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cf685f36
编写于
11月 19, 2018
作者:
T
Tao Luo
提交者:
GitHub
11月 19, 2018
浏览文件
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差异文件
Merge pull request #14458 from tpatejko/tpatejko/mkldnn-skip-connections
[WIP] Correcting and extending MKLDNN residual connection fuse pass
上级
f4c869d8
53da846d
变更
5
隐藏空白更改
内联
并排
Showing
5 changed file
with
527 addition
and
155 deletion
+527
-155
paddle/fluid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass.cc
...uid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass.cc
+356
-72
paddle/fluid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass.h
...luid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass.h
+100
-5
paddle/fluid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass_tester.cc
...mework/ir/conv_elementwise_add_mkldnn_fuse_pass_tester.cc
+67
-70
paddle/fluid/framework/ir/graph_pattern_detector.cc
paddle/fluid/framework/ir/graph_pattern_detector.cc
+3
-7
paddle/fluid/framework/ir/graph_pattern_detector.h
paddle/fluid/framework/ir/graph_pattern_detector.h
+1
-1
未找到文件。
paddle/fluid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass.cc
浏览文件 @
cf685f36
...
...
@@ -14,14 +14,15 @@
#include "paddle/fluid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass.h"
#include <functional>
#include <utility>
#include <list>
#include <map>
#include <tuple>
#include "paddle/fluid/framework/ir/graph_traits.h"
namespace
paddle
{
namespace
framework
{
namespace
ir
{
namespace
{
// The function keeps the graph consistent by replacing
// a node 'from' in the set of inputs nodes
...
...
@@ -51,99 +52,382 @@ void CorrectGraphEdges(Graph* graph, Node* from, Node* to) {
}
}
}
}
// namespace
using
graph_ptr
=
std
::
unique_ptr
<
ir
::
Graph
>
;
graph_ptr
ConvElementwiseAddMKLDNNFusePass
::
ApplyImpl
(
graph_ptr
graph
)
const
{
FusePassBase
::
Init
(
name_scope_
,
graph
.
get
());
bool
IsReachable
(
ir
::
Graph
*
graph
,
Node
*
from
,
Node
*
to
)
{
auto
find_node
=
[](
ir
::
Graph
*
graph
,
const
Node
*
node
)
->
Node
*
{
for
(
auto
n
:
graph
->
Nodes
())
{
if
(
n
==
node
)
{
return
n
;
}
}
GraphPatternDetector
gpd
;
auto
pattern
=
gpd
.
mutable_pattern
()
;
return
nullptr
;
}
;
patterns
::
Conv
conv_pattern
{
pattern
,
name_scope_
};
auto
conv_output
=
conv_pattern
();
if
(
from
==
to
)
{
return
true
;
}
patterns
::
ElementwiseAdd
elementwise_add_pattern
{
pattern
,
name_scope_
};
elementwise_add_pattern
(
conv_output
);
std
::
map
<
Node
*
,
bool
>
visited
;
conv_output
->
AsIntermediate
();
for
(
auto
&
node
:
GraphTraits
::
DFS
(
*
graph
))
{
visited
[
&
node
]
=
false
;
}
auto
conv_op_has_bias
=
[](
const
Node
&
conv_op
)
->
std
::
pair
<
bool
,
Node
*>
{
auto
bias_input_names
=
conv_op
.
Op
()
->
Inputs
();
auto
bias_it
=
bias_input_names
.
find
(
"Bias"
);
if
(
bias_it
!=
std
::
end
(
bias_input_names
))
{
bool
has_bias
=
!
bias_it
->
second
.
empty
();
if
(
has_bias
)
{
auto
conv_bias_names
=
bias_it
->
second
;
auto
conv_bias_names_it
=
std
::
find_if
(
std
::
begin
(
conv_op
.
inputs
),
std
::
end
(
conv_op
.
inputs
),
[
&
conv_bias_names
](
Node
*
n
)
->
bool
{
return
n
->
Name
()
==
conv_bias_names
[
0
];
});
return
std
::
make_pair
(
has_bias
,
*
conv_bias_names_it
);
}
}
visited
[
from
]
=
true
;
return
std
::
make_pair
(
false
,
nullptr
)
;
}
;
std
::
list
<
Node
*>
queue
;
queue
.
push_back
(
from
)
;
auto
handler
=
[
&
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
,
Graph
*
g
)
{
GET_IR_NODE_FROM_SUBGRAPH
(
conv_op
,
conv_op
,
conv_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
conv_input
,
conv_input
,
conv_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
conv_filter
,
conv_filter
,
conv_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
conv_output
,
conv_output
,
conv_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_op
,
elementwise_add_op
,
elementwise_add_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_x
,
elementwise_add_x
,
elementwise_add_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_out
,
elementwise_add_out
,
elementwise_add_pattern
);
while
(
!
queue
.
empty
())
{
auto
cur
=
find_node
(
graph
,
queue
.
front
());
queue
.
pop_front
();
if
(
FindFuseOption
(
*
conv_op
,
*
elementwise_add_op
)
!=
FUSE_MKLDNN
)
return
;
if
(
!
cur
)
return
false
;
OpDesc
op_desc
;
op_desc
.
