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0abdcff6
编写于
4月 17, 2023
作者:
H
Haohongxiang
提交者:
GitHub
4月 17, 2023
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差异文件
[Dygraph] Support delaying div loss by accumulate_steps in PipelineLayer (#52848)
上级
118a7415
变更
9
显示空白变更内容
内联
并排
Showing
9 changed file
with
519 addition
and
22 deletion
+519
-22
paddle/fluid/framework/distributed_strategy.proto
paddle/fluid/framework/distributed_strategy.proto
+6
-0
python/paddle/distributed/fleet/base/distributed_strategy.py
python/paddle/distributed/fleet/base/distributed_strategy.py
+6
-0
python/paddle/distributed/fleet/meta_optimizers/dygraph_optimizer/hybrid_parallel_optimizer.py
...optimizers/dygraph_optimizer/hybrid_parallel_optimizer.py
+22
-18
python/paddle/distributed/fleet/meta_parallel/pipeline_parallel.py
...ddle/distributed/fleet/meta_parallel/pipeline_parallel.py
+60
-2
python/paddle/distributed/fleet/meta_parallel/pp_utils/utils.py
.../paddle/distributed/fleet/meta_parallel/pp_utils/utils.py
+113
-0
python/paddle/distributed/fleet/utils/__init__.py
python/paddle/distributed/fleet/utils/__init__.py
+1
-0
python/paddle/distributed/fleet/utils/hybrid_parallel_util.py
...on/paddle/distributed/fleet/utils/hybrid_parallel_util.py
+10
-2
python/paddle/distributed/fleet/utils/mix_precision_utils.py
python/paddle/distributed/fleet/utils/mix_precision_utils.py
+254
-0
python/paddle/fluid/tests/unittests/hybrid_parallel_pp_alexnet.py
...addle/fluid/tests/unittests/hybrid_parallel_pp_alexnet.py
+47
-0
未找到文件。
paddle/fluid/framework/distributed_strategy.proto
浏览文件 @
0abdcff6
...
...
@@ -57,12 +57,18 @@ message MpConfig {
optional
bool
sync_moment
=
3
[
default
=
false
];
}
message
PpConfig
{
optional
bool
dp_comm_overlap
=
1
[
default
=
false
];
optional
bool
delay_scale_loss
=
2
[
default
=
false
];
}
message
HybridConfig
{
optional
int32
dp_degree
=
1
[
default
=
-
1
];
optional
int32
mp_degree
=
2
[
default
=
1
];
optional
int32
pp_degree
=
3
[
default
=
1
];
optional
int32
sharding_degree
=
4
[
default
=
1
];
optional
MpConfig
mp_configs
=
5
;
optional
PpConfig
pp_configs
=
6
;
}
message
AMPConfig
{
...
...
python/paddle/distributed/fleet/base/distributed_strategy.py
浏览文件 @
0abdcff6
...
...
@@ -1702,6 +1702,12 @@ class DistributedStrategy:
self
.
strategy
.
hybrid_configs
.
mp_configs
,
configs
[
"mp_configs"
]
)
configs
.
pop
(
"mp_configs"
)
if
"pp_configs"
in
configs
:
assign_configs_value
(
self
.
strategy
.
hybrid_configs
.
pp_configs
,
configs
[
"pp_configs"
]
)
configs
.
pop
(
"pp_configs"
)
assign_configs_value
(
self
.
strategy
.
hybrid_configs
,
configs
)
@
property
...
...
python/paddle/distributed/fleet/meta_optimizers/dygraph_optimizer/hybrid_parallel_optimizer.py
浏览文件 @
0abdcff6
...
...
@@ -26,6 +26,7 @@ from ...utils.hybrid_parallel_util import (
sharding_reduce_gradients
,
)
from
...utils.log_util
import
logger
from
...utils.mix_precision_utils
import
MixPrecisionOptimizer
__all__
=
[]
...
...
@@ -260,38 +261,41 @@ class HybridParallelOptimizer:
"or Sharding, the grad clip of original optimizer will be changed."
