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1e3245a8
编写于
11月 10, 2022
作者:
R
RichardWooSJTU
提交者:
GitHub
11月 10, 2022
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差异文件
Fuse multi transformer layer pass (#47541)
* add fuse_multi_transformer_layer_pass
上级
3addd568
变更
10
显示空白变更内容
内联
并排
Showing
10 changed file
with
690 addition
and
1 deletion
+690
-1
paddle/fluid/framework/ir/CMakeLists.txt
paddle/fluid/framework/ir/CMakeLists.txt
+5
-0
paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass.cc
...e/fluid/framework/ir/fuse_multi_transformer_layer_pass.cc
+325
-0
paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass.h
...le/fluid/framework/ir/fuse_multi_transformer_layer_pass.h
+60
-0
paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass_tester.cc
.../framework/ir/fuse_multi_transformer_layer_pass_tester.cc
+175
-0
paddle/fluid/framework/ir/fused_multi_transformer_decoder_pass.cc
...luid/framework/ir/fused_multi_transformer_decoder_pass.cc
+3
-0
paddle/fluid/framework/ir/fused_multi_transformer_encoder_pass.cc
...luid/framework/ir/fused_multi_transformer_encoder_pass.cc
+3
-0
paddle/fluid/framework/ir/pass.cc
paddle/fluid/framework/ir/pass.cc
+1
-1
paddle/fluid/framework/ir/pass.h
paddle/fluid/framework/ir/pass.h
+4
-0
paddle/fluid/framework/ir/pass_tester_helper.h
paddle/fluid/framework/ir/pass_tester_helper.h
+113
-0
paddle/fluid/inference/api/paddle_pass_builder.cc
paddle/fluid/inference/api/paddle_pass_builder.cc
+1
-0
未找到文件。
paddle/fluid/framework/ir/CMakeLists.txt
浏览文件 @
1e3245a8
...
@@ -107,6 +107,7 @@ pass_library(skip_layernorm_fuse_pass base)
...
@@ -107,6 +107,7 @@ pass_library(skip_layernorm_fuse_pass base)
pass_library
(
multihead_matmul_fuse_pass inference
)
pass_library
(
multihead_matmul_fuse_pass inference
)
pass_library
(
fused_multi_transformer_encoder_pass inference
)
pass_library
(
fused_multi_transformer_encoder_pass inference
)
pass_library
(
fused_multi_transformer_decoder_pass inference
)
pass_library
(
fused_multi_transformer_decoder_pass inference
)
pass_library
(
fuse_multi_transformer_layer_pass inference
)
pass_library
(
adaptive_pool2d_convert_global_pass inference
)
pass_library
(
adaptive_pool2d_convert_global_pass inference
)
pass_library
(
unsqueeze2_eltwise_fuse_pass inference
)
pass_library
(
unsqueeze2_eltwise_fuse_pass inference
)
pass_library
(
yolo_box_fuse_pass inference
)
pass_library
(
yolo_box_fuse_pass inference
)
...
@@ -326,6 +327,10 @@ cc_test(
...
@@ -326,6 +327,10 @@ cc_test(
test_fused_multi_transformer_decoder_pass
test_fused_multi_transformer_decoder_pass
SRCS fused_multi_transformer_decoder_pass_tester.cc
SRCS fused_multi_transformer_decoder_pass_tester.cc
DEPS fused_multi_transformer_decoder_pass
)
DEPS fused_multi_transformer_decoder_pass
)
cc_test
(
test_fuse_multi_transformer_layer_pass
SRCS fuse_multi_transformer_layer_pass_tester.cc
DEPS fuse_multi_transformer_layer_pass
)
cc_test
(
cc_test
(
test_conv_bn_fuse_pass_cc
test_conv_bn_fuse_pass_cc
SRCS conv_bn_fuse_pass_tester.cc
SRCS conv_bn_fuse_pass_tester.cc
...
...
paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass.cc
0 → 100644
浏览文件 @
1e3245a8
// Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass.h"
#include <string>
#include "paddle/fluid/framework/convert_utils.h"
#include "paddle/fluid/framework/lod_tensor.h"
#include "paddle/fluid/framework/op_version_registry.h"
namespace
paddle
{
namespace
framework
{
class
Scope
;
}
// namespace framework
}
// namespace paddle
namespace
paddle
{
namespace
framework
{
namespace
ir
{
namespace
patterns
{
std
::
unordered_map
<
std
::
string
,
std
::
string
>
MultiTransformerLayerPattern
::
operator
()(
bool
enable_int8
,
int
num_fused_op
,
bool
is_decoder
)
{
std
::
string
fused_multi_transformer_name
=
enable_int8
?