SetType
(
"conv2d"
);
for
(
auto
n
:
cur
->
outputs
)
{
if
(
n
==
to
)
{
return
true
;
}
op_desc
.
SetInput
(
"Input"
,
{
conv_input
->
Name
()});
op_desc
.
SetInput
(
"Filter"
,
{
conv_filter
->
Name
()});
op_desc
.
SetInput
(
"ResidualData"
,
{
elementwise_add_x
->
Name
()});
op_desc
.
SetOutput
(
"Output"
,
{
conv_output
->
Name
()});
if
(
!
visited
[
n
])
{
visited
[
n
]
=
true
;
queue
.
push_back
(
n
);
}
}
}
return
false
;
}
bool
has_bias
;
Node
*
conv_bias
;
boost
::
optional
<
Node
*>
HasBias
(
const
Node
&
op
,
const
std
::
string
&
bias_name
)
{
auto
bias_input_names
=
op
.
Op
()
->
Inputs
();
auto
bias_it
=
bias_input_names
.
find
(
bias_name
);
std
::
tie
(
has_bias
,
conv_bias
)
=
conv_op_has_bias
(
*
conv_op
);
if
(
bias_it
!=
std
::
end
(
bias_input_names
))
{
bool
has_bias
=
!
bias_it
->
second
.
empty
();
if
(
has_bias
)
{
op_desc
.
SetInput
(
"Bias"
,
{
conv_bias
->
Name
()});
auto
bias_names
=
bias_it
->
second
;
auto
bias_names_it
=
std
::
find_if
(
std
::
begin
(
op
.
inputs
),
std
::
end
(
op
.
inputs
),
[
&
bias_names
](
Node
*
n
)
->
bool
{
return
n
->
Name
()
==
bias_names
[
0
];
});
return
*
bias_names_it
;
}
}
for
(
const
auto
&
attr
:
conv_op
->
Op
()
->
GetAttrMap
())
{
op_desc
.
SetAttr
(
attr
.
first
,
attr
.
second
);
}
return
boost
::
none
;
}
op_desc
.
SetAttr
(
"fuse_residual_connection"
,
true
);
ResidualConnectionMKLDNNFusePass
::
IdentityFuseHandle
::
IdentityFuseHandle
(
const
ResidualConnectionMKLDNNFusePass
::
CanFuseFunc
&
can_fuse_func
,
const
ResidualConnectionMKLDNNFusePass
::
IdentityConvFunc
&
get_node_from_conv_op
,
const
ResidualConnectionMKLDNNFusePass
::
IdentityElementwiseAddFunc
&
get_node_from_elementwise_add_op
)
:
fusion_stats
{
std
::
make_shared
<
int
>
(
0
)},
can_fuse_func
{
can_fuse_func
},
get_node_from_conv_op
{
get_node_from_conv_op
},
get_node_from_elementwise_add_op
{
get_node_from_elementwise_add_op
}
{}
void
ResidualConnectionMKLDNNFusePass
::
IdentityFuseHandle
::
operator
()(
const
GraphPatternDetector
::
subgraph_t
&
subgraph
,
Graph
*
graph
)
{
Node
*
conv_op
;
Node
*
conv_input
;
Node
*
conv_filter
;
Node
*
conv_output
;
Node
*
elementwise_add_op
;
Node
*
elementwise_add_identity
;
Node
*
elementwise_add_out
;
std
::
tie
(
conv_op
,
conv_input
,
conv_filter
,
conv_output
)
=
get_node_from_conv_op
(
subgraph
);
std
::
tie
(
elementwise_add_op
,
elementwise_add_identity
,
elementwise_add_out
)
=
get_node_from_elementwise_add_op
(
subgraph
);
if
(
!
can_fuse_func
(
conv_op
,
elementwise_add_op
))
return
;
if
(
!
IsReachable
(
graph
,
elementwise_add_identity
,
conv_output
))
return
;
OpDesc
op_desc
;
op_desc
.
SetType
(
"conv2d"
);
op_desc
.
SetInput
(
"Input"
,
{
conv_input
->
Name
()});
op_desc
.
SetInput
(
"Filter"
,
{
conv_filter
->
Name
()});
op_desc
.
SetInput
(
"ResidualData"
,
{
elementwise_add_identity
->
Name
()});
op_desc
.
SetOutput
(
"Output"
,
{
conv_output
->
Name
()});
auto
conv_bias
=
HasBias
(
*
conv_op
,
"Bias"
);
if
(
conv_bias
)
{
op_desc
.
SetInput
(
"Bias"
,
{(
*
conv_bias
)
->
Name
()});
}
auto
fused_conv_op
=
g
->
CreateOpNode
(
&
op_desc
);
for
(
const
auto
&
attr
:
conv_op
->
Op
()
->
GetAttrMap
())
{
op_desc
.
SetAttr
(
attr
.
first
,
attr
.
second
);
}
IR_NODE_LINK_TO
(
conv_input
,
fused_conv_op
);
IR_NODE_LINK_TO
(
conv_filter
,
fused_conv_op
);
IR_NODE_LINK_TO
(
elementwise_add_x
,
fused_conv_op
);
IR_NODE_LINK_TO
(
fused_conv_op
,
conv_output
);
op_desc
.
