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lvzhengyang
abc
Commits
fdd8404b
Commit
fdd8404b
authored
Dec 28, 2016
by
Alan Mishchenko
Browse files
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Plain Diff
Updates to delay optimization project.
parent
1f45cca6
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2 changed files
with
230 additions
and
98 deletions
+230
-98
src/opt/sbd/sbdCut.c
+220
-97
src/opt/sbd/sbdInt.h
+10
-1
No files found.
src/opt/sbd/sbdCut.c
View file @
fdd8404b
...
@@ -28,36 +28,45 @@ ABC_NAMESPACE_IMPL_START
...
@@ -28,36 +28,45 @@ ABC_NAMESPACE_IMPL_START
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
#define SBD_MAX_CUTSIZE 8
#define SBD_MAX_CUTSIZE 8
#define SBD_MAX_CUTNUM
64
#define SBD_MAX_CUTNUM
1001
#define SBD_MAX_TT_WORDS ((SBD_MAX_CUTSIZE > 6) ? 1 << (SBD_MAX_CUTSIZE-6) : 1)
#define SBD_MAX_TT_WORDS ((SBD_MAX_CUTSIZE > 6) ? 1 << (SBD_MAX_CUTSIZE-6) : 1)
#define SBD_CUT_NO_LEAF
255
#define SBD_CUT_NO_LEAF
0xF
typedef
struct
Sbd_Cut_t_
Sbd_Cut_t
;
typedef
struct
Sbd_Cut_t_
Sbd_Cut_t
;
struct
Sbd_Cut_t_
struct
Sbd_Cut_t_
{
{
word
Sign
;
// signature
word
Sign
;
// signature
int
iFunc
;
// functionality
int
iFunc
;
// functionality
unsigned
Cost
:
24
;
// misc cut cost
int
Cost
;
// cut cost
unsigned
nLeaves
:
8
;
// the number of leaves
int
CostLev
;
// cut cost
unsigned
fSpec
:
1
;
// special cut
unsigned
nTreeLeaves
:
27
;
// cut cost
unsigned
nLeaves
:
4
;
// the number of leaves
int
pLeaves
[
SBD_MAX_CUTSIZE
];
// leaves
int
pLeaves
[
SBD_MAX_CUTSIZE
];
// leaves
};
};
typedef
struct
Sbd_Sto_t_
Sbd_Sto_t
;
struct
Sbd_Sto_t_
struct
Sbd_Sto_t_
{
{
int
nLutSize
;
int
nLutSize
;
int
nCutSize
;
int
nCutNum
;
int
nCutNum
;
int
fCutMin
;
int
fCutMin
;
int
fVerbose
;
int
fVerbose
;
Gia_Man_t
*
pGia
;
// user's AIG manager (will be modified by adding nodes)
Gia_Man_t
*
pGia
;
// user's AIG manager (will be modified by adding nodes)
Vec_Int_t
*
vMirrors
;
// mirrors for each node
Vec_Int_t
*
vDelays
;
// delays for each node
Vec_Int_t
*
vDelays
;
// delays for each node
Vec_Int_t
*
vLevels
;
// levels for each node
Vec_Int_t
*
vRefs
;
// refs for each node
Vec_Wec_t
*
vCuts
;
// cuts for each node
Vec_Wec_t
*
vCuts
;
// cuts for each node
Vec_Mem_t
*
vTtMem
;
// truth tables
Vec_Mem_t
*
vTtMem
;
// truth tables
Sbd_Cut_t
pCuts
[
3
][
SBD_MAX_CUTNUM
];
// temporary cuts
Sbd_Cut_t
pCuts
[
3
][
SBD_MAX_CUTNUM
];
// temporary cuts
Sbd_Cut_t
*
ppCuts
[
SBD_MAX_CUTNUM
];
// temporary cut pointers
Sbd_Cut_t
*
ppCuts
[
SBD_MAX_CUTNUM
];
// temporary cut pointers
abctime
clkStart
;
// starting time
abctime
clkStart
;
// starting time
double
CutCount
[
4
];
// cut counters
double
CutCount
[
4
];
// cut counters
int
nCutsSpec
;
// special cuts
int
nCutsOver
;
// overflow cuts
int
DelayMin
;
// minimum delay
};
};
static
inline
word
*
Sbd_CutTruth
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut
)
{
return
Vec_MemReadEntry
(
p
->
vTtMem
,
Abc_Lit2Var
(
pCut
->
iFunc
));
}
static
inline
word
*
Sbd_CutTruth
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut
)
{
return
Vec_MemReadEntry
(
p
->
vTtMem
,
Abc_Lit2Var
(
pCut
->
iFunc
));
}
...
@@ -70,45 +79,6 @@ static inline word * Sbd_CutTruth( Sbd_Sto_t * p, Sbd_Cut_t * pCut ) { return Ve
...
@@ -70,45 +79,6 @@ static inline word * Sbd_CutTruth( Sbd_Sto_t * p, Sbd_Cut_t * pCut ) { return Ve
/**Function*************************************************************
/**Function*************************************************************
Synopsis []
Description []
SideEffects []
SeeAlso []
***********************************************************************/
Sbd_Sto_t
*
Sbd_StoAlloc
(
Gia_Man_t
*
pGia
,
int
nLutSize
,
int
nCutNum
,
int
fCutMin
,
int
fVerbose
)
{
Sbd_Sto_t
*
p
;
assert
(
nLutSize
>
1
&&
nLutSize
<=
SBD_MAX_CUTSIZE
);
assert
(
nCutNum
>
1
&&
nCutNum
<
SBD_MAX_CUTNUM
);
p
=
ABC_CALLOC
(
Sbd_Sto_t
,
1
);
p
->
clkStart
=
Abc_Clock
();
p
->
nLutSize
=
nLutSize
;
p
->
nCutNum
=
nCutNum
;
p
->
fCutMin
=
fCutMin
;
p
->
fVerbose
=
fVerbose
;
p
->
pGia
=
pGia
;
p
->
vDelays
=
Vec_IntStart
(
Gia_ManObjNum
(
pGia
)
);
p
->
vCuts
=
Vec_WecStart
(
Gia_ManObjNum
(
pGia
)
);
p
->
vTtMem
=
fCutMin
?
Vec_MemAllocForTT
(
nLutSize
,
0
)
:
NULL
;
return
p
;
}
void
Sbd_StoFree
(
Sbd_Sto_t
*
p
)
{
Vec_IntFree
(
p
->
vDelays
);
Vec_WecFree
(
p
->
vCuts
);
if
(
p
->
fCutMin
)
Vec_MemHashFree
(
p
->
vTtMem
);
if
(
p
->
fCutMin
)
Vec_MemFree
(
p
->
vTtMem
);
ABC_FREE
(
p
);
}
/**Function*************************************************************
Synopsis [Check correctness of cuts.]