"fused_multi_transformer_int8"
:
"fused_multi_transformer"
;
std
::
unordered_map
<
std
::
string
,
std
::
string
>
node_reprs
;
// x0 and src_mask is unqiue input of subgraph
auto
*
x0
=
pattern
->
NewNode
(
x0_repr
());
x0
->
assert_is_op_input
(
fused_multi_transformer_name
,
"X"
)
->
AsInput
();
auto
*
src_mask
=
pattern
->
NewNode
(
src_mask_repr
());
src_mask
->
assert_is_op_input
(
fused_multi_transformer_name
,
"SrcMask"
)
->
AsInput
();
for
(
int
i
=
0
;
i
<
num_fused_op
;
++
i
)
{
auto
fuse_op_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"fuse_op_"
+
std
::
to_string
(
i
));
node_reprs
[
"fuse_op_"
+
std
::
to_string
(
i
)]
=
fuse_op_repr
;
auto
*
fused_multi_transformer
=
pattern
->
NewNode
(
fuse_op_repr
)
->
assert_is_op
(
fused_multi_transformer_name
);
auto
out_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"out_"
+
std
::
to_string
(
i
));
node_reprs
[
"out_"
+
std
::
to_string
(
i
)]
=
out_repr
;
auto
*
out
=
pattern
->
NewNode
(
out_repr
)
->
assert_is_op_output
(
fused_multi_transformer_name
,
"Out"
);
if
(
is_decoder
)
{
auto
shape_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"shape_"
+
std
::
to_string
(
i
));
node_reprs
[
"shape_"
+
std
::
to_string
(
i
)]
=
shape_repr
;
auto
*
shape
=
pattern
->
NewNode
(
shape_repr
)
->
assert_is_op
(
"shape"
);
auto
shape_out_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"shape_out_"
+
std
::
to_string
(
i
));
node_reprs
[
"shape_out_"
+
std
::
to_string
(
i
)]
=
shape_out_repr
;
auto
*
shape_out
=
pattern
->
NewNode
(
shape_out_repr
)
->
assert_is_op_output
(
"shape"
,
"Out"
);
shape
->
LinksFrom
({
src_mask
}).
LinksTo
({
shape_out
});
auto
slice_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"slice_"
+
std
::
to_string
(
i
));
node_reprs
[
"slice_"
+
std
::
to_string
(
i
)]
=
slice_repr
;
auto
*
slice
=
pattern
->
NewNode
(
slice_repr
)
->
assert_is_op
(
"slice"
);
auto
slice_out_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"slice_out_"
+
std
::
to_string
(
i
));
node_reprs
[
"slice_out_"
+
std
::
to_string
(
i
)]
=
slice_out_repr
;
auto
*
slice_out
=
pattern
->
NewNode
(
slice_out_repr
)
->
assert_is_op_output
(
"slice"
,
"Out"
);
slice
->
LinksFrom
({
shape_out
}).
LinksTo
({
slice_out
});
fused_multi_transformer
->
LinksFrom
({
x0
,
src_mask
,
slice_out
})
.
LinksTo
({
out
});
}
else
{
auto
cache_kv_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"cache_kv_"
+
std
::
to_string
(
i
));
node_reprs
[
"cache_kv_"
+
std
::
to_string
(
i
)]
=
cache_kv_repr
;
auto
*
cache_kv
=
pattern
->
NewNode
(
cache_kv_repr
);
cache_kv
->
assert_is_op_input
(
fused_multi_transformer_name
,
"CacheKV"
);
cache_kv
->
AsInput
();
auto
fill_const_op_repr
=
PDNodeName
(
name_scope_
,
repr_
,
id_
,
"fill_op_"
+
std
::
to_string
(
i
));
node_reprs
[
"fill_op_"
+
std
::
to_string
(
i
)]
=
fill_const_op_repr
;
auto
fill_const_op
=
pattern
->
NewNode
(
fill_const_op_repr
)
->
assert_is_op
(
"fill_constant_batch_size_like"
);
fused_multi_transformer
->
LinksFrom
({
x0
,
src_mask
,
cache_kv
})
.
LinksTo
({
out
});
fill_const_op
->
LinksFrom
({
x0
}).
LinksTo
({
cache_kv
});
}
x0
=
out
;
}
x0
->
AsOutput
();
return
node_reprs
;
}
}
// namespace patterns
inline
void
MergeInput
(
OpDesc
*
op
,
const
std
::
vector
<
VariableNameMap
>&
input_name_maps
,
const
std
::
string
&
input_name
)
{
std
::
vector
<
std
::
string
>
tmp
=
input_name_maps
[
0
].
at
(
input_name
);
for
(
size_t
i
=
1
;
i
<
input_name_maps
.
size
();
++
i
)
{
tmp
.
insert
(
tmp
.
end
(),
input_name_maps
[
i
].
at
(
input_name
).
begin
(),
input_name_maps
[
i
].
at
(
input_name
).
end
());
}
op
->
SetInput
(
input_name
,
tmp
);
}
template
<
typename
T
>
inline
void
MergeAttrs
(
const
std
::
vector
<
OpDesc
*>&
ops
,
const
std
::
string
&
attr_name
)
{
std
::
vector
<
T
>
res
;
for
(
size_t
i
=
0
;
i
<
ops
.
size
();
++
i
)
{
auto
scale_vec
=
PADDLE_GET_CONST
(
std
::
vector
<
T
>
,
ops
[
i
]
->
GetAttr
(
attr_name
));
res
.
insert
(
res
.
end
(),
scale_vec
.
begin
(),
scale_vec
.
end
());
}
ops
[
0
]
->
SetAttr
(
attr_name
,
res
);
}
int
FuseMultiTransformerLayerPass
::
BuildFusion
(
Graph
*
graph
,
const
std
::
string
&
name_scope
,
Scope
*
scope
)
const
{
GraphPatternDetector
gpd
;
auto
*
pattern
=
gpd
.
mutable_pattern
();
// TODO(wufeisheng): Get enable_int8 attr from graph after
// fused_multi_transformer pass with int8 merged
bool
enable_int8
=
false
;
int
num_fuse_op
=
0
;
bool
is_decoder
=
false
;
if
(
graph
->
Has
(
kFusedMultiTransformerEncoderFusionCount
))
{
num_fuse_op
=
graph
->
Get
<
int
>
(
kFusedMultiTransformerEncoderFusionCount
);
is_decoder
=
false
;
}
else
if
(
graph
->
Has
(
kFusedMultiTransformerDecoderFusionCount
))
{
num_fuse_op
=
graph
->
Get
<
int
>
(
kFusedMultiTransformerDecoderFusionCount
);
is_decoder
=
true
;
}
if
(
num_fuse_op
==
0
)
{
VLOG
(
4
)
<<
"fuse_multi_transformer_layer_pass will be skipped "
"cause num_fuse_op is not been set or set to 0"
;
return
0
;
}
if
(
!
