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5c91010d
编写于
4月 19, 2022
作者:
Z
zhaoyingli
提交者:
GitHub
4月 19, 2022
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差异文件
[AutoParallel] dist p-norm op (#41805)
* add dist_pnorm op * update cmakelist * fix cmakelist * fix cmakelist
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4
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4 changed file
with
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+492
-0
python/paddle/distributed/auto_parallel/operators/__init__.py
...on/paddle/distributed/auto_parallel/operators/__init__.py
+1
-0
python/paddle/distributed/auto_parallel/operators/dist_pnorm.py
.../paddle/distributed/auto_parallel/operators/dist_pnorm.py
+363
-0
python/paddle/fluid/tests/unittests/auto_parallel/CMakeLists.txt
...paddle/fluid/tests/unittests/auto_parallel/CMakeLists.txt
+1
-0
python/paddle/fluid/tests/unittests/auto_parallel/test_dist_pnorm.py
...le/fluid/tests/unittests/auto_parallel/test_dist_pnorm.py
+127
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未找到文件。
python/paddle/distributed/auto_parallel/operators/__init__.py
浏览文件 @
5c91010d
...
...
@@ -28,6 +28,7 @@ from . import dist_check_finite_and_unscale
from
.
import
dist_update_loss_scaling
from
.
import
dist_split
from
.
import
dist_fill_constant_batch_size_like
from
.
import
dist_pnorm
from
.
import
dist_slice
from
.
import
dist_fused_feedforward
from
.
import
dist_fused_attention
python/paddle/distributed/auto_parallel/operators/dist_pnorm.py
0 → 100644
浏览文件 @
5c91010d
# 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.
import
copy
import
paddle
import
paddle.fluid.layers.utils
as
utils
from
.common
import
DistributedOperatorImplContainer
from
.common
import
DistributedOperatorImpl
from
.common
import
register_distributed_operator_impl_container
from
.common
import
register_distributed_operator_impl
from
.common
import
set_comm_op_dist_attr_for_program
from
.dist_default
import
DistributedDefaultImpl0
from
..reshard
import
Resharder
from
..process_group
import
new_process_group
from
..utils
import
is_dim_shard
,
is_dim_replicate
,
_get_corresponding_rank
from
..utils
import
compute_compatible_dim_mapping
,
set_dist_op_desc_original_id
,
_get_comm_group
from
..dist_attribute
import
TensorDistributedAttribute
,
OperatorDistributedAttribute
from
paddle.fluid
import
core
,
unique_name
from
paddle.fluid.framework
import
Operator
from
paddle.fluid.layer_helper
import
LayerHelper
from
paddle.fluid.data_feeder
import
check_variable_and_dtype
,
check_dtype
class
DistributedPNorm
(
DistributedOperatorImplContainer
):
def
__init__
(
self
,
op_type
):
super
(
DistributedPNorm
,
self
).
__init__
(
op_type
)
register_distributed_operator_impl_container
(
DistributedPNorm
(
"p_norm"
))
def
_insert_fill_constant_op
(
block
,
op_role
):
"""Insert fill constant op into block at the given index."""
helper
=
LayerHelper
(
"fill_constant"
,
**
locals
())
with
paddle
.
static
.
program_guard
(
block
.
program
):
out
=
helper
.
create_variable_for_type_inference
(
dtype
=
"int32"
)
inputs
=
{}
attrs
=
{
'force_cpu'
:
False
}
attrs
[
'str_value'
]
=
str
(
int
(
"1"
))
attrs
[
'value'
]
=
int
(
"1"
)
attrs
[
'dtype'
]
=
out
.
dtype
attrs
[
'op_role'
]
=
op_role
utils
.
get_shape_tensor_inputs
(
inputs
=
inputs
,
attrs
=
attrs
,
shape
=
[
0
],
op_type
=
'fill_constant'
)
fill_constant_op
=
block
.
append_op
(
type
=
'fill_constant'
,
inputs
=
inputs
,
outputs
=
{
'Out'
:
[
out
]},
attrs
=
attrs
)
out
.
stop_gradient
=
True
return
out
,
fill_constant_op
# Row Parallel
class
DistributedPNormImpl
(
DistributedOperatorImpl
):
def
__init__
(
self
,
name
):
super
(
DistributedPNormImpl
,
self
).
__init__
(
name
)
self
.
_forward_implemented
=
True
self
.