Synopsis [Check correctness of cuts.]
Description []
Description []
...
@@ -181,7 +151,7 @@ static inline int Sbd_CutSetCheckArray( Sbd_Cut_t ** ppCuts, int nCuts )
...
@@ -181,7 +151,7 @@ static inline int Sbd_CutSetCheckArray( Sbd_Cut_t ** ppCuts, int nCuts )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
static
inline
int
Sbd_CutMergeOrder
(
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
,
Sbd_Cut_t
*
pCut
,
int
n
L
utSize
)
static
inline
int
Sbd_CutMergeOrder
(
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
,
Sbd_Cut_t
*
pCut
,
int
n
C
utSize
)
{
{
int
nSize0
=
pCut0
->
nLeaves
;
int
nSize0
=
pCut0
->
nLeaves
;
int
nSize1
=
pCut1
->
nLeaves
;
int
nSize1
=
pCut1
->
nLeaves
;
...
@@ -189,14 +159,14 @@ static inline int Sbd_CutMergeOrder( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_C
...
@@ -189,14 +159,14 @@ static inline int Sbd_CutMergeOrder( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_C
int
k
,
*
pC1
=
pCut1
->
pLeaves
;
int
k
,
*
pC1
=
pCut1
->
pLeaves
;
int
c
,
*
pC
=
pCut
->
pLeaves
;
int
c
,
*
pC
=
pCut
->
pLeaves
;
// the case of the largest cut sizes
// the case of the largest cut sizes
if
(
nSize0
==
n
LutSize
&&
nSize1
==
nL
utSize
)
if
(
nSize0
==
n
CutSize
&&
nSize1
==
nC
utSize
)
{
{
for
(
i
=
0
;
i
<
nSize0
;
i
++
)
for
(
i
=
0
;
i
<
nSize0
;
i
++
)
{
{
if
(
pC0
[
i
]
!=
pC1
[
i
]
)
return
0
;
if
(
pC0
[
i
]
!=
pC1
[
i
]
)
return
0
;
pC
[
i
]
=
pC0
[
i
];
pC
[
i
]
=
pC0
[
i
];
}
}
pCut
->
nLeaves
=
n
L
utSize
;
pCut
->
nLeaves
=
n
C
utSize
;
pCut
->
iFunc
=
-
1
;
pCut
->
iFunc
=
-
1
;
pCut
->
Sign
=
pCut0
->
Sign
|
pCut1
->
Sign
;
pCut
->
Sign
=
pCut0
->
Sign
|
pCut1
->
Sign
;
return
1
;
return
1
;
...
@@ -207,7 +177,7 @@ static inline int Sbd_CutMergeOrder( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_C
...
@@ -207,7 +177,7 @@ static inline int Sbd_CutMergeOrder( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_C
if
(
nSize1
==
0
)
goto
FlushCut0
;
if
(
nSize1
==
0
)
goto
FlushCut0
;
while
(
1
)
while
(
1
)
{
{
if
(
c
==
n
L
utSize
)
return
0
;
if
(
c
==
n
C
utSize
)
return
0
;
if
(
pC0
[
i
]
<
pC1
[
k
]
)
if
(
pC0
[
i
]
<
pC1
[
k
]
)
{
{
pC
[
c
++
]
=
pC0
[
i
++
];
pC
[
c
++
]
=
pC0
[
i
++
];
...
@@ -227,7 +197,7 @@ static inline int Sbd_CutMergeOrder( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_C
...
@@ -227,7 +197,7 @@ static inline int Sbd_CutMergeOrder( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_C
}
}
FlushCut0:
FlushCut0:
if
(
c
+
nSize0
>
n
L
utSize
+
i
)
return
0
;
if
(
c
+
nSize0
>
n
C
utSize
+
i
)
return
0
;
while
(
i
<
nSize0
)
while
(
i
<
nSize0
)
pC
[
c
++
]
=
pC0
[
i
++
];
pC
[
c
++
]
=
pC0
[
i
++
];
pCut
->
nLeaves
=
c
;
pCut
->
nLeaves
=
c
;
...
@@ -236,7 +206,7 @@ FlushCut0:
...
@@ -236,7 +206,7 @@ FlushCut0:
return
1
;
return
1
;
FlushCut1:
FlushCut1:
if
(
c
+
nSize1
>
n
L
utSize
+
k
)
return
0
;
if
(
c
+
nSize1
>
n
C
utSize
+
k
)
return
0
;
while
(
k
<
nSize1
)
while
(
k
<
nSize1
)
pC
[
c
++
]
=
pC1
[
k
++
];
pC
[
c
++
]
=
pC1
[
k
++
];
pCut
->
nLeaves
=
c
;
pCut
->
nLeaves
=
c
;
...
@@ -244,7 +214,7 @@ FlushCut1:
...
@@ -244,7 +214,7 @@ FlushCut1:
pCut
->
Sign
=
pCut0
->
Sign
|
pCut1
->
Sign
;
pCut
->
Sign
=
pCut0
->
Sign
|
pCut1
->
Sign
;
return
1
;
return
1
;
}
}
static
inline
int
Sbd_CutMergeOrder2
(
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
,
Sbd_Cut_t
*
pCut
,
int
n
L
utSize
)
static
inline
int
Sbd_CutMergeOrder2
(
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
,
Sbd_Cut_t
*
pCut
,
int
n
C
utSize
)
{
{
int
x0
,
i0
=
0
,
nSize0
=
pCut0
->
nLeaves
,
*
pC0
=
pCut0
->
pLeaves
;
int
x0
,
i0
=
0
,
nSize0
=
pCut0
->
nLeaves
,
*
pC0
=
pCut0
->
pLeaves
;
int
x1
,
i1
=
0
,
nSize1
=
pCut1
->
nLeaves
,
*
pC1
=
pCut1
->
pLeaves
;
int
x1
,
i1
=
0
,
nSize1
=
pCut1
->
nLeaves
,
*
pC1
=
pCut1
->
pLeaves
;
...
@@ -255,7 +225,7 @@ static inline int Sbd_CutMergeOrder2( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_
...
@@ -255,7 +225,7 @@ static inline int Sbd_CutMergeOrder2( Sbd_Cut_t * pCut0, Sbd_Cut_t * pCut1, Sbd_
x1
=
(
i1
==
nSize1
)
?
ABC_INFINITY
:
pC1
[
i1
];
x1
=
(
i1
==
nSize1
)
?
