupp
,
vAig
,
pFaninLits
+
i
,
nSuppAll
,
pArea
);
if
(
Delay
[
i
]
==
-
1
)
return
-
1
;
}
if
(
vAig
)
*
piLit
=
If_LogCreateMux
(
vAig
,
pFaninLits
[
0
],
pFaninLits
[
1
],
pFaninLits
[
2
],
nSuppAll
);
else
*
pArea
+=
3
;
return
2
+
Abc_MaxInt
(
Delay
[
0
],
Abc_MaxInt
(
Delay
[
1
],
Delay
[
2
]));
}
assert
(
If_DsdObjType
(
pObj
)
==
IF_DSD_AND
||
If_DsdObjType
(
pObj
)
==
IF_DSD_XOR
);
{
int
i
,
iFanin
,
Delay
,
Result
=
0
;
int
fXor
=
(
If_DsdObjType
(
pObj
)
==
IF_DSD_XOR
);
int
nCounter
=
0
,
pCounter
[
IF_MAX_FUNC_LUTSIZE
],
pFaninLits
[
IF_MAX_FUNC_LUTSIZE
];
If_DsdObjForEachFaninLit
(
&
p
->
vObjs
,
pObj
,
iFanin
,
i
)
{
Delay
=
If_DsdCutBalanceAig_rec
(
p
,
Abc_Lit2Var
(
iFanin
),
pTimes
,
pnSupp
,
vAig
,
pFaninLits
+
i
,
nSuppAll
,
pArea
);
if
(
Delay
==
-
1
)
return
-
1
;
Result
=
If_LogCounterAddAig
(
pCounter
,
&
nCounter
,
pFaninLits
,
Delay
,
pFaninLits
[
i
],
vAig
,
nSuppAll
,
fXor
);
}
if
(
vAig
)
*
piLit
=
If_LogCreateAndXorMulti
(
vAig
,
pFaninLits
,
nCounter
,
nSuppAll
,
fXor
);
else
*
pArea
+=
(
pObj
->
nFans
-
1
)
*
(
1
+
2
*
fXor
);
return
Result
;
}
}
int
If_DsdCutBalanceAigInt
(
If_DsdMan_t
*
p
,
int
iDsd
,
int
*
pTimes
,
Vec_Int_t
*
vAig
,
int
*
pArea
)
{
int
nSupp
=
0
,
iLit
=
0
;
int
nSuppAll
=
If_DsdVecLitSuppSize
(
&
p
->
vObjs
,
iDsd
);
int
Res
=
If_DsdCutBalanceAig_rec
(
p
,
Abc_Lit2Var
(
iDsd
),
pTimes
,
&
nSupp
,
vAig
,
&
iLit
,
nSuppAll
,
pArea
);
assert
(
nSupp
==
nSuppAll
);
assert
(
vAig
==
NULL
||
Abc_Lit2Var
(
iLit
)
==
nSupp
+
Abc_Lit2Var
(
Vec_IntSize
(
vAig
))
-
1
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
Abc_LitIsCompl
(
iLit
)
);
assert
(
vAig
==
NULL
||
(
Vec_IntSize
(
vAig
)
&
1
)
);
return
Res
;
}
int
If_DsdCutBalanceAig
(
If_Man_t
*
pIfMan
,
If_Cut_t
*
pCut
,
Vec_Int_t
*
vAig
)
{
pCut
->
fUser
=
1
;
if
(
vAig
)
Vec_IntClear
(
vAig
);
if
(
pCut
->
nLeaves
==
0
)
// const
{
assert
(
Abc_Lit2Var
(
If_CutDsdLit
(
pCut
))
==
0
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
Abc_LitIsCompl
(
If_CutDsdLit
(
pCut
))
);
return
0
;
}
if
(
pCut
->
nLeaves
==
1
)
// variable
{
assert
(
Abc_Lit2Var
(
If_CutDsdLit
(
pCut
))
==
1
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
0
);
if
(
vAig
)
Vec_IntPush
(
vAig
,
Abc_LitIsCompl
(
If_CutDsdLit
(
pCut
))
);
return
(
int
)
If_ObjCutBest
(
If_CutLeaf
(
pIfMan
,
pCut
,
0
))
->
Delay
;
}
else
{
If_Obj_t
*
pLeaf
;
int
i
,
pTimes
[
IF_MAX_FUNC_LUTSIZE
];
int
Delay
,
Area
=
0
;
If_CutForEachLeaf
(
pIfMan
,
pCut
,
pLeaf
,
i
)
pTimes
[
i
]
=
(
int
)
If_ObjCutBest
(
pLeaf
)
->
Delay
;
Delay
=
If_DsdCutBalanceAigInt
(
pIfMan
->
pIfDsdMan
,
If_CutDsdLit
(
pCut
),
pTimes
,
vAig
,
&
Area
);
pCut
->
Cost
=
Area
;
return
Delay
;
}
}
}
...