SetAttr
(
"fuse_residual_connection"
,
true
);
if
(
has_bias
)
{
IR_NODE_LINK_TO
(
conv_bias
,
fused_conv_op
);
}
auto
fused_conv_op
=
graph
->
CreateOpNode
(
&
op_desc
);
CorrectGraphEdges
(
g
,
elementwise_add_out
,
conv_output
);
GraphSafeRemoveNodes
(
g
,
{
elementwise_add_out
,
conv_op
,
elementwise_add_op
});
};
IR_NODE_LINK_TO
(
conv_input
,
fused_conv_op
);
IR_NODE_LINK_TO
(
conv_filter
,
fused_conv_op
);
IR_NODE_LINK_TO
(
elementwise_add_identity
,
fused_conv_op
);
IR_NODE_LINK_TO
(
fused_conv_op
,
conv_output
);
gpd
(
graph
.
get
(),
handler
);
if
(
conv_bias
)
{
IR_NODE_LINK_TO
((
*
conv_bias
),
fused_conv_op
);
}
CorrectGraphEdges
(
graph
,
elementwise_add_out
,
conv_output
);
GraphSafeRemoveNodes
(
graph
,
{
elementwise_add_out
,
conv_op
,
elementwise_add_op
});
(
*
fusion_stats
)
++
;
}
ResidualConnectionMKLDNNFusePass
::
ProjectionFuseHandle
::
ProjectionFuseHandle
(
const
ResidualConnectionMKLDNNFusePass
::
CanFuseFunc
&
can_fuse_func
,
const
ResidualConnectionMKLDNNFusePass
::
ProjectionConvFunc
&
get_node_from_conv_x_op
,
const
ResidualConnectionMKLDNNFusePass
::
ProjectionConvFunc
&
get_node_from_conv_y_op
,
const
ResidualConnectionMKLDNNFusePass
::
ProjectionElementwiseAddFunc
&
get_node_from_elementwise_add_op
)
:
fusion_stats
{
std
::
make_shared
<
int
>
(
0
)},
can_fuse_func
{
can_fuse_func
},
get_node_from_conv_x_op
{
get_node_from_conv_x_op
},
get_node_from_conv_y_op
{
get_node_from_conv_y_op
},
get_node_from_elementwise_add_op
{
get_node_from_elementwise_add_op
}
{}
void
ResidualConnectionMKLDNNFusePass
::
ProjectionFuseHandle
::
operator
()(
const
GraphPatternDetector
::
subgraph_t
&
subgraph
,
Graph
*
graph
)
{
Node
*
conv_x_op
;
Node
*
conv_x_input
;
Node
*
conv_x_filter
;
Node
*
conv_x_output
;
Node
*
conv_y_op
;
Node
*
conv_y_input
;
Node
*
conv_y_filter
;
Node
*
conv_y_output
;
Node
*
elementwise_add_op
;
Node
*
elementwise_add_out
;
std
::
tie
(
conv_x_op
,
conv_x_input
,
conv_x_filter
,
conv_x_output
)
=
get_node_from_conv_x_op
(
subgraph
);
std
::
tie
(
conv_y_op
,
conv_y_input
,
conv_y_filter
,
conv_y_output
)
=
get_node_from_conv_y_op
(
subgraph
);
std
::
tie
(
elementwise_add_op
,
elementwise_add_out
)
=
get_node_from_elementwise_add_op
(
subgraph
);
if
(
!
can_fuse_func
(
conv_x_op
,
elementwise_add_op
))
return
;
if
(
!
can_fuse_func
(
conv_y_op
,
elementwise_add_op
))
return
;
Node
*
projection_node
;
Node
*
residual_conv_op
;
Node
*
residual_conv_input
;
Node
*
residual_conv_filter
;
Node
*
residual_conv_output
;
if
(
IsReachable
(
graph
,
conv_x_input
,
conv_y_output
))
{
projection_node
=
conv_x_output
;
residual_conv_op
=
conv_y_op
;
residual_conv_input
=
conv_y_input
;
residual_conv_filter
=
conv_y_filter
;
residual_conv_output
=
conv_y_output
;
}
else
if
(
IsReachable
(
graph
,
conv_y_input
,
conv_x_output
))
{
projection_node
=
conv_y_output
;
residual_conv_op
=
conv_x_op
;
residual_conv_input
=
conv_x_input
;
residual_conv_filter
=
conv_x_filter
;
residual_conv_output
=
conv_x_output
;
}
else
{
return
;
}
OpDesc
op_desc
;
op_desc
.
SetType
(
"conv2d"
);
op_desc
.
SetInput
(
"Input"
,
{
residual_conv_input
->
Name
()});
op_desc
.
SetInput
(
"Filter"
,
{
residual_conv_filter
->
Name
()});
op_desc
.
SetInput
(
"ResidualData"
,
{
projection_node
->
Name
()});
op_desc
.
SetOutput
(
"Output"
,
{
residual_conv_output
->
Name
()});
auto
residual_conv_bias
=
HasBias
(
*
residual_conv_op
,
"Bias"
);
if
(
residual_conv_bias
)
{
op_desc
.