ABC_INFINITY
:
pC1
[
i1
];
xMin
=
Abc_MinInt
(
x0
,
x1
);
xMin
=
Abc_MinInt
(
x0
,
x1
);
if
(
xMin
==
ABC_INFINITY
)
break
;
if
(
xMin
==
ABC_INFINITY
)
break
;
if
(
c
==
n
L
utSize
)
return
0
;
if
(
c
==
n
C
utSize
)
return
0
;
pC
[
c
++
]
=
xMin
;
pC
[
c
++
]
=
xMin
;
if
(
x0
==
xMin
)
i0
++
;
if
(
x0
==
xMin
)
i0
++
;
if
(
x1
==
xMin
)
i1
++
;
if
(
x1
==
xMin
)
i1
++
;
...
@@ -313,10 +283,30 @@ static inline int Sbd_CutSetLastCutIsContained( Sbd_Cut_t ** pCuts, int nCuts )
...
@@ -313,10 +283,30 @@ static inline int Sbd_CutSetLastCutIsContained( Sbd_Cut_t ** pCuts, int nCuts )
***********************************************************************/
***********************************************************************/
static
inline
int
Sbd_CutCompare
(
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
)
static
inline
int
Sbd_CutCompare
(
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
)
{
{
if
(
pCut0
->
nLeaves
<=
4
&&
pCut1
->
nLeaves
<=
4
)
{
if
(
pCut0
->
nLeaves
<
pCut1
->
nLeaves
)
return
-
1
;
if
(
pCut0
->
nLeaves
<
pCut1
->
nLeaves
)
return
-
1
;
if
(
pCut0
->
nLeaves
>
pCut1
->
nLeaves
)
return
1
;
if
(
pCut0
->
nLeaves
>
pCut1
->
nLeaves
)
return
1
;
if
(
pCut0
->
Cost
<
pCut1
->
Cost
)
return
-
1
;
if
(
pCut0
->
Cost
<
pCut1
->
Cost
)
return
-
1
;
if
(
pCut0
->
Cost
>
pCut1
->
Cost
)
return
1
;
if
(
pCut0
->
Cost
>
pCut1
->
Cost
)
return
1
;
if
(
pCut0
->
CostLev
<
pCut1
->
CostLev
)
return
-
1
;
if
(
pCut0
->
CostLev
>
pCut1
->
CostLev
)
return
1
;
}
else
if
(
pCut0
->
nLeaves
<=
4
)
return
-
1
;
else
if
(
pCut1
->
nLeaves
<=
4
)
return
1
;
else
{
if
(
pCut0
->
nTreeLeaves
<
pCut1
->
nTreeLeaves
)
return
-
1
;
if
(
pCut0
->
nTreeLeaves
>
pCut1
->
nTreeLeaves
)
return
1
;
if
(
pCut0
->
Cost
<
pCut1
->
Cost
)
return
-
1
;
if
(
pCut0
->
Cost
>
pCut1
->
Cost
)
return
1
;
if
(
pCut0
->
CostLev
<
pCut1
->
CostLev
)
return
-
1
;
if
(
pCut0
->
CostLev
>
pCut1
->
CostLev
)
return
1
;
if
(
pCut0
->
nLeaves
<
pCut1
->
nLeaves
)
return
-
1
;
if
(
pCut0
->
nLeaves
>
pCut1
->
nLeaves
)
return
1
;
}
return
0
;
return
0
;
}
}
static
inline
int
Sbd_CutSetLastCutContains
(
Sbd_Cut_t
**
pCuts
,
int
nCuts
)
static
inline
int
Sbd_CutSetLastCutContains
(
Sbd_Cut_t
**
pCuts
,
int
nCuts
)
...
@@ -389,24 +379,24 @@ static inline int Sbd_CutComputeTruth6( Sbd_Sto_t * p, Sbd_Cut_t * pCut0, Sbd_Cu
...
@@ -389,24 +379,24 @@ static inline int Sbd_CutComputeTruth6( Sbd_Sto_t * p, Sbd_Cut_t * pCut0, Sbd_Cu
}
}
static
inline
int
Sbd_CutComputeTruth
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
,
int
fCompl0
,
int
fCompl1
,
Sbd_Cut_t
*
pCutR
,
int
fIsXor
)
static
inline
int
Sbd_CutComputeTruth
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut0
,
Sbd_Cut_t
*
pCut1
,
int
fCompl0
,
int
fCompl1
,
Sbd_Cut_t
*
pCutR
,
int
fIsXor
)
{
{
if
(
p
->
n
L
utSize
<=
6
)
if
(
p
->
n
C
utSize
<=
6
)
return
Sbd_CutComputeTruth6
(
p
,
pCut0
,
pCut1
,
fCompl0
,
fCompl1
,
pCutR
,
fIsXor
);
return
Sbd_CutComputeTruth6
(
p
,
pCut0
,
pCut1
,
fCompl0
,
fCompl1
,
pCutR
,
fIsXor
);
{
{
word
uTruth
[
SBD_MAX_TT_WORDS
],
uTruth0
[
SBD_MAX_TT_WORDS
],
uTruth1
[
SBD_MAX_TT_WORDS
];
word
uTruth
[
SBD_MAX_TT_WORDS
],
uTruth0
[
SBD_MAX_TT_WORDS
],
uTruth1
[
SBD_MAX_TT_WORDS
];
int
nOldSupp
=
pCutR
->
nLeaves
,
truthId
;
int
nOldSupp
=
pCutR
->
nLeaves
,
truthId
;
int
n
LutSize
=
p
->
nL
utSize
,
fCompl
;
int
n
CutSize
=
p
->
nC
utSize
,
fCompl
;
int
nWords
=
Abc_Truth6WordNum
(
n
L
utSize
);
int
nWords
=
Abc_Truth6WordNum
(
n
C
utSize
);
word
*
pTruth0
=
Sbd_CutTruth
(
p
,
pCut0
);
word
*
pTruth0
=
Sbd_CutTruth
(
p
,
pCut0
);
word
*
pTruth1
=
Sbd_CutTruth
(
p
,
pCut1
);
word
*
pTruth1
=
Sbd_CutTruth
(
p
,
pCut1
);
Abc_TtCopy
(
uTruth0
,
pTruth0
,
nWords
,
Abc_LitIsCompl
(
pCut0
->
iFunc
)
^
fCompl0
);
Abc_TtCopy
(
uTruth0
,
pTruth0
,
nWords
,
Abc_LitIsCompl
(
pCut0
->
iFunc
)
^
fCompl0
);
Abc_TtCopy
(
uTruth1
,
pTruth1
,
nWords
,
Abc_LitIsCompl
(
pCut1
->
iFunc
)
^
fCompl1
);
Abc_TtCopy
(
uTruth1
,
pTruth1
,
nWords
,
Abc_LitIsCompl