...
src/map/if/ifMan.c
View file @
9c502b70
...
@@ -206,6 +206,7 @@ void If_ManStop( If_Man_t * p )
...
@@ -206,6 +206,7 @@ void If_ManStop( If_Man_t * p )
Vec_PtrFree
(
p
->
vObjs
);
Vec_PtrFree
(
p
->
vObjs
);
Vec_PtrFree
(
p
->
vTemp
);
Vec_PtrFree
(
p
->
vTemp
);
Vec_IntFreeP
(
&
p
->
vCover
);
Vec_IntFreeP
(
&
p
->
vCover
);
Vec_IntFreeP
(
&
p
->
vArray
);
Vec_WrdFreeP
(
&
p
->
vAnds
);
Vec_WrdFreeP
(
&
p
->
vAnds
);
Vec_WrdFreeP
(
&
p
->
vAndGate
);
Vec_WrdFreeP
(
&
p
->
vAndGate
);
Vec_WrdFreeP
(
&
p
->
vOrGate
);
Vec_WrdFreeP
(
&
p
->
vOrGate
);
...
...
src/map/if/ifMap.c
View file @
9c502b70
...
@@ -125,6 +125,7 @@ void If_ObjPerformMappingAnd( If_Man_t * p, If_Obj_t * pObj, int Mode, int fPrep
...
@@ -125,6 +125,7 @@ void If_ObjPerformMappingAnd( If_Man_t * p, If_Obj_t * pObj, int Mode, int fPrep
// recompute the parameters of the best cut
// recompute the parameters of the best cut
if
(
p
->
pPars
->
fDelayOpt
)
if
(
p
->
pPars
->
fDelayOpt
)
pCut
->
Delay
=
If_CutDelaySopCost
(
p
,
pCut
);
pCut
->
Delay
=
If_CutDelaySopCost
(
p
,
pCut
);
// pCut->Delay = If_CutDelaySopArray3( p, pCut, NULL );
else
if
(
p
->
pPars
->
fDsdBalance
)
else
if
(
p
->
pPars
->
fDsdBalance
)
pCut
->
Delay
=
If_DsdCutBalanceCost
(
p
,
pCut
);
pCut
->
Delay
=
If_DsdCutBalanceCost
(
p
,
pCut
);
else
if
(
p
->
pPars
->
fUserRecLib
)
else
if
(
p
->
pPars
->
fUserRecLib
)
...
@@ -281,6 +282,7 @@ void If_ObjPerformMappingAnd( If_Man_t * p, If_Obj_t * pObj, int Mode, int fPrep
...
@@ -281,6 +282,7 @@ void If_ObjPerformMappingAnd( If_Man_t * p, If_Obj_t * pObj, int Mode, int fPrep
// check if the cut satisfies the required times
// check if the cut satisfies the required times
if
(
p
->
pPars
->
fDelayOpt
)
if
(
p
->
pPars
->
fDelayOpt
)
pCut
->
Delay
=
If_CutDelaySopCost
(
p
,
pCut
);
pCut
->
Delay
=
If_CutDelaySopCost
(
p
,
pCut
);
// pCut->Delay = If_CutDelaySopArray3( p, pCut, NULL );
else
if
(
p
->
pPars
->
fDsdBalance
)
else
if
(
p
->
pPars
->
fDsdBalance
)
pCut
->
Delay
=
If_DsdCutBalanceCost
(
p
,
pCut
);
pCut
->
Delay
=
If_DsdCutBalanceCost
(
p
,
pCut
);
else
if
(
p
->
pPars
->
fUserRecLib
)
else
if
(
p
->
pPars
->
fUserRecLib
)
...