SetInput
(
"Bias"
,
{(
*
residual_conv_bias
)
->
Name
()});
}
for
(
const
auto
&
attr
:
residual_conv_op
->
Op
()
->
GetAttrMap
())
{
op_desc
.
SetAttr
(
attr
.
first
,
attr
.
second
);
}
op_desc
.
SetAttr
(
"fuse_residual_connection"
,
true
);
auto
fused_conv_op
=
graph
->
CreateOpNode
(
&
op_desc
);
IR_NODE_LINK_TO
(
residual_conv_input
,
fused_conv_op
);
IR_NODE_LINK_TO
(
residual_conv_filter
,
fused_conv_op
);
IR_NODE_LINK_TO
(
projection_node
,
fused_conv_op
);
IR_NODE_LINK_TO
(
fused_conv_op
,
residual_conv_output
);
if
(
residual_conv_bias
)
{
IR_NODE_LINK_TO
((
*
residual_conv_bias
),
fused_conv_op
);
}
CorrectGraphEdges
(
graph
,
elementwise_add_out
,
residual_conv_output
);
GraphSafeRemoveNodes
(
graph
,
{
elementwise_add_out
,
residual_conv_op
,
elementwise_add_op
});
(
*
fusion_stats
)
++
;
}
std
::
tuple
<
Node
*
,
Node
*
,
Node
*
,
Node
*>
ResidualConnectionMKLDNNFusePass
::
GetNodesFromConv
(
const
patterns
::
Conv
&
conv_pattern
,
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
const
{
GET_IR_NODE_FROM_SUBGRAPH
(
conv_op
,
conv_op
,
conv_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
conv_input
,
conv_input
,
conv_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
conv_filter
,
conv_filter
,
conv_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
conv_output
,
conv_output
,
conv_pattern
);
return
std
::
make_tuple
(
conv_op
,
conv_input
,
conv_filter
,
conv_output
);
}
GraphWithStats
ResidualConnectionMKLDNNFusePass
::
FuseConvAsX
(
const
std
::
string
&
name_scope
,
const
GraphWithStats
&
graph_with_stats
)
const
{
ir
::
Graph
*
graph
;
int
stats
;
std
::
tie
(
graph
,
stats
)
=
graph_with_stats
;
GraphPatternDetector
gpd
;
auto
pattern
=
gpd
.
mutable_pattern
();
patterns
::
Conv
conv_pattern
{
pattern
,
name_scope
};
auto
conv_output
=
conv_pattern
();
patterns
::
ElementwiseAdd
elementwise_add_pattern
{
pattern
,
name_scope
};
elementwise_add_pattern
(
conv_output
,
pattern
->
NewNode
(
elementwise_add_pattern
.
elementwise_add_y_repr
()));
conv_output
->
AsIntermediate
();
auto
get_node_from_elementwise_add
=
[
&
elementwise_add_pattern
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
->
std
::
tuple
<
Node
*
,
Node
*
,
Node
*>
{
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_op
,
elementwise_add_op
,
elementwise_add_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_y
,
elementwise_add_y
,
elementwise_add_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_out
,
elementwise_add_out
,
elementwise_add_pattern
);
return
std
::
make_tuple
(
elementwise_add_op
,
elementwise_add_y
,
elementwise_add_out
);
};
return
ExecuteHandleOnGraph
<
IdentityFuseHandle
>
(
&
gpd
,
graph_with_stats
,
[
this
,
&
conv_pattern
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
{
return
GetNodesFromConv
(
conv_pattern
,
subgraph
);
},
get_node_from_elementwise_add
);
}
GraphWithStats
ResidualConnectionMKLDNNFusePass
::
FuseConvAsY
(
const
std
::
string
&
name_scope
,
const
GraphWithStats
&
graph_with_stats
)
const
{
GraphPatternDetector
gpd
;
auto
pattern
=
gpd
.
mutable_pattern
();
patterns
::
Conv
conv_pattern
{
pattern
,
name_scope
};
auto
conv_output
=
conv_pattern
();
patterns
::
ElementwiseAdd
elementwise_add_pattern
{
pattern
,
name_scope
};
elementwise_add_pattern
(
pattern
->
NewNode
(
elementwise_add_pattern
.
elementwise_add_x_repr
()),
conv_output
);
conv_output
->
AsIntermediate
();
auto
get_node_from_elementwise_add
=
[
&
elementwise_add_pattern
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
->
std
::
tuple
<
Node
*
,
Node
*
,
Node
*>
{
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_op
,
elementwise_add_op
,
elementwise_add_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_x
,
elementwise_add_x
,
elementwise_add_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_out
,
elementwise_add_out
,
elementwise_add_pattern
);
return
std
::
make_tuple
(
elementwise_add_op
,
elementwise_add_x
,
elementwise_add_out
);
};
return
ExecuteHandleOnGraph
<
IdentityFuseHandle
>
(
&
gpd
,
graph_with_stats
,
[
this
,
&
conv_pattern
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
{
return
GetNodesFromConv
(
conv_pattern
,
subgraph
);
},
get_node_from_elementwise_add
);
}
GraphWithStats
ResidualConnectionMKLDNNFusePass
::
FuseProjectionConv
(
const
std
::
string
&
name_scope
,
const
GraphWithStats
&
graph_with_stats
)
const
{
GraphPatternDetector
gpd
;
auto
pattern
=
gpd
.