(
pCut1
->
iFunc
)
^
fCompl1
);
Abc_TtExpand
(
uTruth0
,
n
L
utSize
,
pCut0
->
pLeaves
,
pCut0
->
nLeaves
,
pCutR
->
pLeaves
,
pCutR
->
nLeaves
);
Abc_TtExpand
(
uTruth0
,
n
C
utSize
,
pCut0
->
pLeaves
,
pCut0
->
nLeaves
,
pCutR
->
pLeaves
,
pCutR
->
nLeaves
);
Abc_TtExpand
(
uTruth1
,
n
L
utSize
,
pCut1
->
pLeaves
,
pCut1
->
nLeaves
,
pCutR
->
pLeaves
,
pCutR
->
nLeaves
);
Abc_TtExpand
(
uTruth1
,
n
C
utSize
,
pCut1
->
pLeaves
,
pCut1
->
nLeaves
,
pCutR
->
pLeaves
,
pCutR
->
nLeaves
);
if
(
fIsXor
)
if
(
fIsXor
)
Abc_TtXor
(
uTruth
,
uTruth0
,
uTruth1
,
nWords
,
(
fCompl
=
(
int
)((
uTruth0
[
0
]
^
uTruth1
[
0
])
&
1
))
);
Abc_TtXor
(
uTruth
,
uTruth0
,
uTruth1
,
nWords
,
(
fCompl
=
(
int
)((
uTruth0
[
0
]
^
uTruth1
[
0
])
&
1
))
);
else
else
Abc_TtAnd
(
uTruth
,
uTruth0
,
uTruth1
,
nWords
,
(
fCompl
=
(
int
)((
uTruth0
[
0
]
&
uTruth1
[
0
])
&
1
))
);
Abc_TtAnd
(
uTruth
,
uTruth0
,
uTruth1
,
nWords
,
(
fCompl
=
(
int
)((
uTruth0
[
0
]
&
uTruth1
[
0
])
&
1
))
);
pCutR
->
nLeaves
=
Abc_TtMinBase
(
uTruth
,
pCutR
->
pLeaves
,
pCutR
->
nLeaves
,
n
L
utSize
);
pCutR
->
nLeaves
=
Abc_TtMinBase
(
uTruth
,
pCutR
->
pLeaves
,
pCutR
->
nLeaves
,
n
C
utSize
);
assert
(
(
uTruth
[
0
]
&
1
)
==
0
);
assert
(
(
uTruth
[
0
]
&
1
)
==
0
);
//Kit_DsdPrintFromTruth( uTruth, pCutR->nLeaves ), printf("\n" ), printf("\n" );
//Kit_DsdPrintFromTruth( uTruth, pCutR->nLeaves ), printf("\n" ), printf("\n" );
truthId
=
Vec_MemHashInsert
(
p
->
vTtMem
,
uTruth
);
truthId
=
Vec_MemHashInsert
(
p
->
vTtMem
,
uTruth
);
...
@@ -434,15 +424,12 @@ static inline int Sbd_CutCountBits( word i )
...
@@ -434,15 +424,12 @@ static inline int Sbd_CutCountBits( word i )
i
=
((
i
+
(
i
>>
4
))
&
0x0F0F0F0F0F0F0F0F
);
i
=
((
i
+
(
i
>>
4
))
&
0x0F0F0F0F0F0F0F0F
);
return
(
i
*
(
0x0101010101010101
))
>>
56
;
return
(
i
*
(
0x0101010101010101
))
>>
56
;
}
}
static
inline
void
Sbd_CutPrint
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut
)
static
inline
int
Sbd_CutIsSpec
(
Sbd_Sto_t
*
p
,
int
iObj
,
Sbd_Cut_t
*
pCut
)
{
{
int
i
,
nDigits
=
Abc_Base10Log
(
Gia_ManObjNum
(
p
->
pGia
));
int
i
,
Delay
=
Vec_IntEntry
(
p
->
vDelays
,
iObj
),
DelayMax
=
-
ABC_INFINITY
;
printf
(
"%d {"
,
pCut
->
nLeaves
);
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
printf
(
" %*d"
,
nDigits
,
pCut
->
pLeaves
[
i
]
);
DelayMax
=
Abc_MaxInt
(
DelayMax
,
Vec_IntEntry
(
p
->
vDelays
,
pCut
->
pLeaves
[
i
])
-
Delay
);
for
(
;
i
<
(
int
)
p
->
nLutSize
;
i
++
)
return
DelayMax
<
-
1
;
printf
(
" %*s"
,
nDigits
,
" "
);
printf
(
" } Cost = %4d
\n
"
,
pCut
->
Cost
);
}
}
static
inline
int
Sbd_CutCost
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut
)
static
inline
int
Sbd_CutCost
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut
)
{
{
...
@@ -451,7 +438,21 @@ static inline int Sbd_CutCost( Sbd_Sto_t * p, Sbd_Cut_t * pCut )
...
@@ -451,7 +438,21 @@ static inline int Sbd_CutCost( Sbd_Sto_t * p, Sbd_Cut_t * pCut )
Cost
+=
Vec_IntEntry
(
p
->
vDelays
,
pCut
->
pLeaves
[
i
]
);
Cost
+=
Vec_IntEntry
(
p
->
vDelays
,
pCut
->
pLeaves
[
i
]
);
return
Cost
;
return
Cost
;
}
}
static
inline
void
Sbd_CutAddUnitCut
(
Sbd_Sto_t
*
p
,
int
iObj
)
static
inline
int
Sbd_CutCostLev
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut
)
{
int
i
,
Cost
=
0
;
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
Cost
+=
Vec_IntEntry
(
p
->
vLevels
,
pCut
->
pLeaves
[
i
]
);
return
Cost
;
}
static
inline
int
Sbd_CutTreeLeaves
(
Sbd_Sto_t
*
p
,
Sbd_Cut_t
*
pCut
)
{
int
i
,
Cost
=
0
;
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
Cost
+=
Vec_IntEntry
(
p
->
vRefs
,
pCut
->
pLeaves
[
i
]
)
==
1
;
return
Cost
;
}
static
inline
void
Sbd_CutAddUnit
(
Sbd_Sto_t
*
p
,
int
iObj
)
{
{
Vec_Int_t
*
vThis
=
Vec_WecEntry
(
p
->
vCuts
,
iObj
);
Vec_Int_t
*
vThis
=
Vec_WecEntry
(
p
->
vCuts
,
iObj
);
if
(
Vec_IntSize
(
vThis
)
==
0
)
if
(
Vec_IntSize
(
vThis
)
==
0
)
...
@@ -474,7 +475,10 @@ static inline int Sbd_StoPrepareSet( Sbd_Sto_t * p, int iObj, int Index )
...