...
src/map/if/ifTime.c
View file @
9c502b70
...
@@ -249,7 +249,7 @@ Vec_Wrd_t * If_CutDelaySopAnds( If_Man_t * p, If_Cut_t * pCut, Vec_Int_t * vCove
...
@@ -249,7 +249,7 @@ Vec_Wrd_t * If_CutDelaySopAnds( If_Man_t * p, If_Cut_t * pCut, Vec_Int_t * vCove
***********************************************************************/
***********************************************************************/
Vec_Wrd_t
*
If_CutDelaySopArray
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
Vec_Wrd_t
*
If_CutDelaySopArray
(
If_Man_t
*
p
,
If_Cut_t
*
pCut
)
{
{
abctime
clk
;
abctime
clk
;
Vec_Wrd_t
*
vAnds
;
Vec_Wrd_t
*
vAnds
;
int
RetValue
;
int
RetValue
;
...
@@ -265,7 +265,6 @@ Vec_Wrd_t * If_CutDelaySopArray( If_Man_t * p, If_Cut_t * pCut )
...
@@ -265,7 +265,6 @@ Vec_Wrd_t * If_CutDelaySopArray( If_Man_t * p, If_Cut_t * pCut )
if
(
RetValue
==
-
1
)
if
(
RetValue
==
-
1
)
return
NULL
;
return
NULL
;
assert
(
RetValue
==
0
||
RetValue
==
1
);
assert
(
RetValue
==
0
||
RetValue
==
1
);
clk
=
Abc_Clock
();
clk
=
Abc_Clock
();
vAnds
=
If_CutDelaySopAnds
(
p
,
pCut
,
p
->
vCover
,
RetValue
);
vAnds
=
If_CutDelaySopAnds
(
p
,
pCut
,
p
->
vCover
,
RetValue
);
s_timeOld
+=
Abc_Clock
()
-
clk
;
s_timeOld
+=
Abc_Clock
()
-
clk
;
...
@@ -343,6 +342,8 @@ int If_CutDelaySopCost( If_Man_t * p, If_Cut_t * pCut )
...
@@ -343,6 +342,8 @@ int If_CutDelaySopCost( If_Man_t * p, If_Cut_t * pCut )
If_And_t
Leaf
;
If_And_t
Leaf
;
Vec_Wrd_t
*
vAnds
;
Vec_Wrd_t
*
vAnds
;
int
i
,
Delay
;
int
i
,
Delay
;
// char pPerm[16];
// int Delay2, TestArea;
// mark cut as a user cut
// mark cut as a user cut
pCut
->
fUser
=
1
;
pCut
->
fUser
=
1
;
vAnds
=
If_CutDelaySopArray
(
p
,
pCut
);
vAnds
=
If_CutDelaySopArray
(
p
,
pCut
);
...
@@ -357,12 +358,12 @@ int If_CutDelaySopCost( If_Man_t * p, If_Cut_t * pCut )
...
@@ -357,12 +358,12 @@ int If_CutDelaySopCost( If_Man_t * p, If_Cut_t * pCut )
Leaf
=
If_WrdToAnd
(
Vec_WrdEntryLast
(
vAnds
)
);
Leaf
=
If_WrdToAnd
(
Vec_WrdEntryLast
(
vAnds
)
);
else
else
Leaf
.
Delay
=
0
;
Leaf
.
Delay
=
0
;
if
(
Vec_WrdSize
(
vAnds
)
>
(
int
)
pCut
->
nLeaves
)
if
(
pCut
->
nLeaves
==
0
)
pCut
->
Cost
=
Vec_WrdSize
(
vAnds
)
-
pCut
->
nLeaves
;
pCut
->
Cost
=
0
;
else
if
(
pCut
->
nLeaves
==
1
)
else
if
(
pCut
->
nLeaves
==
1
)
pCut
->
Cost
=
1
;
else
if
(
pCut
->
nLeaves
==
0
)
pCut
->
Cost
=
0
;
pCut
->
Cost
=
0
;
else
if
(
Vec_WrdSize
(
vAnds
)
>
(
int
)
pCut
->
nLeaves
)
pCut
->
Cost
=
Vec_WrdSize
(
vAnds
)
-
pCut
->
nLeaves
;
else
assert
(
0
);
else
assert
(
0
);
// get the permutation
// get the permutation
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
...
