mirror of https://github.com/hpcaitech/ColossalAI
611 lines
26 KiB
Python
611 lines
26 KiB
Python
from functools import partial
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from typing import Callable, Dict, List
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import torch.nn as nn
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from torch import Tensor
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from torch.nn import Module
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import colossalai.shardformer.layer as col_nn
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from .._utils import getattr_, setattr_
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from ..modeling.bert import (
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BertPipelineForwards,
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bert_sequence_parallel_forward_fn,
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get_bert_flash_attention_forward,
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get_jit_fused_bert_output_forward,
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get_jit_fused_bert_self_output_forward,
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)
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from ..modeling.jit import get_jit_fused_dropout_add_func
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from .base_policy import ModulePolicyDescription, Policy, SubModuleReplacementDescription
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__all__ = [
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'BertPolicy', 'BertModelPolicy', 'BertForPreTrainingPolicy', 'BertLMdHeadModelPolicy', 'BertForMaskedLMPolicy',
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'BertForNextSentencePredictionPolicy', 'BertForSequenceClassificationPolicy', 'BertForTokenClassificationPolicy',
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'BertForMultipleChoicePolicy', 'BertForQuestionAnsweringPolicy'
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]
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class BertPolicy(Policy):
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def config_sanity_check(self):
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pass
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def preprocess(self):
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# reshape the embedding layer
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r"""
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Reshape the Embedding layer to make the embedding dimension divisible by world_size
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"""
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# TODO:
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if self.shard_config.enable_tensor_parallelism:
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vocab_size = self.model.config.vocab_size
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world_size = self.shard_config.tensor_parallel_size
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if vocab_size % world_size != 0:
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new_vocab_size = vocab_size + world_size - vocab_size % world_size
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self.model.resize_token_embeddings(new_vocab_size)
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return self.model
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def module_policy(self):
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from transformers.models.bert.modeling_bert import (
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BertEmbeddings,
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BertLayer,
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BertModel,
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BertOutput,
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BertSelfAttention,
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BertSelfOutput,
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)
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policy = {}
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use_sequence_parallel = self.shard_config.enable_sequence_parallelism
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overlap = self.shard_config.enable_sequence_overlap
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if self.shard_config.enable_tensor_parallelism:
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policy[BertLayer] = ModulePolicyDescription(attribute_replacement={
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"attention.self.all_head_size":
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self.model.config.hidden_size // self.shard_config.tensor_parallel_size,
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"crossattention.self.all_head_size":
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self.model.config.hidden_size // self.shard_config.tensor_parallel_size,
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"attention.self.num_attention_heads":
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self.model.config.num_attention_heads // self.shard_config.tensor_parallel_size,
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"crossattention.self.num_attention_heads":
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self.model.config.num_attention_heads // self.shard_config.tensor_parallel_size,
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},
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sub_module_replacement=[
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SubModuleReplacementDescription(
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suffix="attention.self.query",
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target_module=col_nn.Linear1D_Col,
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kwargs={
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"seq_parallel": use_sequence_parallel,
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"overlap": overlap
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},
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),
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SubModuleReplacementDescription(
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suffix="attention.self.key",
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target_module=col_nn.Linear1D_Col,
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kwargs={
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"seq_parallel": use_sequence_parallel,
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"overlap": overlap
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},
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),
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SubModuleReplacementDescription(
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suffix="attention.self.value",
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target_module=col_nn.Linear1D_Col,
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kwargs={
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"seq_parallel": use_sequence_parallel,
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"overlap": overlap
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},
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),
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SubModuleReplacementDescription(
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suffix="attention.self.dropout",
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target_module=col_nn.DropoutForParallelInput,
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),
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SubModuleReplacementDescription(
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suffix="attention.output.dense",
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target_module=col_nn.Linear1D_Row,
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kwargs={"seq_parallel": use_sequence_parallel},
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),
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SubModuleReplacementDescription(
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suffix="attention.output.dropout",
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target_module=col_nn.DropoutForParallelInput,
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),
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SubModuleReplacementDescription(
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suffix="intermediate.dense",
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target_module=col_nn.Linear1D_Col,
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kwargs={
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"seq_parallel": use_sequence_parallel,
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"overlap": overlap
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},
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),