@@ -474,7 +475,10 @@ static inline int Sbd_StoPrepareSet( Sbd_Sto_t * p, int iObj, int Index )
pCutTemp
->
pLeaves
[
v
-
1
]
=
pCut
[
v
];
pCutTemp
->
pLeaves
[
v
-
1
]
=
pCut
[
v
];
pCutTemp
->
iFunc
=
pCut
[
pCut
[
0
]
+
1
];
pCutTemp
->
iFunc
=
pCut
[
pCut
[
0
]
+
1
];
pCutTemp
->
Sign
=
Sbd_CutGetSign
(
pCutTemp
);
pCutTemp
->
Sign
=
Sbd_CutGetSign
(
pCutTemp
);
pCutTemp
->
fSpec
=
Sbd_CutIsSpec
(
p
,
iObj
,
pCutTemp
);
pCutTemp
->
Cost
=
Sbd_CutCost
(
p
,
pCutTemp
);
pCutTemp
->
Cost
=
Sbd_CutCost
(
p
,
pCutTemp
);
pCutTemp
->
CostLev
=
Sbd_CutCostLev
(
p
,
pCutTemp
);
pCutTemp
->
nTreeLeaves
=
Sbd_CutTreeLeaves
(
p
,
pCutTemp
);
}
}
return
pList
[
0
];
return
pList
[
0
];
}
}
...
@@ -511,18 +515,48 @@ static inline void Sbd_StoComputeDelay( Sbd_Sto_t * p, int iObj, Sbd_Cut_t ** pC
...
@@ -511,18 +515,48 @@ static inline void Sbd_StoComputeDelay( Sbd_Sto_t * p, int iObj, Sbd_Cut_t ** pC
DelayMin
=
Abc_MinInt
(
DelayMin
,
Delay
);
DelayMin
=
Abc_MinInt
(
DelayMin
,
Delay
);
}
}
assert
(
DelayMin
<
ABC_INFINITY
);
assert
(
DelayMin
<
ABC_INFINITY
);
Vec_IntWriteEntry
(
p
->
vDelays
,
iObj
,
(
nCuts
>
1
||
pCuts
[
0
]
->
nLeaves
>
1
)
?
DelayMin
+
1
:
DelayMin
);
DelayMin
=
(
nCuts
>
1
||
pCuts
[
0
]
->
nLeaves
>
1
)
?
DelayMin
+
1
:
DelayMin
;
Vec_IntWriteEntry
(
p
->
vDelays
,
iObj
,
DelayMin
);
p
->
DelayMin
=
Abc_MaxInt
(
p
->
DelayMin
,
DelayMin
);
}
static
inline
void
Sbd_StoComputeSpec
(
Sbd_Sto_t
*
p
,
int
iObj
,
Sbd_Cut_t
**
pCuts
,
int
nCuts
)
{
int
i
;
for
(
i
=
0
;
i
<
nCuts
;
i
++
)
{
pCuts
[
i
]
->
fSpec
=
Sbd_CutIsSpec
(
p
,
iObj
,
pCuts
[
i
]
);
p
->
nCutsSpec
+=
pCuts
[
i
]
->
fSpec
;
}
}
static
inline
void
Sbd_CutPrint
(
Sbd_Sto_t
*
p
,
int
iObj
,
Sbd_Cut_t
*
pCut
)
{
int
i
,
nDigits
=
Abc_Base10Log
(
Gia_ManObjNum
(
p
->
pGia
));
int
Delay
=
Vec_IntEntry
(
p
->
vDelays
,
iObj
);
printf
(
"%d {"
,
pCut
->
nLeaves
);
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
printf
(
" %*d"
,
nDigits
,
pCut
->
pLeaves
[
i
]
);
for
(
;
i
<
(
int
)
p
->
nCutSize
;
i
++
)
printf
(
" %*s"
,
nDigits
,
" "
);
printf
(
" } Cost = %4d CostLev = %4d Tree = %2d "
,
pCut
->
Cost
,
pCut
->
CostLev
,
pCut
->
nTreeLeaves
);
printf
(
"%c "
,
pCut
->
fSpec
?
'*'
:
' '
);
for
(
i
=
0
;
i
<
(
int
)
pCut
->
nLeaves
;
i
++
)
printf
(
"%3d "
,
Vec_IntEntry
(
p
->
vDelays
,
pCut
->
pLeaves
[
i
])
-
Delay
);
printf
(
"
\n
"
);
}
}
void
Sbd_StoMergeCuts
(
Sbd_Sto_t
*
p
,
int
iObj
)
void
Sbd_StoMergeCuts
(
Sbd_Sto_t
*
p
,
int
iObj
)
{
{
Gia_Obj_t
*
pObj
=
Gia_ManObj
(
p
->
pGia
,
iObj
);
Gia_Obj_t
*
pObj
=
Gia_ManObj
(
p
->
pGia
,
iObj
);
int
fIsXor
=
Gia_ObjIsXor
(
pObj
);
int
fIsXor
=
Gia_ObjIsXor
(
pObj
);
int
n
LutSize
=
p
->
nL
utSize
;
int
n
CutSize
=
p
->
nC
utSize
;
int
nCutNum
=
p
->
nCutNum
;
int
nCutNum
=
p
->
nCutNum
;
int
fComp0
=
Gia_ObjFaninC0
(
pObj
);
int
Lit0m
=
p
->
vMirrors
?
Vec_IntEntry
(
p
->
vMirrors
,
Gia_ObjFaninId0
(
pObj
,
iObj
)
)
:
-
1
;
int
fComp1
=
Gia_ObjFaninC1
(
pObj
);
int
Lit1m
=
p
->
vMirrors
?
Vec_IntEntry
(
p
->
vMirrors
,
Gia_ObjFaninId1
(
pObj
,
iObj
)
)
:
-
1
;
int
nCuts0
=
Sbd_StoPrepareSet
(
p
,
Gia_ObjFaninId0
(
pObj
,
iObj
),
0
);
int
fComp0
=
Gia_ObjFaninC0
(
pObj
)
^
(
Lit0m
>=
0
&&
Abc_LitIsCompl
(
Lit0m
));
int
nCuts1
=
Sbd_StoPrepareSet
(
p
,
Gia_ObjFaninId1
(
pObj
,
iObj
),
1
);
int
fComp1
=
Gia_ObjFaninC1
(
pObj
)
^
(
Lit1m
>=
0
&&
Abc_LitIsCompl
(
Lit1m
));
int
Fan0
=
Lit0m
>=
0
?
Abc_Lit2Var
(
Lit0m
)
:
Gia_ObjFaninId0
(
pObj
,
iObj
);
int
Fan1
=
Lit1m
>=
0
?