_backward_implemented
=
True
def
is_input_compatible
(
self
,
dist_op
):
op_desc
=
dist_op
.
serial_op
.
desc
op_dist_attr
=
dist_op
.
dist_attr
x_name
=
op_desc
.
input
(
'X'
)[
0
]
x_dims_mapping
=
op_dist_attr
.
get_input_dims_mapping
(
x_name
)
if
is_dim_replicate
(
x_dims_mapping
[
0
]):
return
False
# Other dimensions must be replicate except the batch dimension
for
mapping
in
x_dims_mapping
[
1
:]:
if
is_dim_shard
(
mapping
):
return
False
return
True
def
is_output_compatible
(
self
,
dist_op
):
return
True
def
is_compatible
(
self
,
dist_op
):
if
(
not
self
.
is_input_compatible
(
dist_op
))
or
\
(
not
self
.
is_output_compatible
(
dist_op
)):
return
False
return
True
def
is_auto_compatible
(
self
,
dist_op
):
if
(
not
self
.
is_input_compatible
(
dist_op
))
or
\
(
not
self
.
is_output_compatible
(
dist_op
))
or
\
(
not
self
.
is_compatible
(
dist_op
)):
return
False
return
True
def
update_dims_mapping
(
self
,
dist_op
):
changed
=
False
op_desc
=
dist_op
.
serial_op
.
desc
op_dist_attr
=
dist_op
.
dist_attr
batch_dim_mappings
=
[]
for
arg_name
in
op_desc
.
input_arg_names
():
dims_mapping
=
op_dist_attr
.
get_input_dims_mapping
(
arg_name
)
if
len
(
dims_mapping
)
>=
1
:
batch_dim_mappings
.
append
(
dims_mapping
[
0
])
for
arg_name
in
op_desc
.
output_arg_names
():
dims_mapping
=
op_dist_attr
.
get_output_dims_mapping
(
arg_name
)
if
len
(
dims_mapping
)
>=
1
:
batch_dim_mappings
.
append
(
dims_mapping
[
0
])
compatible_dim_mapping
=
compute_compatible_dim_mapping
(
batch_dim_mappings
)
assert
compatible_dim_mapping
is
not
None
,
"There is no compatible dim mapping."
for
arg_name
in
op_desc
.
input_arg_names
():
dims_mapping
=
op_dist_attr
.
get_input_dims_mapping
(
arg_name
)
if
len
(
dims_mapping
)
>=
1
and
compatible_dim_mapping
!=
dims_mapping
[
0
]:
dims_mapping
[
0
]
=
compatible_dim_mapping
changed
=
True
for
arg_name
in
op_desc
.
output_arg_names
():
dims_mapping
=
op_dist_attr
.
get_output_dims_mapping
(
arg_name
)
if
len
(
dims_mapping
)
>=
1
and
compatible_dim_mapping
!=
dims_mapping
[
0
]:
dims_mapping
[
0
]
=
compatible_dim_mapping
changed
=
True
return
changed
@
staticmethod
def
forward
(
ctx
,
*
args
,
**
kwargs
):
dist_op_context
=
ctx
.
dist_op_context
main_block
=
dist_op_context
.
work_block
src_op
=
dist_op_context
.
cur_src_op
rank_id
=
dist_op_context
.
rank_id
op_dist_attr
=
ctx
.
get_op_dist_attr_for_program
(
src_op
)
assert
op_dist_attr
is
not
None
# check validation of inputs / outputs
for
input_name
in
src_op
.
desc
.
input_names
():
assert
input_name
in
kwargs
,
"input [{}] is not given"
.
format
(
input_name
)
assert
len
(
kwargs
[
input_name
])
==
len
(
src_op
.
desc
.
input
(
input_name
)
),
"number of tensor for input [{}] is not match"
.
format
(
input_name
)
for
output_name
in
src_op
.
desc
.
output_names
():
assert
output_name
in
kwargs
,
"input [{}] is not given"
.
format
(
output_name
)
assert
len
(
kwargs
[
output_name
])
==
len
(
src_op
.
desc
.
output
(
output_name
)
),
"number of tensor for input [{}] is not match"
.
format
(
output_name
)
if
rank_id
not
in
op_dist_attr
.
process_mesh
.
processes
:
rank_id
=
_get_corresponding_rank
(
ctx
,
op_dist_attr
.
process_mesh
,
rank_id
)
X_var
=
main_block
.
var
(
kwargs
[
'X'
][
0
])
in_dims_mapping
=
op_dist_attr
.
get_input_dims_mapping
(
X_var
.