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SubModuleReplacementDescription(
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suffix="output.dense",
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target_module=col_nn.Linear1D_Row,
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kwargs={"seq_parallel": use_sequence_parallel},
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),
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SubModuleReplacementDescription(
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suffix="output.dropout",
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target_module=col_nn.DropoutForParallelInput,
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)
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])
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policy[BertEmbeddings] = ModulePolicyDescription(sub_module_replacement=[
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SubModuleReplacementDescription(
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suffix="word_embeddings",
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target_module=col_nn.VocabParallelEmbedding1D,
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),
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SubModuleReplacementDescription(
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suffix="dropout",
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target_module=col_nn.DropoutForReplicatedInput,
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)
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])
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if use_sequence_parallel:
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self.append_or_create_method_replacement(
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description={'forward': bert_sequence_parallel_forward_fn(self.shard_config)},
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policy=policy,
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target_key=BertModel)
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# optimization configuration
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if self.shard_config.enable_fused_normalization:
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# Handle bert layer
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self.append_or_create_submodule_replacement(description=[
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SubModuleReplacementDescription(
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suffix="attention.output.LayerNorm",
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target_module=col_nn.FusedLayerNorm,
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),
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SubModuleReplacementDescription(
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suffix="output.LayerNorm",
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target_module=col_nn.FusedLayerNorm,
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)
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],
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policy=policy,
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target_key=BertLayer)
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# handle embedding layer
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self.append_or_create_submodule_replacement(
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description=[SubModuleReplacementDescription(
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suffix="LayerNorm",
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target_module=col_nn.FusedLayerNorm,
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)],
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policy=policy,
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target_key=BertEmbeddings)
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# use flash attention
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if self.shard_config.enable_flash_attention:
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self.append_or_create_method_replacement(description={
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'forward': get_bert_flash_attention_forward(),
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},
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policy=policy,
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target_key=BertSelfAttention)
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# use jit operator
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if self.shard_config.enable_jit_fused:
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self.append_or_create_method_replacement(description={
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'forward': get_jit_fused_bert_self_output_forward(),
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'dropout_add': get_jit_fused_dropout_add_func(),
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},
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policy=policy,
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target_key=BertSelfOutput)
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self.append_or_create_method_replacement(description={
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'forward': get_jit_fused_bert_output_forward(),
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'dropout_add': get_jit_fused_dropout_add_func(),
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},
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policy=policy,
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target_key=BertOutput)
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return policy
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def add_lm_head_policy(self, base_policy):
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from transformers.models.bert.modeling_bert import BertLMPredictionHead
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# optimize for tensor parallelism
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if self.shard_config.enable_tensor_parallelism:
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self.append_or_create_submodule_replacement(description=SubModuleReplacementDescription(
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suffix="decoder", target_module=col_nn.Linear1D_Col, kwargs={"gather_output": True}),
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policy=base_policy,
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target_key=BertLMPredictionHead)
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# optimize with fused normalization
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if self.shard_config.enable_fused_normalization:
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# Handle bert lm prediction head
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self.append_or_create_submodule_replacement(description=SubModuleReplacementDescription(
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suffix="transform.LayerNorm",
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target_module=col_nn.FusedLayerNorm,
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),
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policy=base_policy,
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target_key=BertLMPredictionHead)
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return base_policy
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def add_lm_prediction_policy(self, base_policy):
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from transformers.models.bert.modeling_bert import BertLMPredictionHead
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method_replacement = {
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'_save_to_state_dict': col_nn.ParallelModule._save_to_state_dict,
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'_load_from_state_dict': col_nn.ParallelModule._load_from_state_dict,
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}
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self.append_or_create_method_replacement(description=method_replacement,
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policy=base_policy,
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target_key=BertLMPredictionHead)
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return base_policy
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def postprocess(self):
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return self.model
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def set_pipeline_forward(self, model_cls: nn.Module, new_forward: Callable, policy: Dict) -> None:
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"""If under pipeline parallel setting, replacing the original forward method of huggingface
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to customized forward method, and add this changing to policy."""