Abc_Lit2Var
(
Lit1m
)
:
Gia_ObjFaninId1
(
pObj
,
iObj
);
int
nCuts0
=
Sbd_StoPrepareSet
(
p
,
Fan0
,
0
);
int
nCuts1
=
Sbd_StoPrepareSet
(
p
,
Fan1
,
1
);
int
i
,
k
,
nCutsR
=
0
;
int
i
,
k
,
nCutsR
=
0
;
Sbd_Cut_t
*
pCut0
,
*
pCut1
,
**
pCutsR
=
p
->
ppCuts
;
Sbd_Cut_t
*
pCut0
,
*
pCut1
,
**
pCutsR
=
p
->
ppCuts
;
assert
(
!
Gia_ObjIsBuf
(
pObj
)
);
assert
(
!
Gia_ObjIsBuf
(
pObj
)
);
...
@@ -532,10 +566,10 @@ void Sbd_StoMergeCuts( Sbd_Sto_t * p, int iObj )
...
@@ -532,10 +566,10 @@ void Sbd_StoMergeCuts( Sbd_Sto_t * p, int iObj )
for
(
i
=
0
,
pCut0
=
p
->
pCuts
[
0
];
i
<
nCuts0
;
i
++
,
pCut0
++
)
for
(
i
=
0
,
pCut0
=
p
->
pCuts
[
0
];
i
<
nCuts0
;
i
++
,
pCut0
++
)
for
(
k
=
0
,
pCut1
=
p
->
pCuts
[
1
];
k
<
nCuts1
;
k
++
,
pCut1
++
)
for
(
k
=
0
,
pCut1
=
p
->
pCuts
[
1
];
k
<
nCuts1
;
k
++
,
pCut1
++
)
{
{
if
(
(
int
)(
pCut0
->
nLeaves
+
pCut1
->
nLeaves
)
>
n
LutSize
&&
Sbd_CutCountBits
(
pCut0
->
Sign
|
pCut1
->
Sign
)
>
nL
utSize
)
if
(
(
int
)(
pCut0
->
nLeaves
+
pCut1
->
nLeaves
)
>
n
CutSize
&&
Sbd_CutCountBits
(
pCut0
->
Sign
|
pCut1
->
Sign
)
>
nC
utSize
)
continue
;
continue
;
p
->
CutCount
[
1
]
++
;
p
->
CutCount
[
1
]
++
;
if
(
!
Sbd_CutMergeOrder
(
pCut0
,
pCut1
,
pCutsR
[
nCutsR
],
n
L
utSize
)
)
if
(
!
Sbd_CutMergeOrder
(
pCut0
,
pCut1
,
pCutsR
[
nCutsR
],
n
C
utSize
)
)
continue
;
continue
;
if
(
Sbd_CutSetLastCutIsContained
(
pCutsR
,
nCutsR
)
)
if
(
Sbd_CutSetLastCutIsContained
(
pCutsR
,
nCutsR
)
)
continue
;
continue
;
...
@@ -543,16 +577,21 @@ void Sbd_StoMergeCuts( Sbd_Sto_t * p, int iObj )
...
@@ -543,16 +577,21 @@ void Sbd_StoMergeCuts( Sbd_Sto_t * p, int iObj )
if
(
p
->
fCutMin
&&
Sbd_CutComputeTruth
(
p
,
pCut0
,
pCut1
,
fComp0
,
fComp1
,
pCutsR
[
nCutsR
],
fIsXor
)
)
if
(
p
->
fCutMin
&&
Sbd_CutComputeTruth
(
p
,
pCut0
,
pCut1
,
fComp0
,
fComp1
,
pCutsR
[
nCutsR
],
fIsXor
)
)
pCutsR
[
nCutsR
]
->
Sign
=
Sbd_CutGetSign
(
pCutsR
[
nCutsR
]);
pCutsR
[
nCutsR
]
->
Sign
=
Sbd_CutGetSign
(
pCutsR
[
nCutsR
]);
pCutsR
[
nCutsR
]
->
Cost
=
Sbd_CutCost
(
p
,
pCutsR
[
nCutsR
]
);
pCutsR
[
nCutsR
]
->
Cost
=
Sbd_CutCost
(
p
,
pCutsR
[
nCutsR
]
);
pCutsR
[
nCutsR
]
->
CostLev
=
Sbd_CutCostLev
(
p
,
pCutsR
[
nCutsR
]
);
pCutsR
[
nCutsR
]
->
nTreeLeaves
=
Sbd_CutTreeLeaves
(
p
,
pCutsR
[
nCutsR
]
);
nCutsR
=
Sbd_CutSetAddCut
(
pCutsR
,
nCutsR
,
nCutNum
);
nCutsR
=
Sbd_CutSetAddCut
(
pCutsR
,
nCutsR
,
nCutNum
);
}
}
Sbd_StoComputeDelay
(
p
,
iObj
,
pCutsR
,
nCutsR
);
Sbd_StoComputeDelay
(
p
,
iObj
,
pCutsR
,
nCutsR
);
Sbd_StoComputeSpec
(
p
,
iObj
,
pCutsR
,
nCutsR
);
p
->
CutCount
[
3
]
+=
nCutsR
;
p
->
CutCount
[
3
]
+=
nCutsR
;
p
->
nCutsOver
+=
nCutsR
==
nCutNum
-
1
;
// debug printout
// debug printout
if
(
0
)
if
(
0
)
{
{
printf
(
"*** Obj = %
d Delay = %d
\n
"
,
iObj
,
Vec_IntEntry
(
p
->
vDelays
,
iObj
)
);
printf
(
"*** Obj = %
4d Delay = %4d NumCuts = %4d
\n
"
,
iObj
,
Vec_IntEntry
(
p
->
vDelays
,
iObj
),
nCutsR
);
for
(
i
=
0
;
i
<
nCutsR
;
i
++
)
for
(
i
=
0
;
i
<
nCutsR
;
i
++
)
Sbd_CutPrint
(
p
,
pCutsR
[
i
]
);
if
(
(
int
)
pCutsR
[
i
]
->
nLeaves
<=
p
->
nLutSize
||
pCutsR
[
i
]
->
fSpec
)
Sbd_CutPrint
(
p
,
iObj
,
pCutsR
[
i
]
);
printf
(
"
\n
"
);
printf
(
"
\n
"
);
}
}
// verify
// verify
...
@@ -561,21 +600,12 @@ void Sbd_StoMergeCuts( Sbd_Sto_t * p, int iObj )
...