name
)
for
axis
in
range
(
len
(
in_dims_mapping
)):
if
in_dims_mapping
[
axis
]
!=
-
1
:
break
process_mesh_shape
=
op_dist_attr
.
process_mesh
.
topology
process_mesh_group
=
op_dist_attr
.
process_mesh
.
processes
group_ranks
=
_get_comm_group
(
process_mesh_group
,
process_mesh_shape
,
axis
,
rank_id
)
group
=
new_process_group
(
group_ranks
)
check_variable_and_dtype
(
X_var
,
'x'
,
[
'float16'
,
'float32'
,
'float64'
],
'norm'
)
check_dtype
(
X_var
.
dtype
,
'dtype'
,
[
'float16'
,
'float32'
,
'float64'
],
'norm'
)
# 1. insert barrier op
ref_process_mesh
=
op_dist_attr
.
process_mesh
constant_out_dims_mapping
=
[
-
1
]
fill_constant_out
,
fill_constant_op
=
_insert_fill_constant_op
(
main_block
,
src_op
.
attr
(
'op_role'
))
# set fill_constant_out tensor dist_attr
constant_out_dist_attr
=
TensorDistributedAttribute
()
constant_out_dist_attr
.
process_mesh
=
ref_process_mesh
constant_out_dist_attr
.
dims_mapping
=
constant_out_dims_mapping
ctx
.
set_tensor_dist_attr_for_program
(
fill_constant_out
,
constant_out_dist_attr
)
# set fill_constant op dist_attr
constant_op_dist_attr
=
OperatorDistributedAttribute
()
constant_op_dist_attr
.
process_mesh
=
ref_process_mesh
constant_op_dist_attr
.
set_output_dims_mapping
(
fill_constant_out
.
name
,
constant_out_dims_mapping
)
ctx
.
set_op_dist_attr_for_program
(
fill_constant_op
,
constant_op_dist_attr
)
barrier_op
=
main_block
.
append_op
(
type
=
'barrier'
,
inputs
=
{
'X'
:
[
fill_constant_out
]},
outputs
=
{
'Out'
:
[
fill_constant_out
]},
attrs
=
{
'ring_id'
:
group
.
id
})
# set barrier op dist attr
set_comm_op_dist_attr_for_program
(
barrier_op
,
ref_process_mesh
,
constant_out_dist_attr
,
ctx
)
# 2. insert c_allgather op
# create c_allgather output var
allgather_out
=
main_block
.
create_var
(
name
=
"."
.
join
([
"c_allgather"
,
X_var
.
name
]),
dtype
=
X_var
.
dtype
,
shape
=
X_var
.
shape
,
type
=
core
.
VarDesc
.
VarType
.
LOD_TENSOR
,
persistable
=
False
,
stop_gradient
=
X_var
.
stop_gradient
)
# set allgather_out tensor dist_attr
allgather_out_dist_attr
=
TensorDistributedAttribute
()
allgather_out_dist_attr
.
process_mesh
=
op_dist_attr
.
process_mesh
allgather_out_dist_attr
.
dims_mapping
=
[
-
1
for
i
in
range
(
len
(
allgather_out
.
shape
))
]
ctx
.
set_tensor_dist_attr_for_program
(
allgather_out
,
allgather_out_dist_attr
)
c_allgather_op
=
main_block
.
append_op
(
type
=
'c_allgather'
,
inputs
=
{
'X'
:
[
X_var
]},
outputs
=
{
'Out'
:
[
allgather_out
]},
attrs
=
{
'ring_id'
:
group
.
id
,
'use_calc_stream'
:
True
,
'nranks'
:
group
.
nranks
,
'op_role'
:
src_op
.
attr
(
'op_role'
)
})
# set c_allgather op dist_attr
allgather_op_dist_attr
=
OperatorDistributedAttribute
()
allgather_op_dist_attr
.
process_mesh
=
op_dist_attr
.
process_mesh
allgather_op_dist_attr
.
set_input_dims_mapping
(
X_var
.
name
,
in_dims_mapping
)
allgather_op_dist_attr
.
set_output_dims_mapping
(
allgather_out
.
name
,
allgather_out_dist_attr
.
dims_mapping
)
ctx
.
set_op_dist_attr_for_program
(
c_allgather_op
,
allgather_op_dist_attr
)
# 3. copy p_norm op desc and reset input name
# rename input
kwargs
[
'X'
]
=
[
allgather_out
.
name
]
# replicate op in dist program
dist_op_desc
=
main_block
.
desc
.