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if self.pipeline_stage_manager:
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stage_manager = self.pipeline_stage_manager
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if self.model.__class__.__name__ == "BertModel":
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module = self.model
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else:
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module = self.model.bert
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layers_per_stage = Policy.distribute_layers(len(module.encoder.layer), stage_manager.num_stages)
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stage_index = Policy.get_stage_index(layers_per_stage, stage_manager.stage)
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method_replacement = {
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'forward':
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partial(new_forward,
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stage_manager=stage_manager,
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stage_index=stage_index,
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shard_config=self.shard_config)
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}
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self.append_or_create_method_replacement(description=method_replacement,
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policy=policy,
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target_key=model_cls)
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return
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def get_held_layers(self) -> List[Module]:
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"""Get pipeline layers for current stage."""
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assert self.pipeline_stage_manager is not None
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if self.model.__class__.__name__ == 'BertModel':
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module = self.model
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else:
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module = self.model.bert
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stage_manager = self.pipeline_stage_manager
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held_layers = []
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layers_per_stage = self.distribute_layers(len(module.encoder.layer), stage_manager.num_stages)
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if stage_manager.is_first_stage():
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held_layers.append(module.embeddings)
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start_idx, end_idx = self.get_stage_index(layers_per_stage, stage_manager.stage)
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held_layers.extend(module.encoder.layer[start_idx:end_idx])
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if stage_manager.is_last_stage():
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held_layers.append(module.pooler)
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return held_layers
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# BertModel
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class BertModelPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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policy = super().module_policy()
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from transformers.models.bert.modeling_bert import BertModel
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertModel,
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new_forward=BertPipelineForwards.bert_model_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""Get pipeline layers for current stage."""
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held_layers = super().get_held_layers()
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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"""No shared params in bert model"""
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return []
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# BertForPreTraining
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class BertForPreTrainingPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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policy = super().module_policy()
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policy = self.add_lm_head_policy(policy)
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policy = self.add_lm_prediction_policy(policy)
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from transformers.models.bert.modeling_bert import BertForPreTraining
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertForPreTraining,
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new_forward=BertPipelineForwards.bert_for_pretraining_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""Get pipeline layers for current stage"""
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held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.cls)
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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model = self.model
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if self.pipeline_stage_manager and self.pipeline_stage_manager.num_stages > 1:
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if id(model.bert.embeddings.word_embeddings.weight) == id(model.cls.predictions.decoder.weight):
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# tie weights
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return [{
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0: model.bert.embeddings.word_embeddings.weight,
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self.pipeline_stage_manager.num_stages - 1: model.cls.predictions.decoder.weight
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}]
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return []
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# BertLMHeadModel
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class BertLMHeadModelPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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policy = super().module_policy()
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policy = self.add_lm_head_policy(policy)
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policy = self.add_lm_prediction_policy(policy)
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from transformers.models.bert.modeling_bert import BertLMHeadModel
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertLMHeadModel,
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new_forward=BertPipelineForwards.bert_lm_head_model_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""
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get pipeline layers for current stage
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"""
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held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.cls)
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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bert_model = self.model.bert
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if self.pipeline_stage_manager and self.pipeline_stage_manager.num_stages > 1:
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if id(bert_model.embeddings.word_embeddings.weight) == id(self.model.cls.predictions.decoder.weight):
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# tie weights
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return [{
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0: bert_model.embeddings.word_embeddings.weight,
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self.pipeline_stage_manager.num_stages - 1: self.model.cls.predictions.decoder.weight
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}]
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return []
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# BertForMaskedLM
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class BertForMaskedLMPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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policy = super().module_policy()
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policy = self.add_lm_head_policy(policy)
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policy = self.add_lm_prediction_policy(policy)
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from transformers.models.bert.modeling_bert import BertForMaskedLM
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertForMaskedLM,
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new_forward=BertPipelineForwards.bert_for_masked_lm_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""
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get pipeline layers for current stage
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"""
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held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.cls)
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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bert_model = self.model.bert
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if self.pipeline_stage_manager and self.pipeline_stage_manager.num_stages > 1:
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if id(bert_model.embeddings.word_embeddings.weight) == id(self.model.cls.predictions.decoder.weight):
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# tie weights
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return [{
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0: bert_model.embeddings.word_embeddings.weight,
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self.pipeline_stage_manager.num_stages - 1: self.model.cls.predictions.decoder.weight