@@ -375,6 +376,30 @@ int If_CutDelaySopCost( If_Man_t * p, If_Cut_t * pCut )
...
@@ -375,6 +376,30 @@ int If_CutDelaySopCost( If_Man_t * p, If_Cut_t * pCut )
// verify the delay
// verify the delay
// Delay = If_CutDelay( p, pObj, pCut );
// Delay = If_CutDelay( p, pObj, pCut );
// assert( (int)Leaf.Delay == Delay );
// assert( (int)Leaf.Delay == Delay );
/*
TestArea = pCut->Cost;
Delay = If_CutDelaySopArray3( p, pCut, NULL );
if ( Delay != (int)Leaf.Delay || (int)pCut->Cost != TestArea )
{
int s = 0;
Kit_DsdPrintFromTruth( If_CutTruth(p, pCut), pCut->nLeaves ); printf( "\n" );
Delay = If_CutDelaySopArray3( p, pCut, NULL );
}
Delay2 = If_CutPinDelaysSopArray3( p, pCut, pPerm );
assert( Delay == Delay2 );
for ( i = 0; i < (int)pCut->nLeaves; i++ )
{
if ( pPerm[i] != pCut->pPerm[i] )
{
int s = 0;
Kit_DsdPrintFromTruth( If_CutTruth(p, pCut), pCut->nLeaves ); printf( "\n" );
Delay2 = If_CutPinDelaysSopArray3( p, pCut, pPerm );
}
assert( pPerm[i] == pCut->pPerm[i] );
}
printf( "Corrrect\n" );
// printf( "%d ", Delay );
*/
return
Leaf
.
Delay
;
return
Leaf
.
Delay
;
}
}
...
@@ -717,6 +742,13 @@ void If_CutPropagateRequired( If_Man_t * p, If_Obj_t * pObj, If_Cut_t * pCut, fl
...
@@ -717,6 +742,13 @@ void If_CutPropagateRequired( If_Man_t * p, If_Obj_t * pObj, If_Cut_t * pCut, fl
{
{
if
(
pCut
->
fUser
)
if
(
pCut
->
fUser
)
{
{
/*
if ( p->pPars->fDelayOpt )
{
int Del = If_CutPinDelaysSopArray3( p, pCut, pCut->pPerm );
assert( Del == pCut->Delay );
}
*/
If_CutForEachLeaf
(
p
,
pCut
,
pLeaf
,
i
)
If_CutForEachLeaf
(
p
,
pCut
,
pLeaf
,
i
)
{
{
Pin2PinDelay
=
pCut
->
pPerm
?
(
pCut
->
pPerm
[
i
]
==
IF_BIG_CHAR
?
-
IF_BIG_CHAR
:
pCut
->
pPerm
[
i
])
:
1
;
Pin2PinDelay
=
pCut
->
pPerm
?
(
pCut
->
pPerm
[
i
]
==
IF_BIG_CHAR
?
-
IF_BIG_CHAR
:
pCut
->
pPerm
[
i
])
:
1
;
...
...
src/map/if/module.make
View file @
9c502b70
...
@@ -7,6 +7,7 @@ SRC += src/map/if/ifCom.c \
...
@@ -7,6 +7,7 @@ SRC += src/map/if/ifCom.c \
src/map/if/ifDec10.c
\
src/map/if/ifDec10.c
\
src/map/if/ifDec16.c
\
src/map/if/ifDec16.c
\
src/map/if/ifDec75.c
\
src/map/if/ifDec75.c
\
src/map/if/ifDelay.c
\
src/map/if/ifDsd.c
\
src/map/if/ifDsd.c
\
src/map/if/ifLibBox.c
\
src/map/if/ifLibBox.c
\
src/map/if/ifLibLut.c
\
src/map/if/ifLibLut.c
\
...
...
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