)
i
f
self
.
_sharding_enable
:
# change sharding inner_optimizer's _grad_clip
self
.
_inner_opt
.
_inner_optimizer
.
_grad_clip
=
(
HybridParallelClipGrad
(
self
.
_inner_opt
.
_grad_clip
,
hcg
)
i
nner_opt
=
(
self
.
_inner_opt
.
_inner_optimizer
if
self
.
_sharding_enable
else
self
.
_inner_opt
)
elif
(
self
.
_inner_opt
.
_parameter_list
and
not
isinstance
(
self
.
_inner_opt
.
_parameter_list
[
0
],
dict
)
if
isinstance
(
inner_opt
,
MixPrecisionOptimizer
):
inner_opt
=
inner_opt
.
_inner_opt
if
(
inner_opt
.
_parameter_list
and
not
isinstance
(
inner_opt
.
_parameter_list
[
0
],
dict
)
and
len
(
[
p
for
p
in
self
.
_
inner_opt
.
_parameter_list
for
p
in
inner_opt
.
_parameter_list
if
hasattr
(
p
,
"main_grad"
)
]
)
>
0
):
self
.
_inner_opt
.
_inner_opt
.
_grad_clip
=
HybridParallelClipGrad
(
self
.
_inner_opt
.
_inner_opt
.
_grad_clip
,
hcg
inner_opt
.
_grad_clip
=
HybridParallelClipGrad
(
inner_opt
.
_grad_clip
,
hcg
)
else
:
self
.
_
inner_opt
.
_grad_clip
=
HybridParallelClipGrad
(
self
.
_
inner_opt
.
_grad_clip
,
hcg
inner_opt
.
_grad_clip
=
HybridParallelClipGrad
(
inner_opt
.
_grad_clip
,
hcg
)
if
self
.
_
inner_opt
.
_parameter_list
and
isinstance
(
self
.
_
inner_opt
.
_parameter_list
[
0
],
dict
if
inner_opt
.
_parameter_list
and
isinstance
(
inner_opt
.
_parameter_list
[
0
],
dict
):
for
item
in
self
.
_
inner_opt
.
_param_groups
:
for
item
in
inner_opt
.
_param_groups
:
if
"grad_clip"
in
item
.
keys
():
item
[
"grad_clip"
]
=
HybridParallelClipGrad
(
self
.
_
inner_opt
.
_grad_clip
,
hcg
inner_opt
.
_grad_clip
,
hcg
)
def
_filter_fn
(
self
,
param
):
...
...
python/paddle/distributed/fleet/meta_parallel/pipeline_parallel.py
浏览文件 @
0abdcff6
...
...
@@ -24,6 +24,7 @@ from ..utils.log_util import logger
from
.meta_parallel_base
import
MetaParallelBase
from
.parallel_layers.pp_layers
import
PipelineLayer
from
.pp_utils
import
p2p_communication
as
p2p
from
.pp_utils.utils
import
FusedAllReduceBuffer
,
assign_group_by_size
__all__
=
[]
...
...
@@ -59,12 +60,21 @@ class PipelineParallel(MetaParallelBase):
self
.
num_stages
=
self
.
_hcg
.
get_pipe_parallel_world_size
()
self
.
stage_id
=
self
.
_hcg
.
get_stage_id
()
self
.
pp_group
=
self
.
_hcg
.
get_pipe_parallel_group
()
self
.
dp_group
=
self
.
_hcg
.
get_data_parallel_group
()
self
.
_virtual_pp_world_size
=
None
self
.
_virtual_pp_rank
=
None
self
.
_real_pp_world_size
=
self
.
num_stages
self
.
_real_pp_rank
=
self
.
stage_id
self
.
_delay_scale_loss
=
self
.
_strategy
.
hybrid_configs
[
"pp_configs"
].
delay_scale_loss
self
.
_dp_comm_overlap
=
self
.
_strategy
.
hybrid_configs
[
"pp_configs"
].
dp_comm_overlap
self
.
_dp_comm_buffers
=
[]
p2p
.
initialize_p2p_groups
(
hcg
,
self
.