is_decoder
)
{
VLOG
(
4
)
<<
"fuse_multi_transformer_layer_pass will match encoder pattern"
;
}
else
{
VLOG
(
4
)
<<
"fuse_multi_transformer_layer_pass will match decoder pattern"
;
}
patterns
::
MultiTransformerLayerPattern
multi_layer_pattern
(
pattern
,
name_scope
);
auto
node_reprs
=
multi_layer_pattern
(
enable_int8
,
num_fuse_op
,
is_decoder
);
int
fusion_count
{
0
};
auto
handler
=
[
&
](
const
GraphPatternDetector
::
subgraph_t
&
subgraph
,
Graph
*
graph
)
{
///////////////////
//// Get nodes ////
///////////////////
GET_IR_NODE_FROM_SUBGRAPH
(
src_mask
,
src_mask
,
multi_layer_pattern
);
GET_IR_NODE_FROM_SUBGRAPH
(
x0
,
x0
,
multi_layer_pattern
);
std
::
vector
<
Node
*>
fuse_op_nodes
;
std
::
vector
<
Node
*>
out_nodes
;
std
::
vector
<
std
::
string
>
unused_node_prefixes
=
{
"shape_"
,
"shape_out_"
,
"slice_"
,
"slice_out_"
};
std
::
vector
<
Node
*>
unused_nodes
;
std
::
vector
<
OpDesc
*>
fuse_op_descs
;
std
::
vector
<
VariableNameMap
>
fuse_op_input_var_name_maps
;
std
::
vector
<
VariableNameMap
>
fuse_op_output_var_name_maps
;
for
(
int
i
=
0
;
i
<
num_fuse_op
;
++
i
)
{
PDNode
*
fuse_op_pdnode
=
multi_layer_pattern
.
PatternBase
::
pattern
->
RetrieveNode
(
node_reprs
[
"fuse_op_"
+
std
::
to_string
(
i
)]);
Node
*
fuse_op_node
=
subgraph
.
at
(
fuse_op_pdnode
);
fuse_op_nodes
.
push_back
(
fuse_op_node
);
fuse_op_descs
.
push_back
(
fuse_op_node
->
Op
());
fuse_op_input_var_name_maps
.
emplace_back
(
fuse_op_node
->
Op
()
->
Inputs
());
fuse_op_output_var_name_maps
.
emplace_back
(
fuse_op_node
->
Op
()
->
Outputs
());
PDNode
*
out_pdnode
=
multi_layer_pattern
.
PatternBase
::
pattern
->
RetrieveNode
(
node_reprs
[
"out_"
+
std
::
to_string
(
i
)]);
out_nodes
.
push_back
(
subgraph
.
at
(
out_pdnode
));
// fill_const op use x0 as input
if
(
!
is_decoder
&&
i
!=
0
)
{
PDNode
*
fill_op_pdnode
=
multi_layer_pattern
.
PatternBase
::
pattern
->
RetrieveNode
(
node_reprs
[
"fill_op_"
+
std
::
to_string
(
i
)]);
Node
*
fill_op_node
=
subgraph
.
at
(
fill_op_pdnode
);
fill_op_node
->
Op
()
->
SetInput
(
"Input"
,
{
x0
->
Name
()});
IR_NODE_UNLINK
(
out_nodes
[
i
-
1
],
fill_op_node
);
IR_NODE_LINK_TO
(
x0
,
fill_op_node
);
}
else
if
(
is_decoder
&&
i
!=
0
)
{
for
(
const
auto
&
unused_node_prefix
:
unused_node_prefixes
)
{
PDNode
*
unused_pdnode
=
multi_layer_pattern
.
PatternBase
::
pattern
->
RetrieveNode
(
node_reprs
[
unused_node_prefix
+
std
::
to_string
(
i
)]);
Node
*
unused_node
=
subgraph
.
at
(
unused_pdnode
);
unused_nodes
.
push_back
(
unused_node
);
}
}
}
///////////////
//// Merge ////
///////////////
// Merge inputs
std
::
vector
<
std
::
string
>
inputs_names
=
{
"CacheKV"
,
"FFN1Bias"
,
"FFN1Weight"
,
"FFN2Bias"
,
"FFN2Weight"
,
"FFNLnBias"
,
"FFNLnScale"
,
"LnBias"
,
"LnScale"
,
"OutLinearBias"
,
"OutLinearW"
,
"QKVBias"
,
"QKVW"
};
for
(
const
auto
&
input_name
:
inputs_names
)
{
MergeInput
(
fuse_op_descs
[
0
],
fuse_op_input_var_name_maps
,
input_name
);
}
// Merge outputs
fuse_op_descs
[
0
]
->
SetOutput
(
"Out"
,
fuse_op_output_var_name_maps
[
num_fuse_op
-
1
][
"Out"
]);
auto
&
merged_cache_kv_out_names
=
fuse_op_output_var_name_maps
[
0
][
"CacheKVOut"
];
for
(
int
i
=
1
;
i
<
num_fuse_op
;
++
i
)
{
const
auto
&
out_var_names
=
fuse_op_output_var_name_maps
[
i
][
"CacheKVOut"
];
merged_cache_kv_out_names
.
insert
(
merged_cache_kv_out_names
.
end
(),
out_var_names
.
begin
(),
out_var_names
.