@@ -561,21 +600,12 @@ void Sbd_StoMergeCuts( Sbd_Sto_t * p, int iObj )
// store the cutset
// store the cutset
Sbd_StoStoreResult
(
p
,
iObj
,
pCutsR
,
nCutsR
);
Sbd_StoStoreResult
(
p
,
iObj
,
pCutsR
,
nCutsR
);
if
(
nCutsR
>
1
||
pCutsR
[
0
]
->
nLeaves
>
1
)
if
(
nCutsR
>
1
||
pCutsR
[
0
]
->
nLeaves
>
1
)
Sbd_CutAddUnitCut
(
p
,
iObj
);
Sbd_CutAddUnit
(
p
,
iObj
);
}
int
Sbd_StoMergeCutsPlus
(
Sbd_Sto_t
*
p
,
int
iObj
)
{
assert
(
iObj
==
Vec_IntSize
(
p
->
vDelays
)
);
assert
(
iObj
==
Vec_WecSize
(
p
->
vCuts
)
);
Vec_IntPush
(
p
->
vDelays
,
0
);
Vec_WecPushLevel
(
p
->
vCuts
);
Sbd_StoMergeCuts
(
p
,
iObj
);
return
Vec_IntEntry
(
p
->
vDelays
,
iObj
);
}
}
/**Function*************************************************************
/**Function*************************************************************
Synopsis []
Synopsis [
Incremental cut computation.
]
Description []
Description []
...
@@ -584,30 +614,123 @@ int Sbd_StoMergeCutsPlus( Sbd_Sto_t * p, int iObj )
...
@@ -584,30 +614,123 @@ int Sbd_StoMergeCutsPlus( Sbd_Sto_t * p, int iObj )
SeeAlso []
SeeAlso []
***********************************************************************/
***********************************************************************/
void
Sbd_StoComputeCuts
(
Sbd_Sto_t
*
p
)
Sbd_Sto_t
*
Sbd_StoAlloc
(
Gia_Man_t
*
pGia
,
Vec_Int_t
*
vMirrors
,
int
nLutSize
,
int
nCutSize
,
int
nCutNum
,
int
fCutMin
,
int
fVerbose
)
{
Sbd_Sto_t
*
p
;
assert
(
nLutSize
<=
nCutSize
);
assert
(
nCutSize
<
SBD_CUT_NO_LEAF
);
assert
(
nCutSize
>
1
&&
nCutSize
<=
SBD_MAX_CUTSIZE
);
assert
(
nCutNum
>
1
&&
nCutNum
<
SBD_MAX_CUTNUM
);
p
=
ABC_CALLOC
(
Sbd_Sto_t
,
1
);
p
->
clkStart
=
Abc_Clock
();
p
->
nLutSize
=
nLutSize
;
p
->
nCutSize
=
nCutSize
;
p
->
nCutNum
=
nCutNum
;
p
->
fCutMin
=
fCutMin
;
p
->
fVerbose
=
fVerbose
;
p
->
pGia
=
pGia
;
p
->
vMirrors
=
vMirrors
;
p
->
vDelays
=
Vec_IntAlloc
(
Gia_ManObjNum
(
pGia
)
);
p
->
vLevels
=
Vec_IntAlloc
(
Gia_ManObjNum
(
pGia
)
);
p
->
vRefs
=
Vec_IntAlloc
(
Gia_ManObjNum
(
pGia
)
);
p
->
vCuts
=
Vec_WecAlloc
(
Gia_ManObjNum
(
pGia
)
);
p
->
vTtMem
=
fCutMin
?
Vec_MemAllocForTT
(
nCutSize
,
0
)
:
NULL
;
return
p
;
}
void
Sbd_StoFree
(
Sbd_Sto_t
*
p
)
{
{
Vec_IntFree
(
p
->
vDelays
);
Vec_IntFree
(
p
->
vLevels
);
Vec_IntFree
(
p
->
vRefs
);
Vec_WecFree
(
p
->
vCuts
);
if
(
p
->
fCutMin
)
Vec_MemHashFree
(
p
->
vTtMem
);
if
(
p
->
fCutMin
)
Vec_MemFree
(
p
->
vTtMem
);
ABC_FREE
(
p
);
}
void
Sbd_StoComputeCutsObj
(
Sbd_Sto_t
*
p
,
int
iObj
,
int
Delay
,
int
Level
)
{
assert
(
iObj
==
Vec_IntSize
(
p
->
vDelays
)
);
assert
(
iObj
==
Vec_IntSize
(
p
->
vLevels
)
);
assert
(
iObj
==
Vec_WecSize
(
p
->
vCuts
)
);
Vec_IntPush
(
p
->
vDelays
,
Delay
);
Vec_IntPush
(
p
->
vLevels
,
Level
);
Vec_WecPushLevel
(
p
->
vCuts
);
}
void
Sbd_StoComputeCutsCi
(
Sbd_Sto_t
*
p
,
int
iObj
,
int
Delay
,
int
Level
)
{
Sbd_StoComputeCutsObj
(
p
,
iObj
,
Delay
,
Level
);
Sbd_CutAddUnit
(
p
,
iObj
);
}
int
Sbd_StoComputeCutsNode
(
Sbd_Sto_t
*
p
,
int
iObj
)
{
Gia_Obj_t
*
pObj
=
Gia_ManObj
(
p
->
pGia
,
iObj
);
int
Lev0
=
Vec_IntEntry
(
p
->
vLevels
,
Gia_ObjFaninId0
(
pObj
,
iObj
)
);
int
Lev1
=
Vec_IntEntry
(
p
->
vLevels
,
Gia_ObjFaninId1
(
pObj
,
iObj
)
);
Sbd_StoComputeCutsObj
(
p
,
iObj
,
-
1
,
1
+
Abc_MaxInt
(
Lev0
,
Lev1
)
);
Sbd_StoMergeCuts
(
p
,
iObj
);
return
Vec_IntEntry
(
p
->
vDelays
,
iObj
);
}
void
Sbd_StoRefObj
(
Sbd_Sto_t
*
p
,
int
iObj
,
int
iMirror
)
{
Gia_Obj_t
*
pObj
=
Gia_ManObj
(
p
->
pGia
,
iObj
);
assert
(
iObj
==
Vec_IntSize
(
p
->
vRefs
)
);
assert
(
iMirror
<
iObj
);
Vec_IntPush
(
p
->
vRefs
,
iMirror
>
0
?