append_op
()
dist_op_desc
.
copy_from
(
src_op
.
desc
)
set_dist_op_desc_original_id
(
dist_op_desc
,
src_op
.
desc
,
ctx
)
for
input_name
in
src_op
.
desc
.
input_names
():
dist_op_desc
.
set_input
(
input_name
,
kwargs
[
input_name
])
for
output_name
in
src_op
.
desc
.
output_names
():
dist_op_desc
.
set_output
(
output_name
,
kwargs
[
output_name
])
pnorm_op
=
Operator
(
main_block
,
dist_op_desc
)
op_dist_attr
.
set_input_dims_mapping
(
allgather_out
.
name
,
allgather_out_dist_attr
.
dims_mapping
)
ctx
.
set_op_dist_attr_for_program
(
pnorm_op
,
op_dist_attr
)
main_block
.
_sync_with_cpp
()
@
staticmethod
def
backward
(
ctx
,
*
args
,
**
kwargs
):
dist_op_context
=
ctx
.
dist_op_context
main_block
=
dist_op_context
.
work_block
backward_op
=
dist_op_context
.
cur_src_op
rank_id
=
dist_op_context
.
rank_id
op_dist_attr
=
ctx
.
get_op_dist_attr_for_program
(
backward_op
)
assert
op_dist_attr
is
not
None
# check validation of inputs / outputs
for
input_name
in
backward_op
.
desc
.
input_names
():
assert
input_name
in
kwargs
,
"input [{}] is not given"
.
format
(
input_name
)
assert
len
(
kwargs
[
input_name
])
==
len
(
backward_op
.
desc
.
input
(
input_name
)
),
"number of tensor for input [{}] is not match"
.
format
(
input_name
)
for
output_name
in
backward_op
.
desc
.
output_names
():
assert
output_name
in
kwargs
,
"input [{}] is not given"
.
format
(
output_name
)
assert
len
(
kwargs
[
output_name
])
==
len
(
backward_op
.
desc
.
output
(
output_name
)
),
"number of tensor for input [{}] is not match"
.
format
(
output_name
)
X_var
=
main_block
.
var
(
kwargs
[
'X'
][
0
])
X_grad_var
=
main_block
.
var
(
kwargs
[
'X@GRAD'
][
0
])
# 1. copy p_norm_grad op and reset input name and output name
new_kwargs
=
copy
.
deepcopy
(
kwargs
)
new_kwargs
[
'X'
]
=
[
"."
.
join
([
"c_allgather"
,
X_var
.
name
])]
new_X_var
=
main_block
.
var
(
new_kwargs
[
'X'
][
0
])
new_X_grad
=
main_block
.
create_var
(
name
=
"."
.
join
([
"c_allgather"
,
X_grad_var
.
name
]),
dtype
=
X_grad_var
.
dtype
,
shape
=
new_X_var
.
shape
,
type
=
core
.
VarDesc
.
VarType
.
LOD_TENSOR
,
persistable
=
False
,
stop_gradient
=
X_grad_var
.
stop_gradient
)
new_kwargs
[
'X@GRAD'
]
=
[
new_X_grad
.
name
]
new_X_var_dist_attr
=
ctx
.
get_tensor_dist_attr_for_program
(
new_X_var
)
ctx
.
set_tensor_dist_attr_for_program
(
new_X_grad
,
new_X_var_dist_attr
)
# replicate op in dist program with new kwargs
dist_op_desc
=
main_block
.
desc
.
append_op
()
dist_op_desc
.
copy_from
(
backward_op
.
desc
)
# Refer to the related dist op
set_dist_op_desc_original_id
(
dist_op_desc
,
backward_op
.
desc
,
ctx
)
for
input_name
in
backward_op
.
desc
.
input_names
():
dist_op_desc
.
set_input
(
input_name
,
new_kwargs
[
input_name
])
for
output_name
in
backward_op
.
desc
.
output_names
():
dist_op_desc
.
set_output
(
output_name
,
new_kwargs
[
output_name
])
p_norm_grad_op
=
Operator
(
main_block
,
dist_op_desc
)
op_dist_attr
.
set_input_dims_mapping
(
new_X_var
.
name
,
new_X_var_dist_attr
.
dims_mapping
)
op_dist_attr
.
set_output_dims_mapping
(
new_X_grad
.
name
,
new_X_var_dist_attr
.
dims_mapping
)
ctx
.
set_op_dist_attr_for_program
(
p_norm_grad_op
,
op_dist_attr
)
main_block
.