end
());
}
fuse_op_descs
[
0
]
->
SetOutput
(
"CacheKVOut"
,
merged_cache_kv_out_names
);
////////////////
//// ReLink ////
////////////////
// Before relink, out nodes (0 -> num_layer-1) should be removed
std
::
unordered_set
<
const
Node
*>
marked_out_nodes
(
out_nodes
.
begin
(),
out_nodes
.
end
()
-
1
);
GraphSafeRemoveNodes
(
graph
,
marked_out_nodes
);
// Relink all input nodes of fused_multi_transformer ops to the first op
auto
&
merged_inputs
=
fuse_op_nodes
[
0
]
->
inputs
;
for
(
int
i
=
1
;
i
<
num_fuse_op
;
++
i
)
{
merged_inputs
.
insert
(
merged_inputs
.
end
(),
fuse_op_nodes
[
i
]
->
inputs
.
begin
(),
fuse_op_nodes
[
i
]
->
inputs
.
end
());
}
// Relink fuse op -> out
IR_NODE_UNLINK
(
fuse_op_nodes
[
num_fuse_op
-
1
],
out_nodes
[
num_fuse_op
-
1
]);
IR_NODE_LINK_TO
(
fuse_op_nodes
[
0
],
out_nodes
[
num_fuse_op
-
1
]);
/////////////////////////////
//// Delete unused nodes ////
/////////////////////////////
// Delete fused_multi_transformer op expect for the first one
std
::
unordered_set
<
const
Node
*>
marked_fuse_op_nodes
(
fuse_op_nodes
.
begin
()
+
1
,
fuse_op_nodes
.
end
());
if
(
is_decoder
)
{
marked_fuse_op_nodes
.
insert
(
unused_nodes
.
begin
(),
unused_nodes
.
end
());
}
GraphSafeRemoveNodes
(
graph
,
marked_fuse_op_nodes
);
++
fusion_count
;
};
gpd
(
graph
,
handler
);
return
fusion_count
;
}
void
FuseMultiTransformerLayerPass
::
ApplyImpl
(
Graph
*
graph
)
const
{
FusePassBase
::
Init
(
name_scope_
,
graph
);
auto
*
scope
=
param_scope
();
PADDLE_ENFORCE_NOT_NULL
(
scope
,
platform
::
errors
::
Fatal
(
"During the fuse_multi_transformer_layer pass, "
"The scope should not be null."
));
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
AddStatis
(
fusion_count
);
}
}
// namespace ir
}
// namespace framework
}
// namespace paddle
REGISTER_PASS
(
fuse_multi_transformer_layer_pass
,
paddle
::
framework
::
ir
::
FuseMultiTransformerLayerPass
);
paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass.h
0 → 100644
浏览文件 @
1e3245a8
// Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#pragma once
#include <memory>
#include <string>
#include "paddle/fluid/framework/ir/fuse_pass_base.h"
#include "paddle/fluid/framework/ir/graph.h"
namespace
paddle
{
namespace
framework
{
namespace
ir
{
namespace
patterns
{
struct
MultiTransformerLayerPattern
:
public
PatternBase
{
MultiTransformerLayerPattern
(
PDPattern
*
pattern
,
const
std
::
string
&
name_scope
)
:
PatternBase
(
pattern
,
name_scope
,
"fuse_multi_transformer_layer"
)
{}
std
::
unordered_map
<
std
::
string
,
std
::
string
>
operator
()(
bool
enable_int8
,
int
num_fused_op
=
1
,
bool
is_decoder
=
false
);
PATTERN_DECL_NODE
(
src_mask
);
PATTERN_DECL_NODE
(
x0
);
};
}
// namespace patterns
class
FuseMultiTransformerLayerPass
:
public
FusePassBase
{
public:
FuseMultiTransformerLayerPass
()
{}
virtual
~
FuseMultiTransformerLayerPass
()
{}
protected:
void
ApplyImpl
(
Graph
*
graph
)
const
;
const
std
::
string
name_scope_
{
"fuse_multi_transformer_layer"
};
private:
int
BuildFusion
(
Graph
*
graph
,
const
std
::
string
&
name_scope
,
Scope
*
scope
)
const
;
};
}
// namespace ir
}
// namespace framework
}
// namespace paddle
paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass_tester.cc
0 → 100644
浏览文件 @
1e3245a8
/* Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include <gtest/gtest.h>
#include "paddle/fluid/framework/ir/fuse_multi_transformer_layer_pass.h"
#include "paddle/fluid/framework/ir/pass_tester_helper.h"
#include "paddle/fluid/framework/op_version_registry.h"
#define DEF_INPUT_DATA \
Layers layers; \
int num_layers = 3; \
auto* x = layers.data("x", {1, 128, 1024}); \
auto* src_mask = layers.data("src_mask", {1, 16, 128, 128}); \
auto* ln_scale = layers.data("ln_scale", {1024}, true); \
auto* ln_bias = layers.data("ln_bias", {1024}, true); \
auto* ffn_ln_scale = layers.data("ffn_ln_scale", {1024}, true); \
auto* ffn_ln_bias = layers.data("ffn_ln_bias", {1024}, true); \