mutable_pattern
();
patterns
::
Conv
conv_x_pattern
{
pattern
,
name_scope
};
auto
conv_x_output
=
conv_x_pattern
();
patterns
::
Conv
conv_y_pattern
{
pattern
,
name_scope
};
auto
conv_y_output
=
conv_y_pattern
();
patterns
::
ElementwiseAdd
elementwise_add_pattern
{
pattern
,
name_scope
};
elementwise_add_pattern
(
conv_x_output
,
conv_y_output
);
conv_x_output
->
AsIntermediate
();
conv_y_output
->
AsIntermediate
();
auto
get_node_from_elementwise_add
=
[
&
elementwise_add_pattern
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
->
std
::
tuple
<
Node
*
,
Node
*>
{
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_op
,
elementwise_add_op
,
elementwise_add_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
elementwise_add_out
,
elementwise_add_out
,
elementwise_add_pattern
);
return
std
::
make_tuple
(
elementwise_add_op
,
elementwise_add_out
);
};
return
ExecuteHandleOnGraph
<
ProjectionFuseHandle
>
(
&
gpd
,
graph_with_stats
,
[
this
,
&
conv_x_pattern
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
{
return
GetNodesFromConv
(
conv_x_pattern
,
subgraph
);
},
[
this
,
&
conv_y_pattern
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
{
return
GetNodesFromConv
(
conv_y_pattern
,
subgraph
);
},
get_node_from_elementwise_add
);
}
graph_ptr
ResidualConnectionMKLDNNFusePass
::
ApplyImpl
(
graph_ptr
graph
)
const
{
FusePassBase
::
Init
(
name_scope_
,
graph
.
get
());
auto
fused_graph_with_stats
=
FuseConvAsY
(
name_scope_
,
FuseConvAsX
(
name_scope_
,
FuseProjectionConv
(
name_scope_
,
std
::
make_pair
(
graph
.
get
(),
0
))));
std
::
cout
<<
"Fused graph "
<<
fused_graph_with_stats
.
second
<<
std
::
endl
;
AddStatis
(
fused_graph_with_stats
.
second
);
return
graph
;
}
}
// namespace ir
...
...
@@ -151,4 +435,4 @@ graph_ptr ConvElementwiseAddMKLDNNFusePass::ApplyImpl(graph_ptr graph) const {
}
// namespace paddle
REGISTER_PASS
(
conv_elementwise_add_mkldnn_fuse_pass
,
paddle
::
framework
::
ir
::
ConvElementwiseAdd
MKLDNNFusePass
);
paddle
::
framework
::
ir
::
ResidualConnection
MKLDNNFusePass
);
paddle/fluid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass.h
浏览文件 @
cf685f36
...
...
@@ -15,24 +15,119 @@
#pragma once
#include <string>
#include <tuple>
#include <utility>
#include "paddle/fluid/framework/ir/fuse_pass_base.h"
#include "paddle/fluid/framework/ir/graph.h"
#include "paddle/fluid/framework/ir/graph_pattern_detector.h"
#include <boost/optional.hpp>
namespace
paddle
{
namespace
framework
{
namespace
ir
{
class
ConvElementwiseAddMKLDNNFusePass
:
public
FusePassBase
{
using
graph_ptr
=
std
::
unique_ptr
<
ir
::
Graph
>
;
using
GraphWithStats
=
std
::
pair
<
ir
::
Graph
*
,
int
>
;
void
CorrectGraphEdges
(
Graph
*
graph
,
Node
*
from
,
Node
*
to
);
bool
IsReachable
(
ir
::
Graph
*
graph
,
Node
*
from
,
Node
*
to
);
boost
::
optional
<
Node
*>
HasBias
(
const
Node
&
op
,
const
std
::
string
&
bias_name
);
class
ResidualConnectionMKLDNNFusePass
:
public
FusePassBase
{
private:
GraphWithStats
FuseConvAsX
(
const
std
::
string
&
name_scope
,
const
GraphWithStats
&
graph_with_stats
)
const
;
GraphWithStats
FuseConvAsY
(
const
std
::
string
&
name_scope
,
const
GraphWithStats
&
graph_with_stats
)
const
;
GraphWithStats
FuseProjectionConv
(
const
std
::
string
&
name_scope
,
const
GraphWithStats
&
graph_with_stats
)
const
;
template
<
typename
RetType
>
using
GetNodeFunc
=
std
::
function
<
RetType
(
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
>
;
using
IdentityConvFunc
=
GetNodeFunc
<
std
::
tuple
<
Node
*
,
Node
*
,
Node
*
,
Node
*>>
;
using
IdentityElementwiseAddFunc
=
GetNodeFunc
<
std
::
tuple
<
Node
*
,
Node
*
,
Node
*>>
;
using
ProjectionConvFunc
=
IdentityConvFunc
;
using
ProjectionElementwiseAddFunc
=
GetNodeFunc
<
std
::
tuple
<
Node
*
,
Node
*>>
;
using
CanFuseFunc
=
std
::
function
<
bool
(
Node
*
,
Node
*
)
>
;
std
::
tuple
<
Node
*
,
Node
*
,
Node
*
,
Node
*>
GetNodesFromConv
(
const
patterns
::
Conv
&
conv_pattern
,
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
const
;
std
::
tuple
<
Node
*
,
Node
*
,
Node
*
,
Node
*>
GetNodesFromProjectionConv
(
const
patterns
::
Conv
&
conv_pattern
,
const
GraphPatternDetector
::
subgraph_t
&
subgraph
)
const
;
template
<
typename
HandleType
,
typename
...