_using_cache
,
self
.
_enable_partial_send_recv
)
...
...
@@ -92,6 +102,11 @@ class PipelineParallel(MetaParallelBase):
logger
.
info
(
"start broadcast dp parameters"
)
broadcast_dp_parameters
(
self
.
_layers
,
self
.
_hcg
)
if
self
.
_dp_comm_overlap
:
self
.
register_allreduce_overlap_hook
(
self
.
_layers
,
self
.
dp_group
,
self
.
accumulate_steps
)
def
is_pipeline_first_stage
(
self
,
ignore_virtual
=
False
):
if
not
ignore_virtual
:
if
self
.
_virtual_pp_world_size
is
not
None
:
...
...
@@ -114,6 +129,27 @@ class PipelineParallel(MetaParallelBase):
def
set_virtual_pipeline_rank
(
self
,
rank
):
self
.
_virtual_pp_rank
=
rank
def
bw_hook_func
(
self
,
buffer
,
param
):
@
paddle
.
autograd
.
no_grad
()
def
fused_allreduce
(
*
_
):
buffer
.
add_grad
(
param
)
return
fused_allreduce
def
register_allreduce_overlap_hook
(
self
,
model
,
comm_group
,
acc_steps
):
parameter_list
=
[
p
for
p
in
model
.
parameters
()
if
not
p
.
stop_gradient
]
if
len
(
parameter_list
)
<
1
:
return
var_groups
=
assign_group_by_size
(
parameter_list
)
for
group_idx
,
parameters
in
var_groups
.
items
():
buffer
=
FusedAllReduceBuffer
(
group_idx
,
parameters
,
comm_group
,
acc_steps
)
self
.
_dp_comm_buffers
.
append
(
buffer
)
for
param
in
parameters
:
param
.
_register_backward_hook
(
self
.
bw_hook_func
(
buffer
,
param
))
def
forward_backward_pipeline
(
self
,
data
,
scaler
=
None
):
# use the 1f1b scheduling strategy.
# this strategy is inspired by:
...
...
@@ -192,6 +228,11 @@ class PipelineParallel(MetaParallelBase):
)
p2p
.
send_backward
(
input_tensor_grad
,
self
.
is_pipeline_first_stage
())
if
self
.
_dp_comm_overlap
:
assert
len
(
self
.
_dp_comm_buffers
)
>
0
for
buffer
in
self
.
_dp_comm_buffers
:
buffer
.
scale_and_split_grads
()
self
.
_layers
.
allreduce_shared_weight_gradients
()
with
paddle
.
amp
.
auto_cast
(
enable
=
False
):
train_loss
=
self
.
_broadcast_final_loss
()
...
...
@@ -310,7 +351,7 @@ class PipelineParallel(MetaParallelBase):
),
"Currently, loss_fn should obtain Paddle.Tensor dtype"
with
paddle
.
amp
.
auto_cast
(
enable
=
False
):
if
self
.
accumulate_steps
>
1
:
if
self
.
accumulate_steps
>
1
and
not
self
.
_delay_scale_loss
:
output_tensor
=
output_tensor
/
self
.
accumulate_steps
if
self
.
total_loss
is
None
:
...
...
@@ -413,7 +454,11 @@ class PipelineParallel(MetaParallelBase):
assert
(
self
.
total_loss
is
not
None
),
"train_batch() in last stage should obtain vaild loss"
loss
=
self
.
total_loss
.
detach
()
loss
=
(
self
.
total_loss
.
detach
()
if
not
self
.
_delay_scale_loss
else
self
.
total_loss
/
self
.
accumulate_steps
)
is_fp32
=
(
paddle
.
full
([],
1
,
'int64'
)
if
loss
.
dtype
==
paddle
.
float32
...
...
@@ -447,6 +492,14 @@ class PipelineParallel(MetaParallelBase):
return
loss
def
_optimizer_step
(
self
):
if
self
.
_delay_scale_loss
:
for
p
in
self
.