auto* qkv_w = layers.data("qkv_w", {3, 16, 64, 1024}, true); \
auto* out_linear_w = layers.data("out_linear_w", {1024, 1024}, true); \
auto* ffn1_w = layers.data("ffn1_w", {1024, 4096}, true); \
auto* ffn2_w = layers.data("ffn2_w", {4096, 1024}, true); \
auto* qkv_bias = layers.data("qkv_bias", {3072}, true); \
auto* out_linear_bias = layers.data("out_linear_bias", {1024}, true); \
auto* ffn1_bias = layers.data("ffn1_bias", {4096}, true); \
auto* ffn2_bias = layers.data("ffn2_bias", {1024}, true);
namespace
paddle
{
namespace
framework
{
namespace
ir
{
void
AddVarToScope
(
Scope
*
param_scope
,
const
std
::
string
&
name
,
const
DDim
&
dims
)
{
auto
*
tensor
=
param_scope
->
Var
(
name
)
->
GetMutable
<
phi
::
DenseTensor
>
();
tensor
->
Resize
(
dims
);
tensor
->
mutable_data
<
float
>
(
platform
::
CPUPlace
());
}
Scope
*
CreateParamScope
()
{
auto
param_scope
=
new
Scope
();
AddVarToScope
(
param_scope
,
"ln_scale"
,
{
1024
});
AddVarToScope
(
param_scope
,
"ln_bias"
,
{
1024
});
AddVarToScope
(
param_scope
,
"ffn_ln_scale"
,
{
1024
});
AddVarToScope
(
param_scope
,
"ffn_ln_bias"
,
{
1024
});
AddVarToScope
(
param_scope
,
"qkv_w"
,
{
3
,
16
,
64
,
1024
});
AddVarToScope
(
param_scope
,
"out_linear_w"
,
{
1024
,
1024
});
AddVarToScope
(
param_scope
,
"ffn1_w"
,
{
1024
,
4096
});
AddVarToScope
(
param_scope
,
"ffn2_w"
,
{
4096
,
1024
});
AddVarToScope
(
param_scope
,
"qkv_bias"
,
{
3072
});
AddVarToScope
(
param_scope
,
"out_linear_bias"
,
{
1024
});
AddVarToScope
(
param_scope
,
"ffn1_bias"
,
{
4096
});
AddVarToScope
(
param_scope
,
"ffn2_bias"
,
{
1024
});
return
param_scope
;
}
TEST
(
FuseMultiTransformerLayerPass
,
encoder_fp
)
{
DEF_INPUT_DATA
// Layers
for
(
int
i
=
0
;
i
<
num_layers
;
++
i
)
{
auto
*
cache_kv
=
layers
.
fill_constant_batch_size_like
(
x
,
static_cast
<
int
>
(
proto
::
VarType
::
FP32
),
0
,
1
,
{
2
,
-
1
,
16
,
1024
,
64
},
0
);
auto
*
out
=
layers
.
fused_multi_transformer
(
x
,
cache_kv
,
src_mask
,
qkv_w
,
qkv_bias
,
out_linear_w
,
out_linear_bias
,
ffn1_w
,
ffn1_bias
,
ffn2_w
,
ffn2_bias
,
ln_scale
,
ln_bias
,
ffn_ln_scale
,
ffn_ln_bias
,
0.1
,
1e-12
);
x
=
out
;
}
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
layers
.
main_program
()));
graph
->
Set
(
"__param_scope__"
,
CreateParamScope
());
graph
->
Set
(
kFusedMultiTransformerEncoderFusionCount
,
new
int
(
num_layers
));
auto
pass
=
PassRegistry
::
Instance
().
Get
(
"fuse_multi_transformer_layer_pass"
);
if
(
pass
.
get
()
==
nullptr
)
LOG
(
INFO
)
<<
"get fuse_multi_transformer_layer_pass failed"
;
graph
.
reset
(
pass
->
Apply
(
graph
.
release
()));
int
num_nodes_after
=
GetNumOpNodes
(
graph
,
"fused_multi_transformer"
);
PADDLE_ENFORCE_EQ
(
num_nodes_after
,
1
,
platform
::
errors
::
InvalidArgument
(
"After the fuse_multi_transformer_layer_pass, "
"The node num in graph should be 1, but the result is %d"
,
num_nodes_after
));
}
TEST
(
FuseMultiTransformerLayerPass
,
decoder_fp
)
{
DEF_INPUT_DATA
x
=
layers
.
data
(
"x"
,
{
1
,
1
,
1024
});
auto
*
cache_kv
=
layers
.
data
(
"cache_kv"
,
{
2
,
1
,
16
,
1024
,
64
},
true
);
src_mask
=
layers
.
data
(
"src_mask"
,
{
1
,
16
,
1
,
129
});
// Layers
for
(
int
i
=
0
;
i
<
num_layers
;
++
i
)
{
auto
*
shape_out
=
layers
.
shape
(
src_mask
);
auto
*
time_stamp
=
layers
.
slice
(
shape_out
,
{
0
},
{
3
},
{
4
});
auto
*
out
=
layers
.
fused_multi_transformer
(
x
,
cache_kv
,
src_mask
,
qkv_w
,
qkv_bias
,
out_linear_w
,
out_linear_bias
,
ffn1_w
,
ffn1_bias
,
ffn2_w
,
ffn2_bias
,
ln_scale
,
ln_bias
,
ffn_ln_scale
,
ffn_ln_bias
,
0.1
,
1e-12
,
time_stamp
);
x
=
out
;
}
std
::
unique_ptr
<
ir
::
Graph
>
graph
(
new
ir
::
Graph
(
layers
.
main_program
()));
auto
param_scope
=
CreateParamScope
();
AddVarToScope
(
param_scope
,
"cache_kv"
,
{
2
,
1
,
16
,
1024
,
64
});
graph
->
Set
(
"__param_scope__"
,
param_scope
);
graph
->
Set
(
kFusedMultiTransformerDecoderFusionCount
,
new
int
(
num_layers
));
auto
pass
=
PassRegistry
::
Instance
().