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}]
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return []
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# BertForSequenceClassification
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class BertForSequenceClassificationPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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from transformers.models.bert.modeling_bert import BertForSequenceClassification
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policy = super().module_policy()
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if self.shard_config.enable_tensor_parallelism:
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addon_module = {
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BertForSequenceClassification:
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ModulePolicyDescription(sub_module_replacement=[
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SubModuleReplacementDescription(
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suffix="dropout",
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target_module=col_nn.DropoutForParallelInput,
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)
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])
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}
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policy.update(addon_module)
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertForSequenceClassification,
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new_forward=BertPipelineForwards.bert_for_sequence_classification_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""
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get pipeline layers for current stage
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"""
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held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.dropout)
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held_layers.append(self.model.classifier)
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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# no shared params for sequence classification model
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return []
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# BertForTokenClassification
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class BertForTokenClassificationPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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from transformers.models.bert.modeling_bert import BertForTokenClassification
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policy = super().module_policy()
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if self.shard_config.enable_tensor_parallelism:
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addon_module = {
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BertForTokenClassification:
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ModulePolicyDescription(sub_module_replacement=[
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SubModuleReplacementDescription(
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suffix="dropout",
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target_module=col_nn.DropoutForParallelInput,
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)
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])
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}
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policy.update(addon_module)
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertForTokenClassification,
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new_forward=BertPipelineForwards.bert_for_token_classification_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""
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get pipeline layers for current stage
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"""
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held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.dropout)
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held_layers.append(self.model.classifier)
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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# no shared params for sequence classification model
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return []
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# BertForNextSentencePrediction
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class BertForNextSentencePredictionPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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policy = super().module_policy()
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from transformers.models.bert.modeling_bert import BertForNextSentencePrediction
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertForNextSentencePrediction,
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new_forward=BertPipelineForwards.bert_for_next_sentence_prediction_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""
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get pipeline layers for current stage
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"""
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held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.cls)
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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# no shared params for sequence classification model
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return []
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# BertForMultipleChoice
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class BertForMultipleChoicePolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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from transformers.models.bert.modeling_bert import BertForMultipleChoice
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policy = super().module_policy()
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if self.shard_config.enable_tensor_parallelism:
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addon_module = {
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BertForMultipleChoice:
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ModulePolicyDescription(sub_module_replacement=[
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SubModuleReplacementDescription(
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suffix="dropout",
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target_module=col_nn.DropoutForParallelInput,
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)
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])
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}
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policy.update(addon_module)
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertForMultipleChoice,
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new_forward=BertPipelineForwards.bert_for_multiple_choice_forward,
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policy=policy)
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return policy
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def get_held_layers(self) -> List[Module]:
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"""
|
|
get pipeline layers for current stage
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|
"""
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held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.dropout)
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held_layers.append(self.model.classifier)
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return held_layers
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
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# no shared params for sequence classification model
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return []
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class BertForQuestionAnsweringPolicy(BertPolicy):
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def __init__(self) -> None:
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super().__init__()
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def module_policy(self):
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from transformers.models.bert.modeling_bert import BertForQuestionAnswering
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policy = super().module_policy()
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if self.pipeline_stage_manager:
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self.set_pipeline_forward(model_cls=BertForQuestionAnswering,
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new_forward=BertPipelineForwards.bert_for_question_answering_forward,
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policy=policy)
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return policy
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|
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def get_held_layers(self) -> List[Module]:
|
|
"""
|
|
get pipeline layers for current stage
|
|
"""
|
|
held_layers = super().get_held_layers()
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stage_manager = self.pipeline_stage_manager
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if stage_manager.is_last_stage():
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held_layers.append(self.model.qa_outputs)
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return held_layers
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|
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def get_shared_params(self) -> List[Dict[int, Tensor]]:
|
|
# no shared params for sequence classification model
|
|
return []
|