_layers
.
parameters
():
if
hasattr
(
p
,
"main_grad"
)
and
p
.
main_grad
is
not
None
:
assert
p
.
grad
is
None
p
.
main_grad
=
p
.
main_grad
.
scale
(
1.0
/
self
.
accumulate_steps
)
elif
p
.
grad
is
not
None
:
p
.
grad
=
p
.
grad
.
scale
(
1.0
/
self
.
accumulate_steps
)
if
self
.
scaler
:
self
.
scaler
.
step
(
self
.
optimizer
)
self
.
scaler
.
update
()
...
...
@@ -746,6 +799,11 @@ class PipelineParallelWithInterleave(PipelineParallel):
)
)
if
self
.
_dp_comm_overlap
:
assert
len
(
self
.
_dp_comm_buffers
)
>
0
for
buffer
in
self
.
_dp_comm_buffers
:
buffer
.
scale_and_split_grads
()
self
.
_layers
.
allreduce_shared_weight_gradients
()
if
compute_loss
:
...
...
python/paddle/distributed/fleet/meta_parallel/pp_utils/utils.py
浏览文件 @
0abdcff6
...
...
@@ -12,8 +12,14 @@
# See the License for the specific language governing permissions and
# limitations under the License.
from
collections
import
OrderedDict
import
numpy
as
np
import
paddle
from
paddle
import
_legacy_C_ops
from
paddle.distributed.parallel
import
_split_tensors
from
paddle.fluid
import
core
__all__
=
[]
...
...
@@ -105,3 +111,110 @@ def _all_gather(tensor, group=None, use_calc_stream=True):
'nranks'
,
nranks
,
)
class
FusedAllReduceBuffer
:
def
__init__
(
self
,
id
,
params
,
comm_group
,
acc_steps
=
1
):
self
.
_id
=
id
self
.
_params
=
params
self
.
_acc_steps
=
acc_steps
self
.
_comm_group
=
comm_group
self
.
_tasks
=
[]
self
.
_grads
=
[]
self
.
_params_step_dict
=
{}
self
.
_params_checked_in
=
0
self
.
_coalesced_grads_and_grad_vars
=
[]
self
.
_init_step_dict
()
def
_init_step_dict
(
self
):
for
p
in
self
.
_params
:
self
.
_params_step_dict
[
p
.
name
]
=
0
def
_reset_params_checked_in
(
self
):
self
.
_tasks
.
clear
()
self
.
_grads
.
clear
()
self
.
_init_step_dict
()
self
.
_params_checked_in
=
0
self
.
_coalesced_grads_and_grad_vars
.
clear
()
@
property
def
_all_params_checked_in
(
self
):
return
(
len
(
self
.
_params
)
==
self
.
_params_checked_in
and
len
(
self
.
_params_step_dict
)
==
0
)
def
add_grad
(
self
,
param
):
assert
param
.
name
in
self
.
_params_step_dict
if
self
.
_params_step_dict
[
param
.
name
]
==
0
:
if
getattr
(
param
,
"main_grad"
,
None
)
is
not
None
:
assert
param
.
grad
is
None
self
.
_grads
.
append
(
param
.
main_grad
)
else
:
self
.
_grads
.
append
(
param
.
grad
)
self
.
_params_step_dict
[
param
.
name
]
+=
1
if
self
.
_params_step_dict
[
param
.
name
]
==
self
.
_acc_steps
:
self
.
_params_checked_in
+=
1
self
.
_params_step_dict
.
pop
(
param
.
name
)
if
self
.
_all_params_checked_in
:
self
.
_fused_allreduce_grads
()
def
_fused_allreduce_grads
(
self
):
assert
self
.
_all_params_checked_in
flattened_vars
=
[]
g_var_shapes
=
[]
for
g_var
in
self
.
_grads
:
g_var_shapes
.
append
(
g_var
.
shape
)
flattened_vars
.
append
(
paddle
.
reshape
(
x
=
g_var
,
shape
=
[
np
.
prod
(
g_var
.
shape
)])
)
coalesced_grad
=
paddle
.
concat
(
flattened_vars
)
self
.