Get
(
"fuse_multi_transformer_layer_pass"
);
if
(
pass
.
get
()
==
nullptr
)
LOG
(
INFO
)
<<
"get fuse_multi_transformer_layer_pass failed"
;
graph
.
reset
(
pass
->
Apply
(
graph
.
release
()));
int
num_nodes_after
=
GetNumOpNodes
(
graph
,
"fused_multi_transformer"
);
PADDLE_ENFORCE_EQ
(
num_nodes_after
,
1
,
platform
::
errors
::
InvalidArgument
(
"After the fuse_multi_transformer_layer_pass, "
"The node num in graph should be 1, but the result is %d"
,
num_nodes_after
));
}
}
// namespace ir
}
// namespace framework
}
// namespace paddle
USE_PASS
(
fuse_multi_transformer_layer_pass
);
paddle/fluid/framework/ir/fused_multi_transformer_decoder_pass.cc
浏览文件 @
1e3245a8
...
@@ -1565,6 +1565,7 @@ void FusedMultiTransformerDecoderPass::ApplyImpl(Graph* graph) const {
...
@@ -1565,6 +1565,7 @@ void FusedMultiTransformerDecoderPass::ApplyImpl(Graph* graph) const {
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
if
(
fusion_count
>
0
)
{
if
(
fusion_count
>
0
)
{
graph
->
Set
(
kFusedMultiTransformerDecoderPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerDecoderPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerDecoderFusionCount
,
new
int
(
fusion_count
));
}
}
AddStatis
(
fusion_count
);
AddStatis
(
fusion_count
);
}
}
...
@@ -2178,6 +2179,7 @@ void FusedMultiTransformerDecoderFuseQKVPass::ApplyImpl(Graph* graph) const {
...
@@ -2178,6 +2179,7 @@ void FusedMultiTransformerDecoderFuseQKVPass::ApplyImpl(Graph* graph) const {
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
if
(
fusion_count
>
0
)
{
if
(
fusion_count
>
0
)
{
graph
->
Set
(
kFusedMultiTransformerDecoderFuseQKVPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerDecoderFuseQKVPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerDecoderFusionCount
,
new
int
(
fusion_count
));
}
}
AddStatis
(
fusion_count
);
AddStatis
(
fusion_count
);
}
}
...
@@ -2833,6 +2835,7 @@ void MultiDevicesFusedMultiTransformerDecoderFuseQKVPass::ApplyImpl(
...
@@ -2833,6 +2835,7 @@ void MultiDevicesFusedMultiTransformerDecoderFuseQKVPass::ApplyImpl(
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
if
(
fusion_count
>
0
)
{
if
(
fusion_count
>
0
)
{
graph
->
Set
(
kFusedMultiTransformerDecoderFuseQKVPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerDecoderFuseQKVPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerDecoderFusionCount
,
new
int
(
fusion_count
));
}
}
AddStatis
(
fusion_count
);
AddStatis
(
fusion_count
);
}
}
...
...
paddle/fluid/framework/ir/fused_multi_transformer_encoder_pass.cc
浏览文件 @
1e3245a8
...
@@ -1728,6 +1728,7 @@ void FusedMultiTransformerEncoderPass::ApplyImpl(Graph* graph) const {
...
@@ -1728,6 +1728,7 @@ void FusedMultiTransformerEncoderPass::ApplyImpl(Graph* graph) const {
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
if
(
fusion_count
>
0
)
{
if
(
fusion_count
>
0
)
{
graph
->
Set
(
kFusedMultiTransformerEncoderPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerEncoderPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerEncoderFusionCount
,
new
int
(
fusion_count
));
}
}
AddStatis
(
fusion_count
);
AddStatis
(
fusion_count
);
}
}
...
@@ -2380,6 +2381,7 @@ void FusedMultiTransformerEncoderFuseQKVPass::ApplyImpl(Graph* graph) const {
...
@@ -2380,6 +2381,7 @@ void FusedMultiTransformerEncoderFuseQKVPass::ApplyImpl(Graph* graph) const {
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
int
fusion_count
=
BuildFusion
(
graph
,
name_scope_
,
scope
);
if
(
fusion_count
>
0
)
{
if
(
fusion_count
>
0
)
{
graph
->
Set
(
kFusedMultiTransformerEncoderFuseQKVPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerEncoderFuseQKVPass
,
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerEncoderFusionCount
,
new
int
(
fusion_count
));
}
}
AddStatis
(
fusion_count
);
AddStatis
(
fusion_count
);
}
}
...
@@ -3076,6 +3078,7 @@ void MultiDevicesFusedMultiTransformerEncoderFuseQKVPass::ApplyImpl(
...
@@ -3076,6 +3078,7 @@ void MultiDevicesFusedMultiTransformerEncoderFuseQKVPass::ApplyImpl(
if
(
fusion_count
>
0
)
{
if
(
fusion_count
>
0
)
{
graph
->
Set
(
kMultiDevicesFusedMultiTransformerEncoderFuseQKVPass
,
graph
->
Set
(
kMultiDevicesFusedMultiTransformerEncoderFuseQKVPass
,
new
bool
(
true
));
new
bool
(
true
));
graph
->
Set
(
kFusedMultiTransformerEncoderFusionCount
,
new
int
(
fusion_count
));
}
}
AddStatis
(
fusion_count
);
AddStatis
(
fusion_count
);
}
}
...
...
paddle/fluid/framework/ir/pass.cc
浏览文件 @
1e3245a8
...
@@ -46,7 +46,7 @@ static const std::vector<std::string> support_subgraph_passes = {
...