OpFuncs
>
GraphWithStats
ExecuteHandleOnGraph
(
GraphPatternDetector
*
gpd
,
const
GraphWithStats
&
graph_with_stats
,
OpFuncs
&&
...
op_funcs
)
const
{
ir
::
Graph
*
graph
;
int
stats
;
std
::
tie
(
graph
,
stats
)
=
graph_with_stats
;
auto
can_fuse
=
[
this
](
Node
*
op1
,
Node
*
op2
)
->
bool
{
return
this
->
FindFuseOption
(
*
op1
,
*
op2
)
==
FUSE_MKLDNN
;
};
auto
fuse_handle
=
HandleType
{
can_fuse
,
std
::
forward
<
OpFuncs
>
(
op_funcs
)...};
(
*
gpd
)(
graph
,
fuse_handle
);
return
std
::
make_pair
(
graph
,
stats
+
fuse_handle
.
get_stats
());
}
struct
IdentityFuseHandle
{
IdentityFuseHandle
(
const
CanFuseFunc
&
can_fuse_func
,
const
IdentityConvFunc
&
get_node_from_conv_op
,
const
IdentityElementwiseAddFunc
&
get_node_from_elementwise_add_op
);
void
operator
()(
const
GraphPatternDetector
::
subgraph_t
&
subgraph
,
Graph
*
graph
);
int
get_stats
()
const
{
return
*
fusion_stats
;
}
private:
std
::
shared_ptr
<
int
>
fusion_stats
;
CanFuseFunc
can_fuse_func
;
IdentityConvFunc
get_node_from_conv_op
;
IdentityElementwiseAddFunc
get_node_from_elementwise_add_op
;
};
struct
ProjectionFuseHandle
{
ProjectionFuseHandle
(
const
CanFuseFunc
&
can_fuse_func
,
const
ProjectionConvFunc
&
get_node_from_conv_x_op
,
const
ProjectionConvFunc
&
get_node_from_conv_y_op
,
const
ProjectionElementwiseAddFunc
&
get_node_from_elementwise_add_op
);
void
operator
()(
const
GraphPatternDetector
::
subgraph_t
&
subgraph
,
Graph
*
graph
);
int
get_stats
()
const
{
return
*
fusion_stats
;
}
private:
std
::
shared_ptr
<
int
>
fusion_stats
;
CanFuseFunc
can_fuse_func
;
ProjectionConvFunc
get_node_from_conv_x_op
;
ProjectionConvFunc
get_node_from_conv_y_op
;
ProjectionElementwiseAddFunc
get_node_from_elementwise_add_op
;
};
public:
virtual
~
ConvElementwiseAdd
MKLDNNFusePass
()
{}
virtual
~
ResidualConnection
MKLDNNFusePass
()
{}
protected:
std
::
unique_ptr
<
ir
::
Graph
>
ApplyImpl
(
std
::
unique_ptr
<
ir
::
Graph
>
graph
)
const
;
std
::
unique_ptr
<
ir
::
Graph
>
ApplyImpl
(
graph_ptr
graph
)
const
;
const
std
::
string
name_scope_
{
"residual_connection
s
_fuse_pass"
};
const
std
::
string
name_scope_
{
"residual_connection_fuse_pass"
};
};
}
// namespace ir
}
// namespace framework
}
// namespace paddle
paddle/fluid/framework/ir/conv_elementwise_add_mkldnn_fuse_pass_tester.cc
浏览文件 @
cf685f36
...
...
@@ -40,7 +40,7 @@ void SetOp(ProgramDesc* prog, const std::string& type,
op
->
SetOutput
(
output
.
first
,
{
output
.
second
});
}
struct
IsReachable
{
struct
Test
IsReachable
{
using
func
=
std
::
function
<
bool
(
const
std
::
string
&
,
const
std
::
string
&
)
>
;
auto
operator
()(
const
std
::
unique_ptr
<
ir
::
Graph
>&
graph
)
->
func
{
...
...
@@ -89,7 +89,9 @@ struct IsReachable {
}
};
void
AssertOpsCount
(
const
std
::
unique_ptr
<
ir
::
Graph
>&
graph
)
{
void
AssertOpsCount
(
const
std
::
unique_ptr
<
ir
::
Graph
>&
graph
,
int
expected_conv_count
,
int
expected_elementwise_add_count
=
0
)
{
int
conv_count
=
0
;
int
elementwise_add_count
=
0
;
...
...
@@ -101,8 +103,8 @@ void AssertOpsCount(const std::unique_ptr<ir::Graph>& graph) {
++
elementwise_add_count
;
}
}
EXPECT_EQ
(
conv_count
,
1
);
EXPECT_EQ
(
elementwise_add_count
,
0
);
EXPECT_EQ
(
conv_count
,
expected_conv_count
);
EXPECT_EQ
(
elementwise_add_count
,
expected_elementwise_add_count
);
}
ProgramDesc
BuildProgramDesc
(
const
std
::
vector
<
std
::
string
>&
transient_vars
,
...