_coalesced_grads_and_grad_vars
.
append
(
[
coalesced_grad
,
self
.
_grads
,
g_var_shapes
]
)
for
coalesced_grad
,
_
,
_
in
self
.
_coalesced_grads_and_grad_vars
:
self
.
_tasks
.
append
(
paddle
.
distributed
.
all_reduce
(
coalesced_grad
,
group
=
self
.
_comm_group
,
sync_op
=
False
)
)
def
scale_and_split_grads
(
self
):
for
task
in
self
.
_tasks
:
task
.
wait
()
scale_factor
=
1.0
/
self
.
_comm_group
.
nranks
for
coalesced_grad
,
_
,
_
in
self
.
_coalesced_grads_and_grad_vars
:
coalesced_grad
.
scale_
(
scale_factor
)
_split_tensors
(
self
.
_coalesced_grads_and_grad_vars
)
self
.
_reset_params_checked_in
()
def
assign_group_by_size
(
parameters
,
group_size
=
128
*
1024
*
1024
):
group_idx
=
0
memory_counter
=
0
var_groups
=
OrderedDict
()
dtype
=
parameters
[
0
].
dtype
for
var
in
parameters
:
bytes
=
np
.
prod
(
var
.
shape
)
*
core
.
size_of_dtype
(
var
.
dtype
)
if
memory_counter
<
group_size
and
dtype
==
var
.
dtype
:
memory_counter
+=
bytes
else
:
memory_counter
=
bytes
dtype
=
var
.
dtype
group_idx
+=
1
var_groups
.
setdefault
(
group_idx
,
[]).
append
(
var
)
return
var_groups
python/paddle/distributed/fleet/utils/__init__.py
浏览文件 @
0abdcff6
...
...
@@ -22,6 +22,7 @@ import paddle
from
.
import
log_util
# noqa: F401
from
.
import
hybrid_parallel_util
# noqa: F401
from
.
import
tensor_parallel_utils
# noqa: F401
from
.
import
mix_precision_utils
# noqa: F401
__all__
=
[
"LocalFS"
,
"recompute"
,
"DistributedInfer"
,
"HDFSClient"
]
# noqa
...
...
python/paddle/distributed/fleet/utils/hybrid_parallel_util.py
浏览文件 @
0abdcff6
...
...
@@ -232,10 +232,18 @@ def sharding_reduce_gradients(parameter_list, hcg):
sharding_nrank
=
hcg
.
get_sharding_parallel_group
().
nranks
for
param
in
parameter_list
:
g_var
=
None
if
param
.
trainable
and
(
param
.
_grad_ivar
()
is
not
None
):
param
.
grad
.
scale_
(
1.0
/
sharding_nrank
)
g_var
=
param
.
_grad_ivar
()
if
param
.
trainable
and
hasattr
(
param
,
"main_grad"
):
assert
(
param
.
_grad_ivar
()
is
None
),
"param.grad should be None when using main_grad"
g_var
=
param
.
main_grad
if
g_var
is
not
None
:
g_var
.
scale_
(
1.0
/
sharding_nrank
)
paddle
.
distributed
.
all_reduce
(
param
.
grad
,
g_var
,
group
=
hcg
.
get_sharding_parallel_group
(),
sync_op
=
True
,
)
...
...
python/paddle/distributed/fleet/utils/mix_precision_utils.py
0 → 100644
浏览文件 @
0abdcff6
# Copyright (c) 2023 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.
from
collections
import
defaultdict
from
types
import
MethodType
import
numpy
as
np
import
paddle
from
paddle
import
_legacy_C_ops
,
nn
from
paddle.distributed
import
fleet
from
paddle.fluid
import
framework
from
paddle.fluid.dygraph
import
base
as
imperative_base
from
paddle.fluid.dygraph
import
to_variable
from
paddle.framework
import
core
class
MixPrecisionLayer
(
nn
.
Layer
):
def
__init__
(
self
,
layers
,
dtype
=
"float16"
):
super
().