@@ -46,7 +46,7 @@ static const std::vector<std::string> support_subgraph_passes = {
"fused_multi_transformer_decoder_fuse_qkv_pass"
,
"fused_multi_transformer_decoder_fuse_qkv_pass"
,
"multi_devices_fused_multi_transformer_encoder_fuse_qkv_pass"
,
"multi_devices_fused_multi_transformer_encoder_fuse_qkv_pass"
,
"multi_devices_fused_multi_transformer_decoder_fuse_qkv_pass"
,
"multi_devices_fused_multi_transformer_decoder_fuse_qkv_pass"
,
};
"fuse_multi_transformer_layer_pass"
};
Graph
*
Pass
::
Apply
(
Graph
*
graph
)
const
{
Graph
*
Pass
::
Apply
(
Graph
*
graph
)
const
{
VLOG
(
10
)
<<
"start to apply pass "
<<
Type
()
<<
" to graph"
;
VLOG
(
10
)
<<
"start to apply pass "
<<
Type
()
<<
" to graph"
;
...
...
paddle/fluid/framework/ir/pass.h
浏览文件 @
1e3245a8
...
@@ -59,6 +59,10 @@ constexpr char kMultiDevicesFusedMultiTransformerEncoderFuseQKVPass[] =
...
@@ -59,6 +59,10 @@ constexpr char kMultiDevicesFusedMultiTransformerEncoderFuseQKVPass[] =
"multi_devices_fused_multi_transformer_encoder_fuse_qkv_pass_flag"
;
"multi_devices_fused_multi_transformer_encoder_fuse_qkv_pass_flag"
;
constexpr
char
kMultiDevicesFusedMultiTransformerDecoderFuseQKVPass
[]
=
constexpr
char
kMultiDevicesFusedMultiTransformerDecoderFuseQKVPass
[]
=
"multi_devices_fused_multi_transformer_decoder_fuse_qkv_pass_flag"
;
"multi_devices_fused_multi_transformer_decoder_fuse_qkv_pass_flag"
;
constexpr
char
kFusedMultiTransformerEncoderFusionCount
[]
=
"fused_multi_transformer_encoder_fusion_count"
;
constexpr
char
kFusedMultiTransformerDecoderFusionCount
[]
=
"fused_multi_transformer_decoder_fusion_count"
;
constexpr
char
kPrelnEmbEltwiseLayernormPass
[]
=
constexpr
char
kPrelnEmbEltwiseLayernormPass
[]
=
"preln_embedding_eltwise_layernorm_fuse_pass_flag"
;
"preln_embedding_eltwise_layernorm_fuse_pass_flag"
;
...
...
paddle/fluid/framework/ir/pass_tester_helper.h
浏览文件 @
1e3245a8
...
@@ -528,6 +528,119 @@ struct Layers {
...
@@ -528,6 +528,119 @@ struct Layers {
return
out
;
return
out
;
}
}
VarDesc
*
shape
(
VarDesc
*
input
)
{
VarDesc
*
out
=
lod_tensor
(
unique_name
());
OpDesc
*
op
=
program_
.
MutableBlock
(
0
)
->
AppendOp
();
op
->
SetType
(
"shape"
);
op
->
SetInput
(
"Input"
,
{
input
->
Name
()});
op
->
SetOutput
(
"Out"
,
{
out
->
Name
()});
return
out
;
}
VarDesc
*
slice
(
VarDesc
*
input
,
std
::
vector
<
int
>
axes
,
std
::
vector
<
int
>
starts
,
std
::
vector
<
int
>
ends
)
{
VarDesc
*
out
=
lod_tensor
(
unique_name
());
OpDesc
*
op
=
program_
.
MutableBlock
(
0
)
->
AppendOp
();
op
->
SetType
(
"slice"
);
op
->
SetInput
(
"Input"
,
{
input
->
Name
()});
op
->
SetOutput
(
"Out"
,
{
out
->
Name
()});
op
->
SetAttr
(
"axes"
,
axes
);
op
->
SetAttr
(
"starts"
,
starts
);
op
->
SetAttr
(
"ends"
,
ends
);
return
out
;
}
VarDesc
*
fill_constant_batch_size_like
(
VarDesc
*
x
,
int
dtype
,
int
input_dim_idx
,
int
output_dim_idx
,
std
::
vector
<
int
>
shape
,
float
value
)
{
VarDesc
*
out
=
lod_tensor
(
unique_name
());
OpDesc
*
op
=
program_
.
MutableBlock
(
0
)
->
AppendOp
();
op
->
SetType
(
"fill_constant_batch_size_like"
);
op
->
SetInput
(
"Input"
,
{
x
->
Name
()});
op
->
SetAttr
(
"dtype"
,
dtype
);
op
->
SetAttr
(
"input_dim_idx"
,
input_dim_idx
);
op
->
SetAttr
(
"output_dim_idx"
,
output_dim_idx
);
op
->
SetAttr
(
"shape"
,
shape
);
op
->
SetAttr
(
"value"
,
value
);
op
->
SetOutput
(
"Out"
,
{
out
->
Name
()});
return
out
;
}
VarDesc
*
fused_multi_transformer
(
VarDesc
*
x
,
VarDesc
*
cache_kv
,
VarDesc
*
src_mask
,
VarDesc
*
qkv_w
,
VarDesc
*
qkv_bias
,
VarDesc
*
out_linear_w
,
VarDesc
*
out_linear_bias
,
VarDesc
*
ffn1_w
,
VarDesc
*
ffn1_bias
,
VarDesc
*
ffn2_w
,
VarDesc
*
ffn2_bias
,
VarDesc
*
ln_scale
,
VarDesc
*
ln_bias
,
VarDesc
*
ffn_ln_scale
,
VarDesc
*
ffn_ln_bias
,
float
epsilon
,
float
dropout_rate
,
VarDesc
*
time_stamp
=
nullptr
,
VarDesc
*
qkv_out_scale
=
nullptr
,
VarDesc
*
out_linear_out_scale
=
nullptr
,
VarDesc
*
ffn1_out_scale
=
nullptr
,
VarDesc
*
ffn2_out_scale
=
nullptr
,
std
::
vector
<
float
>
qkv_in_scale
=
{},
std
::
vector
<
float
>
out_linear_in_scale
=
{},
std
::
vector
<
float
>
ffn1_in_scale
=
{},
std
::
vector
<
float
>
ffn2_in_scale
=
{})
{
VarDesc
*
out
=
lod_tensor
(
unique_name
());
OpDesc
*
op
=
program_
.
