import torch.nn as nn import colossalai.shardformer.layer as col_nn from .._utils import getattr_, setattr_ from .basepolicy import ModulePolicyDescription, Policy, SubModuleReplacementDescription __all__ = [ 'WhisperPolicy', 'WhisperModelPolicy', 'WhisperForConditionalGenerationPolicy', 'WhisperForAudioClassification' ] class WhisperPolicy(Policy): def config_sanity_check(self): pass def preprocess(self): # reshape the embedding layer r""" Reshape the Embedding layer to make the embedding dimension divisible by world_size """ # TODO: vocab_size = self.model.config.vocab_size world_size = self.shard_config.tensor_parallel_size if vocab_size % world_size != 0: new_vocab_size = vocab_size + world_size - vocab_size % world_size self.model.resize_token_embeddings(new_vocab_size) return self.model def module_policy(self): from transformers.models.whisper.modeling_whisper import ( WhisperDecoder, WhisperDecoderLayer, WhisperEncoder, WhisperEncoderLayer, ) policy = {} if self.shard_config.enable_tensor_parallelism: policy[WhisperEncoderLayer] = ModulePolicyDescription(attribute_replacement={ "self_attn.embed_dim": self.model.config.d_model // self.shard_config.tensor_parallel_size, "self_attn.num_heads": self.model.config.encoder_attention_heads // self.shard_config.tensor_parallel_size, }, sub_module_replacement=[ SubModuleReplacementDescription( suffix="self_attn.q_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="self_attn.k_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="self_attn.v_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="self_attn.out_proj", target_module=col_nn.Linear1D_Row, ), SubModuleReplacementDescription( suffix="fc1", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="fc2", target_module=col_nn.Linear1D_Row, ), ]) policy[WhisperDecoderLayer] = ModulePolicyDescription(attribute_replacement={ "self_attn.embed_dim": self.model.config.d_model // self.shard_config.tensor_parallel_size, "self_attn.num_heads": self.model.config.decoder_attention_heads // self.shard_config.tensor_parallel_size, "encoder_attn.embed_dim": self.model.config.d_model // self.shard_config.tensor_parallel_size, "encoder_attn.num_heads": self.model.config.encoder_attention_heads // self.shard_config.tensor_parallel_size, }, sub_module_replacement=[ SubModuleReplacementDescription( suffix="self_attn.q_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="self_attn.k_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="self_attn.v_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="self_attn.out_proj", target_module=col_nn.Linear1D_Row, ), SubModuleReplacementDescription( suffix="encoder_attn.q_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="encoder_attn.k_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="encoder_attn.v_proj", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="encoder_attn.out_proj", target_module=col_nn.Linear1D_Row, ), SubModuleReplacementDescription( suffix="fc1", target_module=col_nn.Linear1D_Col, ), SubModuleReplacementDescription( suffix="fc2", target_module=col_nn.Linear1D_Row, ), ]) policy[WhisperDecoder] = ModulePolicyDescription(sub_module_replacement=[ SubModuleReplacementDescription( suffix="embed_tokens", target_module=col_nn.VocabParallelEmbedding1D, ), ]) # optimization configuration if self.shard_config.enable_fused_normalization: # Handle encoder layer self.append_or_create_submodule_replacement(description=[ SubModuleReplacementDescription( suffix="self_attn_layer_norm", target_module=col_nn.FusedLayerNorm, ), SubModuleReplacementDescription( suffix="final_layer_norm", target_module=col_nn.FusedLayerNorm, ) ], policy=policy, target_key=WhisperEncoderLayer) # Handle decoder layer self.append_or_create_submodule_replacement(description=[ SubModuleReplacementDescription( suffix="self_attn_layer_norm", target_module=col_nn.FusedLayerNorm, ), SubModuleReplacementDescription( suffix="final_layer_norm", target_module=col_nn.FusedLayerNorm, ) ], policy=policy, target_key=WhisperDecoderLayer) # handle encoder layer self.append_or_create_submodule_replacement(description=[ SubModuleReplacementDescription( suffix="layer_norm", target_module=col_nn.FusedLayerNorm, ) ], policy=policy, target_key=WhisperEncoder) # handle decoder layer self.append_or_create_submodule_replacement(description=[ SubModuleReplacementDescription( suffix="layer_norm", target_module=col_nn.FusedLayerNorm, ) ], policy=policy, target_key=WhisperDecoder) return policy def add_lm_head_policy(self, base_policy): from transformers.models.whisper.modeling_whisper import WhisperForConditionalGeneration # optimize for tensor parallelism if self.shard_config.enable_tensor_parallelism: self.append_or_create_submodule_replacement(description=SubModuleReplacementDescription( suffix="proj_out", target_module=col_nn.Linear1D_Col, kwargs={"gather_output": True}), policy=base_policy, target_key=WhisperForConditionalGeneration) return base_policy def postprocess(self): return self.model # WhisperModel class WhisperModelPolicy(WhisperPolicy): def __init__(self) -> None: super().__init__() # WhisperForConditionalGeneration class WhisperForConditionalGenerationPolicy(WhisperPolicy): def __init__(self) -> None: super().__init__() def module_policy(self): module_policy = super().module_policy() module_policy = self.add_lm_head_policy(module_policy) return module_policy def postprocess(self): binding_map = {"model.decoder.embed_tokens.weight": "proj_out.weight"} for k, v in binding_map.items(): param = getattr_(self.model, k) setattr_(self.model, v, param) return self.model # WhisperForAudioClassification class WhisperForAudioClassificationPolicy(WhisperPolicy): def __init__(self) -> None: super().__init__()