_sync_with_cpp
()
# 2. insert slice op
process_mesh_shape
=
op_dist_attr
.
process_mesh
.
topology
process_mesh_group
=
op_dist_attr
.
process_mesh
.
processes
dims_mapping
=
[
0
]
+
[
-
1
for
_
in
range
(
len
(
new_X_grad
.
shape
)
-
1
)]
partition_idx
=
Resharder
.
compute_partition_index
(
rank_id
,
new_X_grad
.
shape
,
dims_mapping
,
process_mesh_shape
,
process_mesh_group
)
slice_starts
=
[]
slice_ends
=
[]
slices_axes
=
[]
for
idx
,
item
in
enumerate
(
partition_idx
):
slice_starts
.
append
(
item
[
0
])
slice_ends
.
append
(
item
[
1
])
slices_axes
.
append
(
idx
)
infer_flags
=
list
(
1
for
i
in
range
(
len
(
slices_axes
)))
attrs
=
{
"axes"
:
slices_axes
,
"starts"
:
slice_starts
,
"ends"
:
slice_ends
,
"infer_flags"
:
infer_flags
,
"op_role"
:
backward_op
.
attr
(
'op_role'
)
}
slice_op
=
main_block
.
append_op
(
type
=
'slice'
,
inputs
=
{
'Input'
:
[
new_X_grad
]},
outputs
=
{
'Out'
:
[
X_grad_var
]},
attrs
=
attrs
)
X_grad_var_dims_mapping
=
op_dist_attr
.
get_output_dims_mapping
(
X_grad_var
.
name
)
slice_op_dist_attr
=
OperatorDistributedAttribute
()
slice_op_dist_attr
.
process_mesh
=
op_dist_attr
.
process_mesh
slice_op_dist_attr
.
set_input_dims_mapping
(
new_X_grad
.
name
,
new_X_var_dist_attr
.
dims_mapping
)
slice_op_dist_attr
.
set_output_dims_mapping
(
X_grad_var
.
name
,
X_grad_var_dims_mapping
)
ctx
.
set_op_dist_attr_for_program
(
slice_op
,
slice_op_dist_attr
)
main_block
.
_sync_with_cpp
()
register_distributed_operator_impl
(
"p_norm"
,
DistributedPNormImpl
(
"row_parallel"
))
python/paddle/fluid/tests/unittests/auto_parallel/CMakeLists.txt
浏览文件 @
5c91010d
...
...
@@ -18,6 +18,7 @@ if(WITH_DISTRIBUTE AND WITH_GPU)
py_test_modules
(
test_recorder MODULES test_recorder ENVS
${
dist_ENVS
}
)
py_test_modules
(
test_trial MODULES test_trial ENVS
${
dist_ENVS
}
)
py_test_modules
(
test_new_cost_model MODULES test_new_cost_model ENVS
${
dist_ENVS
}
)
py_test_modules
(
test_dist_pnorm MODULES test_dist_pnorm ENVS
${
dist_ENVS
}
)
py_test_modules
(
test_dist_slice MODULES test_dist_slice ENVS
${
dist_ENVS
}
)
py_test_modules
(
test_cluster MODULES test_cluster ENVS
${
dist_ENVS
}
)
endif
()
python/paddle/fluid/tests/unittests/auto_parallel/test_dist_pnorm.py
0 → 100644
浏览文件 @
5c91010d
# 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.
import
unittest
import
paddle
import
paddle.distributed.auto_parallel
as
auto
from
paddle.fluid
import
program_guard
from
paddle.fluid.backward
import
append_backward
from
paddle.distributed.auto_parallel.utils
import
print_program_with_dist_attr
paddle
.
enable_static
()
def
make_program_dp2
():
main_program
=
paddle
.
fluid
.
Program
()
start_program
=
paddle
.
fluid
.
Program
()
with
paddle
.
static
.
program_guard
(
main_program
,
start_program
):
x
=
paddle
.
static
.
data
(
name
=
'x'
,
shape
=
[
4
,
5
,
6
],
dtype
=
'float32'
)
x
.
stop_gradient
=
False
auto
.
shard_tensor
(
x
,
dist_attr
=
{
"process_mesh"
:
auto
.
ProcessMesh
([
0
,
1
]),
"dims_mapping"
:
[
0
,
-
1
,
-
1
]
})
tmp_0
=
paddle
.
norm
(
x
,
p
=
2
)
return
main_program
,
start_program
,
tmp_0
def
make_program_serial
():
main_program
=
paddle
.
fluid
.