...
@@ -127,22 +129,13 @@ ProgramDesc BuildProgramDesc(const std::vector<std::string>& transient_vars,
return
prog
;
}
}
// namespace
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
ConvolutionWithElementwiseAddRelu
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
,
"f"
},
{
"bias"
,
"weights"
});
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"a"
},
{
"Bias"
,
"bias"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"b"
});
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"b"
},
{
"Y"
,
"c"
}},
{
"Out"
,
"d"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"d"
}},
{
"Out"
,
"e"
});
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
prog
));
void
RunPassAndAssert
(
ProgramDesc
*
prog
,
const
std
::
string
&
from
,
const
std
::
string
&
to
,
int
expected_conv_num
)
{
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
*
prog
));
IsReachable
is_reachable
;
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"relu"
));
Test
IsReachable
is_reachable
;
EXPECT_TRUE
(
is_reachable
(
graph
)(
from
,
to
));
auto
pass
=
PassRegistry
::
Instance
().
Get
(
"conv_elementwise_add_mkldnn_fuse_pass"
);
...
...
@@ -150,82 +143,87 @@ TEST(ConvElementwiseAddMKLDNNFusePass, ConvolutionWithElementwiseAddRelu) {
graph
=
pass
->
Apply
(
std
::
move
(
graph
));
int
current_nodes_num
=
graph
->
Nodes
().
size
();
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"relu"
));
EXPECT_TRUE
(
is_reachable
(
graph
)(
from
,
to
));
EXPECT_EQ
(
original_nodes_num
-
nodes_removed
+
nodes_added
,
current_nodes_num
);
AssertOpsCount
(
graph
);
AssertOpsCount
(
graph
,
expected_conv_num
);
}
}
// namespace
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
ConvolutionWithElementwiseAddReluNoBias
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
},
{
"weights"
});
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"a"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"b"
});
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"b"
},
{
"Y"
,
"c"
}},
{
"Out"
,
"d"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"d"
}},
{
"Out"
,
"e"
});
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
prog
));
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
ConvolutionAsYWithElementwiseAddRelu
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
},
{
"bias"
,
"weights"
});
IsReachable
is_reachable
;
SetOp
(
&
prog
,
"sigmoid"
,
{{
"X"
,
"a"
}},
{
"Out"
,
"b"
});
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"b"
},
{
"Bias"
,
"bias"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"c"
});
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"relu"
));
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"a"
},
{
"Y"
,
"c"
}},
{
"Out"
,
"d"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"d"
}},
{
"Out"
,
"e"
});
auto
pass
=
PassRegistry
::
Instance
().
Get
(
"conv_elementwise_add_mkldnn_fuse_pass"
);
int
original_nodes_num
=
graph
->
Nodes
().
size
();
graph
=
pass
->
Apply
(
std
::
move
(
graph
));
int
current_nodes_num
=
graph
->
Nodes
().
size
();
RunPassAndAssert
(
&
prog
,
"a"
,
"relu"
,
1
);
}
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"relu"
));
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
ConvolutionAsYWithElementwiseAddReluNoBias
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
},
{
"weights"
});
EXPECT_EQ
(
original_nodes_num
-
nodes_removed
+
nodes_added
,
current_nodes_num
);
SetOp
(
&
prog
,
"sigmoid"
,
{{
"X"
,
"a"
}},
{
"Out"
,
"b"
});
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"b"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"c"
});
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"a"
},
{
"Y"
,
"c"
}},
{
"Out"
,
"d"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"d"
}},
{
"Out"
,
"e"
});
AssertOpsCount
(
graph
);
RunPassAndAssert
(
&
prog
,
"a"
,
"relu"
,
1
);
}
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
ConvolutionElementwiseAdd
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
},
{
"bias"
,
"weights"
});
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
ConvolutionAsXWithElementwiseAddRelu
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
},
{
"bias"
,
"weights"
});
SetOp
(
&
prog
,
"sigmoid"
,
{{
"X"
,
"a"
}},
{
"Out"
,
"b"
});
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"a"
},
{
"Bias"
,
"bias"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"b"
});
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"b"
},
{
"Y"
,
"c"
}},
{
"Out"
,
"d"
});
{{
"Input"
,
"b"
},
{
"Bias"
,
"bias"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"c"
});
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
prog
));
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"c"
},
{
"Y"
,
"a"
}},
{
"Out"
,
"d"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"d"
}},
{
"Out"
,
"e"
});
IsReachable
is_reachable
;
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"d"
));
RunPassAndAssert
(
&
prog
,
"a"
,
"relu"
,
1
)
;
}
auto
pass
=
PassRegistry
::
Instance
().