MutableBlock
(
0
)
->
AppendOp
();
std
::
string
op_type
=
qkv_out_scale
?
"fused_multi_transformer_int8"
:
"fused_multi_transformer"
;
op
->
SetType
(
op_type
);
op
->
SetInput
(
"X"
,
{
x
->
Name
()});
op
->
SetInput
(
"CacheKV"
,
{
cache_kv
->
Name
()});
op
->
SetInput
(
"SrcMask"
,
{
src_mask
->
Name
()});
op
->
SetInput
(
"QKVW"
,
{
qkv_w
->
Name
()});
op
->
SetInput
(
"QKVBias"
,
{
qkv_bias
->
Name
()});
op
->
SetInput
(
"OutLinearW"
,
{
out_linear_w
->
Name
()});
op
->
SetInput
(
"OutLinearBias"
,
{
out_linear_bias
->
Name
()});
op
->
SetInput
(
"FFN1Weight"
,
{
ffn1_w
->
Name
()});
op
->
SetInput
(
"FFN1Bias"
,
{
ffn1_bias
->
Name
()});
op
->
SetInput
(
"FFN2Weight"
,
{
ffn2_w
->
Name
()});
op
->
SetInput
(
"FFN2Bias"
,
{
ffn2_bias
->
Name
()});
op
->
SetInput
(
"LnScale"
,
{
ln_scale
->
Name
()});
op
->
SetInput
(
"LnBias"
,
{
ln_bias
->
Name
()});
op
->
SetInput
(
"FFNLnScale"
,
{
ffn_ln_scale
->
Name
()});
op
->
SetInput
(
"FFNLnBias"
,
{
ffn_ln_bias
->
Name
()});
op
->
SetAttr
(
"pre_layer_norm"
,
true
);
op
->
SetAttr
(
"is_test"
,
true
);
op
->
SetAttr
(
"dropout_implementation"
,
"upscale_in_train"
);
op
->
SetAttr
(
"dropout_rate"
,
dropout_rate
);
op
->
SetAttr
(
"epsilon"
,
epsilon
);
op
->
SetOutput
(
"Out"
,
{
out
->
Name
()});
if
(
time_stamp
)
{
op
->
SetInput
(
"TimeStep"
,
{
time_stamp
->
Name
()});
}
if
(
qkv_out_scale
)
{
op
->
SetInput
(
"QKVOutScale"
,
{
qkv_out_scale
->
Name
()});
op
->
SetInput
(
"OutLinearOutScale"
,
{
out_linear_out_scale
->
Name
()});
op
->
SetInput
(
"FFN1OutScale"
,
{
ffn1_out_scale
->
Name
()});
op
->
SetInput
(
"FFN2OutScale"
,
{
ffn2_out_scale
->
Name
()});
op
->
SetAttr
(
"qkv_in_scale"
,
qkv_in_scale
);
op
->
SetAttr
(
"out_linear_in_scale"
,
out_linear_in_scale
);
op
->
SetAttr
(
"ffn1_in_scale"
,
ffn1_in_scale
);
op
->
SetAttr
(
"ffn2_in_scale"
,
ffn2_in_scale
);
}
return
out
;
}
void
backward
(
std
::
vector
<
VarDesc
*>
targets
)
{
void
backward
(
std
::
vector
<
VarDesc
*>
targets
)
{
// This function is designed to simulate the structure of training program,
// This function is designed to simulate the structure of training program,
// but is constructed differently as the actual program.
// but is constructed differently as the actual program.
...
...
paddle/fluid/inference/api/paddle_pass_builder.cc
浏览文件 @
1e3245a8
...
@@ -212,6 +212,7 @@ GpuPassStrategy::GpuPassStrategy() : PassStrategy({}) {
...
@@ -212,6 +212,7 @@ GpuPassStrategy::GpuPassStrategy() : PassStrategy({}) {
"fused_multi_transformer_decoder_fuse_qkv_pass"
,
//
"fused_multi_transformer_decoder_fuse_qkv_pass"
,
//
"multi_devices_fused_multi_transformer_encoder_fuse_qkv_pass"
,
//
"multi_devices_fused_multi_transformer_encoder_fuse_qkv_pass"
,
//
"multi_devices_fused_multi_transformer_decoder_fuse_qkv_pass"
,
//
"multi_devices_fused_multi_transformer_decoder_fuse_qkv_pass"
,
//
"fuse_multi_transformer_layer_pass"
,
//
"gpu_cpu_squeeze2_matmul_fuse_pass"
,
//
"gpu_cpu_squeeze2_matmul_fuse_pass"
,
//
"gpu_cpu_reshape2_matmul_fuse_pass"
,
//
"gpu_cpu_reshape2_matmul_fuse_pass"
,
//
"gpu_cpu_flatten2_matmul_fuse_pass"
,
//
"gpu_cpu_flatten2_matmul_fuse_pass"
,
//
...
...
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