__init__
(
layers
.
full_name
()
+
"_mix_precision"
)
self
.
_layers
=
layers
self
.
_dtype
=
dtype
assert
self
.
_dtype
in
[
"float16"
,
"bfloat16"
]
for
param
in
self
.
_layers
.
parameters
():
if
not
hasattr
(
param
,
"main_grad"
):
param
.
main_grad
=
None
param
.
_register_grad_hook
(
self
.
_update_main_grad_hook
(
param
))
def
_update_main_grad_hook
(
self
,
param
):
"""Create the update_main_grad hook for backprop."""
# Hook used for back-prop and grad-merge.
@
paddle
.
autograd
.
no_grad
()
def
param_hook
(
tmp_grad
):
assert
(
param
.
grad
is
None
),
"In main_grad node, param.grad should be None, but find param[{}] has grad."
.
format
(
param
.
name
)
if
param
.
main_grad
is
None
:
param
.
main_grad
=
core
.
eager
.
Tensor
(
value
=
tmp_grad
.
cast
(
paddle
.
float32
).
value
(),
place
=
tmp_grad
.
place
,
name
=
"main_grad@"
+
param
.
name
,
)
else
:
param
.
main_grad
.
add_
(
tmp_grad
.
cast
(
paddle
.
float32
))
tmp_grad
.
_clear_data
()
return
None
return
param_hook
def
forward
(
self
,
*
inputs
,
**
kwargs
):
outputs
=
self
.
_layers
(
*
inputs
,
**
kwargs
)
return
outputs
def
state_dict
(
self
,
destination
=
None
,
include_sublayers
=
True
,
structured_name_prefix
=
""
,
):
return
self
.
_layers
.
state_dict
(
destination
=
destination
,
include_sublayers
=
include_sublayers
,
structured_name_prefix
=
structured_name_prefix
,
)
@
framework
.
deprecate_stat_dict
def
set_state_dict
(
self
,
state_dict
,
use_structured_name
=
True
):
self
.
_layers
.
set_state_dict
(
state_dict
,
use_structured_name
=
use_structured_name
)
class
MixPrecisionOptimizer
:
def
__init__
(
self
,
optimizer
):
self
.
_inner_opt
=
optimizer
self
.
_parameter_list
=
self
.
_obtain_optimizer_parameters_list
()
def
_obtain_optimizer_parameters_list
(
self
):
if
getattr
(
self
.
_inner_opt
,
'_param_groups'
,
None
)
and
isinstance
(
self
.
_inner_opt
.
_param_groups
[
0
],
dict
):
parameters_list
=
[]
for
group
in
self
.
_inner_opt
.
_param_groups
:
for
param
in
group
[
'params'
]:
parameters_list
.
append
(
param
)
else
:
parameters_list
=
list
(
self
.
_inner_opt
.
_parameter_list
)
return
parameters_list
@
imperative_base
.
no_grad
@
framework
.
dygraph_only
def
step
(
self
):
if
not
isinstance
(
self
.
_parameter_list
[
0
],
dict
):
params_grads
=
[]
for
param
in
self
.
_parameter_list
:
if
param
.
stop_gradient
:
continue
grad_var
=
param
.
main_grad
if
framework
.
in_dygraph_mode
():
if
(
hasattr
(
grad_var
,
"is_selected_rows"
)
and
grad_var
.
is_selected_rows
()
and
self
.
_inner_opt
.
regularization
is
not
None
):
raise
RuntimeError
(
"AdamW don't support weight_decay with sparse parameters, please set it to None."
)
else
:
if
(
hasattr
(
grad_var
,
"_is_sparse"
)
and
grad_var
.
_is_sparse
()
and
self
.
_inner_opt
.
regularization
is
not
None
):
raise
RuntimeError
(
"AdamW don't support weight_decay with sparse parameters, please set it to None."
)
params_grads
.
append
((
param
,
grad_var
))
optimize_ops
=
self
.
_inner_opt
.
_apply_optimize
(
loss
=
None
,
startup_program
=
None
,
params_grads
=
params_grads
)
else
:
# optimize parameters in groups
for
param_group
in
self
.
