218 lines
7.7 KiB
Python
Executable File
218 lines
7.7 KiB
Python
Executable File
# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import paddle
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from paddle.distributed import fleet
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from .base.topology import ParallelMode
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from .meta_parallel import (
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DualPipeVParallel,
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NoPipelineParallel,
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PipelineLayer,
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PipelineParallel,
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PipelineParallelWithInterleave,
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PipelineParallelWithInterleaveFthenB,
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SegmentParallel,
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ShardingParallel,
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TensorParallel,
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VPPFhenBInBalancedMemory,
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)
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_grad_scalar = None
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def distributed_model(model):
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"""
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Return distributed data parallel model (Only work in dygraph mode)
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Args:
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model (Layer): the user-defined model which inherits Layer.
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Returns:
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distributed data parallel model which inherits Layer.
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Examples:
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.. code-block:: pycon
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>>> import paddle
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>>> import paddle.nn as nn
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>>> from paddle.distributed import fleet
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>>> class LinearNet(nn.Layer):
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... def __init__(self):
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... super().__init__()
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... self._linear1 = nn.Linear(10, 10)
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... self._linear2 = nn.Linear(10, 1)
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...
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... def forward(self, x):
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... return self._linear2(self._linear1(x))
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>>> # 1. initialize fleet environment
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>>> fleet.init(is_collective=True)
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>>> # 2. create layer & optimizer
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>>> layer = LinearNet()
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>>> loss_fn = nn.MSELoss()
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>>> adam = paddle.optimizer.Adam(
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... learning_rate=0.001,
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... parameters=layer.parameters(),
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... )
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>>> # 3. get data_parallel model using fleet
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>>> adam = fleet.distributed_optimizer(adam)
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>>> dp_layer = fleet.distributed_model(layer)
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>>> # 4. run layer
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>>> inputs = paddle.randn([10, 10], 'float32')
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>>> outputs = dp_layer(inputs)
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>>> labels = paddle.randn([10, 1], 'float32')
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>>> loss = loss_fn(outputs, labels)
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>>> print("loss:", loss.numpy())
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>>> loss.backward()
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>>> adam.step()
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>>> adam.clear_grad()
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"""
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fleet_env = fleet.fleet
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strategy = fleet_env._user_defined_strategy
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assert model is not None, "model should not be None"
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if paddle.distributed.get_world_size() <= 1:
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model = NoPipelineParallel(model, strategy=strategy)
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return model
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if strategy.amp:
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level = (
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"O2"
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if strategy.amp_configs['use_pure_fp16']
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or strategy.amp_configs['use_pure_bf16']
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else "O1"
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)
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if level == "O2":
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model = paddle.amp.decorate(
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models=model,
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optimizers=None,
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level="O2",
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master_weight=None,
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save_dtype=None,
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dtype=(
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"float16"
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if strategy.amp_configs['use_pure_fp16']
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else "bfloat16"
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),
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)
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init_loss_scaling = strategy.amp_configs['init_loss_scaling']
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incr_ratio = strategy.amp_configs['incr_ratio']
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decr_ratio = strategy.amp_configs['decr_ratio']
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incr_every_n_steps = strategy.amp_configs['incr_every_n_steps']
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decr_every_n_nan_or_inf = strategy.amp_configs[
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'decr_every_n_nan_or_inf'
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]
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use_dynamic_loss_scaling = strategy.amp_configs[
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'use_dynamic_loss_scaling'
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]
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global _grad_scalar
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_grad_scalar = paddle.amp.GradScaler(
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init_loss_scaling=init_loss_scaling,
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incr_ratio=incr_ratio,
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decr_ratio=decr_ratio,
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incr_every_n_steps=incr_every_n_steps,
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decr_every_n_nan_or_inf=decr_every_n_nan_or_inf,
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use_dynamic_loss_scaling=use_dynamic_loss_scaling,
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)
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if fleet_env._hcg.get_parallel_mode() == ParallelMode.PIPELINE_PARALLEL:
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assert isinstance(model, PipelineLayer), (
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"For pipeline parallel, the model should an instance of PipelineLayer"
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)
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if strategy.hybrid_configs["pp_configs"].use_dualpipev:
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model = DualPipeVParallel(model, fleet_env._hcg, strategy=strategy)
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elif model.get_num_virtual_stages() == 1:
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# 1f1b pipeline
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model = PipelineParallel(model, fleet_env._hcg, strategy=strategy)
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else:
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accumulate_steps = strategy.pipeline_configs['accumulate_steps']
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pp_degree = fleet_env._hcg.get_pipe_parallel_world_size()
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if accumulate_steps >= 2 * pp_degree:
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# interleave pipeline
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model = PipelineParallelWithInterleave(
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model, fleet_env._hcg, strategy=strategy
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)
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elif pp_degree <= accumulate_steps < 2 * pp_degree:
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if strategy.hybrid_configs[
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"pp_configs"
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].best_unbalanced_scheduler:
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model = VPPFhenBInBalancedMemory(
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model, fleet_env._hcg, strategy=strategy
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)
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else:
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model = PipelineParallelWithInterleaveFthenB(
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model, fleet_env._hcg, strategy=strategy
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)
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else:
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raise ValueError(
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f"The accumulate_steps({accumulate_steps}) should be greater than or equal to pp_degree({pp_degree})"
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)
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else:
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if isinstance(model, PipelineLayer):
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# PaddleFleet Model
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model = NoPipelineParallel(
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model, strategy=strategy, hcg=fleet_env._hcg
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)
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else:
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if strategy.heter_ccl_mode:
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distributed_model = paddle.DataParallel(
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model,
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comm_buffer_size=strategy.fuse_grad_size_in_MB,
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last_comm_buffer_size=strategy.last_comm_group_size_MB,
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find_unused_parameters=strategy.find_unused_parameters,
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)
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return distributed_model
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if (
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fleet_env._hcg.get_parallel_mode()
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== ParallelMode.SHARDING_PARALLEL
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):
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model = ShardingParallel(
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model, fleet_env._hcg, strategy=strategy
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)
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elif (
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fleet_env._hcg.get_parallel_mode() == ParallelMode.DATA_PARALLEL
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):
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model = paddle.DataParallel(
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model,
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comm_buffer_size=strategy.fuse_grad_size_in_MB,
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last_comm_buffer_size=strategy.last_comm_group_size_MB,
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find_unused_parameters=strategy.find_unused_parameters,
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group=fleet_env._hcg.get_data_parallel_group(),
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)
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elif (
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fleet_env._hcg.get_parallel_mode()
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== ParallelMode.SEGMENT_PARALLEL
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):
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model = SegmentParallel(
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model, fleet_env._hcg, strategy=strategy
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)
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elif (
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fleet_env._hcg.get_parallel_mode()
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== ParallelMode.TENSOR_PARALLEL
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):
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model = TensorParallel(model, fleet_env._hcg, strategy=strategy)
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return model
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