Vec_IntEntry
(
p
->
vRefs
,
iMirror
)
:
0
);
if
(
Gia_ObjIsAnd
(
pObj
)
)
{
Vec_IntAddToEntry
(
p
->
vRefs
,
Gia_ObjFaninId0
(
pObj
,
iObj
),
1
);
Vec_IntAddToEntry
(
p
->
vRefs
,
Gia_ObjFaninId1
(
pObj
,
iObj
),
1
);
}
else
if
(
Gia_ObjIsCo
(
pObj
)
)
Vec_IntAddToEntry
(
p
->
vRefs
,
Gia_ObjFaninId0
(
pObj
,
iObj
),
1
);
}
void
Sbd_StoDerefObj
(
Sbd_Sto_t
*
p
,
int
iObj
)
{
Gia_Obj_t
*
pObj
=
Gia_ManObj
(
p
->
pGia
,
iObj
);
Vec_IntAddToEntry
(
p
->
vRefs
,
iObj
,
-
1
);
if
(
Vec_IntEntry
(
p
->
vRefs
,
iObj
)
>
0
)
return
;
if
(
Gia_ObjIsCi
(
pObj
)
)
return
;
assert
(
Gia_ObjIsAnd
(
pObj
)
);
Sbd_StoDerefObj
(
p
,
Gia_ObjFaninId0
(
pObj
,
iObj
)
);
Sbd_StoDerefObj
(
p
,
Gia_ObjFaninId1
(
pObj
,
iObj
)
);
}
void
Sbd_StoComputeCutsTest
(
Gia_Man_t
*
pGia
)
{
Sbd_Sto_t
*
p
=
Sbd_StoAlloc
(
pGia
,
NULL
,
4
,
8
,
100
,
1
,
1
);
Gia_Obj_t
*
pObj
;
Gia_Obj_t
*
pObj
;
int
i
,
iObj
;
int
i
,
iObj
;
// prepare references
Gia_ManForEachObj
(
p
->
pGia
,
pObj
,
iObj
)
Sbd_StoRefObj
(
p
,
iObj
,
-
1
);
// compute cuts
Sbd_StoComputeCutsObj
(
p
,
0
,
0
,
0
);
Gia_ManForEachCiId
(
p
->
pGia
,
iObj
,
i
)
Gia_ManForEachCiId
(
p
->
pGia
,
iObj
,
i
)
Sbd_
CutAddUnitCut
(
p
,
iObj
);
Sbd_
StoComputeCutsCi
(
p
,
iObj
,
0
,
0
);
Gia_ManForEachAnd
(
p
->
pGia
,
pObj
,
iObj
)
Gia_ManForEachAnd
(
p
->
pGia
,
pObj
,
iObj
)
Sbd_StoMergeCuts
(
p
,
iObj
);
Sbd_StoComputeCutsNode
(
p
,
iObj
);
if
(
!
p
->
fVerbose
)
if
(
p
->
fVerbose
)
return
;
{
printf
(
"Running cut computation with LutSize = %d CutSize = %d CutNum = %d:
\n
"
,
p
->
nLutSize
,
p
->
nCutSize
,
p
->
nCutNum
);
printf
(
"CutPair = %.0f "
,
p
->
CutCount
[
0
]
);
printf
(
"CutPair = %.0f "
,
p
->
CutCount
[
0
]
);
printf
(
"Merge = %.0f (%.2f %%) "
,
p
->
CutCount
[
1
],
100
.
0
*
p
->
CutCount
[
1
]
/
p
->
CutCount
[
0
]
);
printf
(
"Merge = %.0f (%.2f %%) "
,
p
->
CutCount
[
1
],
100
.
0
*
p
->
CutCount
[
1
]
/
p
->
CutCount
[
0
]
);
printf
(
"Eval = %.0f (%.2f %%) "
,
p
->
CutCount
[
2
],
100
.
0
*
p
->
CutCount
[
2
]
/
p
->
CutCount
[
0
]
);
printf
(
"Eval = %.0f (%.2f %%) "
,
p
->
CutCount
[
2
],
100
.
0
*
p
->
CutCount
[
2
]
/
p
->
CutCount
[
0
]
);
printf
(
"Cut = %.0f (%.2f %%) "
,
p
->
CutCount
[
3
],
100
.
0
*
p
->
CutCount
[
3
]
/
p
->
CutCount
[
0
]
);
printf
(
"Cut = %.0f (%.2f %%) "
,
p
->
CutCount
[
3
],
100
.
0
*
p
->
CutCount
[
3
]
/
p
->
CutCount
[
0
]
);
printf
(
"Cut/Node = %.2f "
,
p
->
CutCount
[
3
]
/
Gia_ManAndNum
(
p
->
pGia
)
);
printf
(
"
\n
"
);
printf
(
"
\n
"
);
}
printf
(
"Spec = %4d "
,
p
->
nCutsSpec
);
void
Sbd_StoComputeCutsTest
(
Gia_Man_t
*
pGia
)
printf
(
"Over = %4d "
,
p
->
nCutsOver
);
{
printf
(
"Lev = %4d "
,
p
->
DelayMin
);
Sbd_Sto_t
*
p
=
Sbd_StoAlloc
(
pGia
,
8
,
32
,
1
,
1
);
Abc_PrintTime
(
0
,
"Time"
,
Abc_Clock
()
-
p
->
clkStart
);
Sbd_StoComputeCuts
(
p
);
}
Sbd_StoFree
(
p
);
Sbd_StoFree
(
p
);
}
}
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/// END OF FILE ///
/// END OF FILE ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
...
...
src/opt/sbd/sbdInt.h
View file @
fdd8404b
...
@@ -60,6 +60,8 @@ ABC_NAMESPACE_HEADER_START
...
@@ -60,6 +60,8 @@ ABC_NAMESPACE_HEADER_START
/// BASIC TYPES ///
/// BASIC TYPES ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
typedef
struct
Sbd_Sto_t_
Sbd_Sto_t
;
typedef
struct
Sbd_Str_t_
Sbd_Str_t
;
typedef
struct
Sbd_Str_t_
Sbd_Str_t
;
struct
Sbd_Str_t_
struct
Sbd_Str_t_
{
{
...
@@ -78,7 +80,14 @@ struct Sbd_Str_t_
...
@@ -78,7 +80,14 @@ struct Sbd_Str_t_
/// FUNCTION DECLARATIONS ///
/// FUNCTION DECLARATIONS ///
////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////
/*=== sbdCnf.c ==========================================================*/
/*=== sbdCut.c ==========================================================*/
extern
Sbd_Sto_t
*
Sbd_StoAlloc
(
Gia_Man_t
*
pGia
,
Vec_Int_t
*
vMirrors
,
int
nLutSize
,
int
nCutSize
,
int
nCutNum
,
int
fCutMin
,
int
fVerbose
);
extern
void
Sbd_StoFree
(
Sbd_Sto_t
*
p
);
extern
void
Sbd_StoRefObj
(
Sbd_Sto_t
*
p
,
int
iObj
,
int
iMirror
);
extern
void
Sbd_StoDefefObj
(
Sbd_Sto_t
*
p
,
int
iObj
);
extern
void
Sbd_StoComputeCutsObj
(
Sbd_Sto_t
*
p
,
int
iObj
,
int
Delay
,
int
Level
);
extern
void
Sbd_StoComputeCutsCi
(
Sbd_Sto_t
*
p
,
int
iObj
,
int
Delay
,
int
Level
);
extern
int
Sbd_StoComputeCutsNode
(
Sbd_Sto_t
*
p
,
int
iObj
);
ABC_NAMESPACE_HEADER_END
ABC_NAMESPACE_HEADER_END
...
...
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