_inner_opt
.
_param_groups
:
params_grads
=
defaultdict
(
lambda
:
[])
for
param
in
param_group
[
'params'
]:
if
param
.
stop_gradient
:
continue
grad_var
=
param
.
main_grad
if
framework
.
in_dygraph_mode
():
if
(
hasattr
(
grad_var
,
"is_selected_rows"
)
and
grad_var
.
is_selected_rows
()
and
self
.
_inner_opt
.
regularization
is
not
None
):
raise
RuntimeError
(
"AdamW don't support weight_decay with sparse parameters, please set it to None."
)
else
:
if
(
hasattr
(
grad_var
,
"_is_sparse"
)
and
grad_var
.
_is_sparse
()
and
self
.
_inner_opt
.
regularization
is
not
None
):
raise
RuntimeError
(
"AdamW don't support weight_decay with sparse parameters, please set it to None."
)
params_grads
[
'params'
].
append
((
param
,
grad_var
))
params_grads
.
update
(
{
k
:
v
for
k
,
v
in
param_group
.
items
()
if
k
!=
'params'
}
)
self
.
_apply_optimize
(
loss
=
None
,
startup_program
=
None
,
params_grads
=
params_grads
)
@
framework
.
dygraph_only
def
clear_grad
(
self
,
set_to_zero
=
True
):
param_list
=
[]
if
self
.
_parameter_list
is
None
or
not
isinstance
(
self
.
_parameter_list
[
0
],
dict
):
for
p
in
self
.
_parameter_list
:
if
not
p
.
stop_gradient
:
param_list
.
append
(
p
)
else
:
for
param_group
in
self
.
_param_groups
:
for
p
in
param_group
[
'params'
]:
if
not
p
.
stop_gradient
:
param_list
.
append
(
p
)
for
p
in
param_list
:
if
hasattr
(
p
,
"main_grad"
)
and
p
.
main_grad
is
not
None
:
if
set_to_zero
:
p
.
main_grad
.
zero_
()
else
:
p
.
main_grad
.
_clear
()
p
.
main_grad
=
None
elif
not
hasattr
(
p
,
"main_grad"
):
p
.
clear_gradient
(
set_to_zero
)
def
__getattr__
(
self
,
item
):
return
getattr
(
self
.
_inner_opt
,
item
)
def
unscale_method
(
self
,
optimizer
):
if
not
self
.
_enable
:
return
param_grads
=
[]
if
getattr
(
optimizer
,
'_param_groups'
,
None
)
and
isinstance
(
optimizer
.
_param_groups
[
0
],
dict
):
for
group
in
optimizer
.
_param_groups
:
for
param
in
group
[
'params'
]:
if
param
.
main_grad
is
not
None
:
assert
param
.
main_grad
.
dtype
==
core
.
VarDesc
.
VarType
.
FP32
param_grads
.
append
(
param
.
main_grad
)
else
:
for
param
in
optimizer
.
_parameter_list
:
if
param
.
main_grad
is
not
None
:
assert
param
.
main_grad
.
dtype
==
core
.
VarDesc
.
VarType
.
FP32
param_grads
.
append
(
param
.
main_grad
)
temp_found_inf
=
to_variable
(
np
.
array
([
0
]).
astype
(
np
.
bool_
))
if
len
(
param_grads
):
_legacy_C_ops
.
check_finite_and_unscale
(
param_grads
,
self
.
_scale
,
param_grads
,
temp_found_inf
,
)
self
.
_found_inf
=
1
if
temp_found_inf
else
0
hcg
=
fleet
.
get_hybrid_communicate_group
()
if
hcg
is
not
None
and
hcg
.
nranks
>
hcg
.
get_data_parallel_world_size
():
is_found_inf
=
paddle
.
to_tensor
([
self
.
_found_inf
],
dtype
=
"int32"
)
paddle
.
distributed
.
all_reduce
(
is_found_inf
,
op
=
paddle
.
distributed
.