Get
(
"conv_elementwise_add_mkldnn_fuse_pass"
);
int
original_nodes_num
=
graph
->
Nodes
().
size
();
graph
=
pass
->
Apply
(
std
::
move
(
graph
));
int
current_nodes_num
=
graph
->
Nodes
().
size
();
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
ConvolutionAsXWithElementwiseAddReluNoBias
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
},
{
"weights"
});
EXPECT_FALSE
(
is_reachable
(
graph
)(
"a"
,
"d"
));
SetOp
(
&
prog
,
"sigmoid"
,
{{
"X"
,
"a"
}},
{
"Out"
,
"b"
});
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"b"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"c"
});
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"c"
},
{
"Y"
,
"a"
}},
{
"Out"
,
"d"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"d"
}},
{
"Out"
,
"e"
});
EXPECT_EQ
(
original_nodes_num
-
nodes_removed
+
nodes_added
,
current_nodes_num
);
AssertOpsCount
(
graph
);
RunPassAndAssert
(
&
prog
,
"a"
,
"relu"
,
1
);
}
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
SigmoidConvolutionAddElementwiseRelu
)
{
TEST
(
ConvElementwiseAddMKLDNNFusePass
,
NoFusion
)
{
auto
prog
=
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
,
"f"
},
{
"bias"
,
"weights"
});
BuildProgramDesc
({
"a"
,
"b"
,
"c"
,
"d"
,
"e"
,
"f"
,
"g"
},
{
"weights"
});
SetOp
(
&
prog
,
"sigmoid"
,
{{
"X"
,
"a"
}},
{
"Out"
,
"b"
});
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"b"
},
{
"Bias"
,
"bias"
},
{
"Filter"
,
"weights"
}},
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"b"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"c"
});
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"c"
},
{
"Y"
,
"d"
}},
{
"Out"
,
"e"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"e"
}},
{
"Out"
,
"f"
});
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
prog
));
SetOp
(
&
prog
,
"conv2d"
,
{{
"Input"
,
"d"
},
{
"Filter"
,
"weights"
}},
{
"Output"
,
"e"
});
IsReachable
is_reachable
;
SetOp
(
&
prog
,
"elementwise_add"
,
{{
"X"
,
"c"
},
{
"Y"
,
"e"
}},
{
"Out"
,
"f"
});
SetOp
(
&
prog
,
"relu"
,
{{
"X"
,
"f"
}},
{
"Out"
,
"g"
});
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"f"
));
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
prog
));
TestIsReachable
is_reachable
;
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"g"
));
auto
pass
=
PassRegistry
::
Instance
().
Get
(
"conv_elementwise_add_mkldnn_fuse_pass"
);
...
...
@@ -233,11 +231,10 @@ TEST(ConvElementwiseAddMKLDNNFusePass, SigmoidConvolutionAddElementwiseRelu) {
graph
=
pass
->
Apply
(
std
::
move
(
graph
));
int
current_nodes_num
=
graph
->
Nodes
().
size
();
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"f"
));
EXPECT_TRUE
(
is_reachable
(
graph
)(
"a"
,
"g"
));
EXPECT_EQ
(
original_nodes_num
,
current_nodes_num
);
EXPECT_EQ
(
original_nodes_num
-
nodes_removed
+
nodes_added
,
current_nodes_num
);
AssertOpsCount
(
graph
);
AssertOpsCount
(
graph
,
2
,
1
);
}
}
// namespace ir
...
...
paddle/fluid/framework/ir/graph_pattern_detector.cc
浏览文件 @
cf685f36
...
...
@@ -1084,16 +1084,12 @@ PDNode *patterns::Conv::operator()() {
return
output_var
;
}
PDNode
*
patterns
::
ElementwiseAdd
::
operator
()(
PDNode
*
x_var
)
{
PDNode
*
patterns
::
ElementwiseAdd
::
operator
()(
PDNode
*
x_var
,
PDNode
*
y_var
)
{
auto
elementwise_add_op
=
pattern
->
NewNode
(
elementwise_add_op_repr
())
->
assert_is_op
(
"elementwise_add"
);
x_var
->
assert_is_op_input
(
"elementwise_add"
,
"X"
);
auto
y_var
=
pattern
->
NewNode
(
elementwise_add_x_repr
())
->
AsInput
()
->
assert_is_op_input
(
"elementwise_add"
,
"Y"
);
x_var
->
AsInput
()
->
assert_is_op_input
(
"elementwise_add"
,
"X"
);
y_var
->
AsInput
()
->
assert_is_op_input
(
"elementwise_add"
,
"Y"
);
auto
out_var
=
pattern
->
NewNode
(
elementwise_add_out_repr
())
->
AsOutput
()
->
assert_is_op_output
(
"elementwise_add"
,
"Out"
);
...
...
paddle/fluid/framework/ir/graph_pattern_detector.h
浏览文件 @
cf685f36
...
...
@@ -664,7 +664,7 @@ struct ElementwiseAdd : public PatternBase {
ElementwiseAdd
(
PDPattern
*
pattern
,
const
std
::
string
&
name_scope
)
:
PatternBase
(
pattern
,
name_scope
,
"elementwise_add"
)
{}
PDNode
*
operator
()(
PDNode
*
x_var
);
PDNode
*
operator
()(
PDNode
*
x_var
,
PDNode
*
y_var
);
PATTERN_DECL_NODE
(
elementwise_add_op
);
PATTERN_DECL_NODE
(
elementwise_add_x
);
...
...
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