Program
()
start_program
=
paddle
.
fluid
.
Program
()
with
paddle
.
static
.
program_guard
(
main_program
,
start_program
):
x
=
paddle
.
static
.
data
(
name
=
'x'
,
shape
=
[
4
,
5
,
6
],
dtype
=
'float32'
)
x
.
stop_gradient
=
False
auto
.
shard_tensor
(
x
,
dist_attr
=
{
"process_mesh"
:
auto
.
ProcessMesh
([
0
]),
"dims_mapping"
:
[
-
1
,
-
1
,
-
1
]
})
tmp_0
=
paddle
.
norm
(
x
,
p
=
2
)
return
main_program
,
start_program
,
tmp_0
def
parallelizer
(
program_func
,
rank
):
from
paddle.distributed.auto_parallel.completion
import
Completer
from
paddle.distributed.auto_parallel.partitioner
import
Partitioner
from
paddle.distributed.auto_parallel.dist_context
import
DistributedContext
main_program
,
start_program
,
loss
=
program_func
()
dist_context
=
DistributedContext
()
completer
=
Completer
(
dist_context
)
completer
.
complete_forward_annotation
(
main_program
)
dist_context
.
block_state
.
parse_forward_blocks
(
main_program
)
with
program_guard
(
main_program
,
start_program
):
params_grads
=
append_backward
(
loss
,
distop_context
=
dist_context
.
dist_op_context
)
completer
.
complete_backward_annotation
(
main_program
)
dist_context
.
block_state
.
parse_backward_blocks
(
main_program
)
partitioner
=
Partitioner
(
dist_context
,
rank
)
dist_main_prog
,
_
,
_
=
partitioner
.
partition
(
main_program
,
start_program
,
[])
return
dist_main_prog
,
dist_context
class
TestDistPNorm
(
unittest
.
TestCase
):
def
test_dist_pnorm_dp2
(
self
):
for
rank
in
range
(
2
):
dist_main_prog
,
dist_context
=
parallelizer
(
make_program_dp2
,
rank
)
ops
=
dist_main_prog
.
global_block
().
ops
op_types
=
[]
for
op
in
ops
:
op_types
.
append
(
op
.
type
)
op_dist_attr
=
dist_context
.
get_op_dist_attr_for_program
(
op
)
if
op
.
type
==
"p_norm"
:
assert
op_dist_attr
.
impl_type
==
"p_norm"
if
op
.
type
in
[
"p_norm"
,
"p_norm_grad"
]:
for
input_attr
in
op_dist_attr
.
inputs_dist_attrs
.
values
():
assert
set
(
input_attr
.
dims_mapping
)
==
set
([
-
1
])
for
output_attr
in
op_dist_attr
.
outputs_dist_attrs
.
values
():
assert
set
(
output_attr
.
dims_mapping
)
==
set
([
-
1
])
if
op
.
type
==
'c_allgather'
:
for
input_attr
in
op_dist_attr
.
inputs_dist_attrs
.
values
():
assert
input_attr
.
dims_mapping
[
0
]
==
0
assert
set
(
input_attr
.
dims_mapping
[
1
:])
==
set
([
-
1
])
for
output_attr
in
op_dist_attr
.
outputs_dist_attrs
.
values
():
assert
set
(
output_attr
.
dims_mapping
)
==
set
([
-
1
])
if
op
.
type
==
'slice'
:
for
input_attr
in
op_dist_attr
.
inputs_dist_attrs
.
values
():
assert
set
(
input_attr
.
dims_mapping
)
==
set
([
-
1
])
for
output_attr
in
op_dist_attr
.
outputs_dist_attrs
.
values
():
assert
output_attr
.
dims_mapping
[
0
]
==
0
assert
set
(
output_attr
.
dims_mapping
[
1
:])
==
set
([
-
1
])
assert
op_types
==
[
"fill_constant"
,
"barrier"
,
"c_allgather"
,
"p_norm"
,
"fill_constant"
,
"p_norm_grad"
,
"slice"
]
def
test_dist_pnorm_serial
(
self
):
dist_main_prog
,
dist_context
=
parallelizer
(
make_program_serial
,
0
)
ops
=
dist_main_prog
.
global_block
().
ops
for
op
in
ops
:
op_dist_attr
=
dist_context
.
get_op_dist_attr_for_program
(
op
)
assert
op_dist_attr
.
impl_type
==
"default"
if
__name__
==
"__main__"
:
unittest
.
main
()
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