ReduceOp
.
MAX
,
group
=
None
)
self
.
_found_inf
=
is_found_inf
.
numpy
()[
0
]
class
MixPrecisionScaler
:
def
__init__
(
self
,
scaler
):
self
.
_inner_scaler
=
scaler
self
.
_inner_scaler
.
_unscale
=
MethodType
(
unscale_method
,
scaler
)
def
__getattr__
(
self
,
item
):
return
getattr
(
self
.
_inner_scaler
,
item
)
python/paddle/fluid/tests/unittests/hybrid_parallel_pp_alexnet.py
浏览文件 @
0abdcff6
...
...
@@ -21,6 +21,10 @@ from hybrid_parallel_pp_layer import AlexNet, AlexNetPipeDesc
import
paddle
import
paddle.distributed
as
dist
from
paddle.distributed
import
fleet
from
paddle.distributed.fleet.utils.mix_precision_utils
import
(
MixPrecisionLayer
,
MixPrecisionOptimizer
,
)
def
set_random_seed
(
seed
,
dp_id
,
rank_id
):
...
...
@@ -60,6 +64,9 @@ class TestDistPPTraning(unittest.TestCase):
)
return
scheduler
,
optimizer
def
wrapper_mix_precision
(
self
,
model
,
optimizer
):
return
model
,
optimizer
def
test_pp_model
(
self
):
hcg
=
fleet
.
get_hybrid_communicate_group
()
word_size
=
hcg
.
get_model_parallel_world_size
()
...
...
@@ -81,6 +88,7 @@ class TestDistPPTraning(unittest.TestCase):
# construct model b
model_b
=
AlexNetPipeDesc
(
num_stages
=
self
.
pipeline_parallel_size
)
scheduler_b
,
optimizer_b
=
self
.
build_optimizer
(
model_b
)
model_b
,
optimizer_b
=
self
.
wrapper_mix_precision
(
model_b
,
optimizer_b
)
model_b
=
fleet
.
distributed_model
(
model_b
)
optimizer_b
=
fleet
.
distributed_optimizer
(
optimizer_b
)
...
...
@@ -125,5 +133,44 @@ class TestDistPPTraning(unittest.TestCase):
)
class
TestDistPPDelayScaleLoss
(
TestDistPPTraning
):
def
setUp
(
self
):
strategy
=
fleet
.
DistributedStrategy
()
self
.
model_parallel_size
=
1
self
.
data_parallel_size
=
1
self
.
pipeline_parallel_size
=
2
strategy
.
hybrid_configs
=
{
"dp_degree"
:
self
.
data_parallel_size
,
"mp_degree"
:
self
.
model_parallel_size
,
"pp_degree"
:
self
.
pipeline_parallel_size
,
"pp_configs"
:
{
"delay_scale_loss"
:
True
,
},
}
strategy
.
pipeline_configs
=
{
"accumulate_steps"
:
batch_size
//
micro_batch_size
,
"micro_batch_size"
:
micro_batch_size
,
}
fleet
.
init
(
is_collective
=
True
,
strategy
=
strategy
)
class
TestDistPPMainGrad
(
TestDistPPTraning
):
def
wrapper_mix_precision
(
self
,
model
,
optimizer
):
model
=
MixPrecisionLayer
(
model
,
dtype
=
"float16"
)
optimizer
=
MixPrecisionOptimizer
(
optimizer
)
return
model
.
_layers
,
optimizer
def
build_optimizer
(
self
,
model
):
scheduler
=
paddle
.
optimizer
.
lr
.
PiecewiseDecay
(
boundaries
=
[
2
],
values
=
[
0.001
,
0.002
],
verbose
=
True
)
optimizer
=
paddle
.
optimizer
.
SGD
(
learning_rate
=
scheduler
,
parameters
=
model
.
parameters
(),
grad_clip
=
paddle
.
nn
.
ClipGradByGlobalNorm
(
clip_norm
=
1.0
),
)
return
scheduler
,
optimizer
if
__name__
==
"__main__"
:
unittest
.
main
()
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