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import warnings |
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from transformers import BertConfig as TransformersBertConfig |
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class BertConfig(TransformersBertConfig): |
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def __init__( |
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self, |
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alibi_starting_size: int = 512, |
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normalization: str = "layernorm", |
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attention_probs_dropout_prob: float = 0.0, |
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head_pred_act: str = "gelu", |
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deterministic_fa2: bool = False, |
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allow_embedding_resizing: bool = False, |
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**kwargs, |
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): |
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"""Configuration class for MosaicBert. |
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Args: |
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alibi_starting_size (int): Use `alibi_starting_size` to determine how large of an alibi tensor to |
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create when initializing the model. You should be able to ignore this parameter in most cases. |
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Defaults to 512. |
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attention_probs_dropout_prob (float): By default, turn off attention dropout in MosaicBERT |
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Note that the custom Triton Flash Attention with ALiBi implementation does not support droput. |
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However, Flash Attention 2 supports ALiBi and dropout https://github.com/Dao-AILab/flash-attention |
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embed_dropout_prob (float): Dropout probability for the embedding layer. |
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attn_out_dropout_prob (float): Dropout probability for the attention output layer. |
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mlp_dropout_prob (float): Dropout probability for the MLP layer. |
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allow_embedding_resizing (bool): Embeddings will be automatically resized when they are smaller than the tokenizer vocab size. |
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""" |
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super().__init__(attention_probs_dropout_prob=attention_probs_dropout_prob, **kwargs) |
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self.alibi_starting_size = alibi_starting_size |
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self.normalization = normalization |
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self.head_pred_act = head_pred_act |
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self.deterministic_fa2 = deterministic_fa2 |
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self.allow_embedding_resizing = allow_embedding_resizing |
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class FlexBertConfig(TransformersBertConfig): |
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model_type = "flex_bert" |
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def __init__( |
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self, |
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attention_layer: str = "base", |
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attention_probs_dropout_prob: float = 0.0, |
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attn_out_bias: bool = False, |
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attn_out_dropout_prob: float = 0.0, |
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attn_qkv_bias: bool = False, |
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bert_layer: str = "prenorm", |
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decoder_bias: bool = True, |
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embed_dropout_prob: float = 0.0, |
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embed_norm: bool = True, |
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final_norm: bool = False, |
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embedding_layer: str = "absolute_pos", |
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encoder_layer: str = "base", |
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loss_function: str = "cross_entropy", |
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loss_kwargs: dict = {}, |
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mlp_dropout_prob: float = 0.0, |
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mlp_in_bias: bool = False, |
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mlp_layer: str = "mlp", |
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mlp_out_bias: bool = False, |
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norm_kwargs: dict = {}, |
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normalization: str = "rmsnorm", |
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padding: str = "unpadded", |
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head_class_act: str = "silu", |
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head_class_bias: bool = False, |
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head_class_dropout: float = 0.0, |
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head_class_norm: str = False, |
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head_pred_act: str = "silu", |
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head_pred_bias: bool = False, |
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head_pred_dropout: float = 0.0, |
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head_pred_norm: bool = True, |
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pooling_type: str = "cls", |
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rotary_emb_dim: int | None = None, |
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rotary_emb_base: float = 10000.0, |
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rotary_emb_scale_base=None, |
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rotary_emb_interleaved: bool = False, |
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use_fa2: bool = True, |
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use_sdpa_attn_mask: bool = False, |
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allow_embedding_resizing: bool = False, |
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init_method: str = "default", |
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init_std: float = 0.02, |
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init_cutoff_factor: float = 2.0, |
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init_small_embedding: bool = False, |
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initial_attention_layer: str | None = None, |
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initial_bert_layer: str | None = None, |
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initial_mlp_layer: str | None = None, |
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num_initial_layers: int = 1, |
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skip_first_prenorm: bool = False, |
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deterministic_fa2: bool = False, |
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sliding_window: int = -1, |
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global_attn_every_n_layers: int = -1, |
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local_attn_rotary_emb_base: float = -1, |
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local_attn_rotary_emb_dim: int | None = None, |
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unpad_embeddings: bool = False, |
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pad_logits: bool = False, |
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compile_model: bool = False, |
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masked_prediction: bool = False, |
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causal_mask: bool = False, |
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**kwargs, |
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): |
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""" |
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Args: |
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attention_layer (str): Attention layer type. |
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attention_probs_dropout_prob (float): Dropout probability for attention probabilities. |
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attn_out_bias (bool): use bias in attention output projection. |
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attn_out_dropout_prob (float): Dropout probability for attention output. |
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attn_qkv_bias (bool): use bias for query, key, value linear layer(s). |
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bert_layer (str): BERT layer type. |
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decoder_bias (bool): use bias in decoder linear layer. |
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embed_dropout_prob (float): Dropout probability for embeddings. |
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embed_norm (bool): Normalize embedding output. |
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final_norm (bool): Add normalization after the final encoder layer and before head. |
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embedding_layer (str): Embedding layer type. |
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encoder_layer (str): Encoder layer type. |
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loss_function (str): Loss function to use. |
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loss_kwargs (dict): Keyword arguments for loss function. |
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mlp_dropout_prob (float): Dropout probability for MLP layers. |
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mlp_in_bias (bool): Use bias in MLP input linear layer. |
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mlp_layer (str): MLP layer type. |
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mlp_out_bias (bool): Use bias in MLP output linear layer. |
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norm_kwargs (dict): Keyword arguments for normalization layers. |
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normalization (str): Normalization type. |
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padding (str): Unpad inputs. Best with `use_fa2=True`. |
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head_class_act (str): Activation function for classification head. |
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head_class_bias (bool): Use bias in classification head linear layer(s). |
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head_class_dropout (float): Dropout probability for classification head. |
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head_class_norm (str): Normalization type for classification head. |
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head_pred_act (str): Activation function for prediction head. |
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head_pred_bias (bool): Use bias in prediction head linear layer(s). |
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head_pred_dropout (float): Dropout probability for prediction head. |
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head_pred_norm (bool): Normalize prediction head output. |
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pooling_type (str): Pooling type. |
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rotary_emb_dim (int | None): Rotary embedding dimension. |
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rotary_emb_base (float): Rotary embedding base. |
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rotary_emb_scale_base (float): Rotary embedding scale base. |
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rotary_emb_interleaved (bool): Use interleaved rotary embeddings. |
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use_fa2 (bool): Use FlashAttention2. Requires flash_attn package. |
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use_sdpa_attn_mask (bool): Pass a mask to SDPA. This will prevent SDPA from using the PyTorch FA2 kernel. |
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allow_embedding_resizing (bool): Embeddings will be automatically resized when they are smaller than the tokenizer vocab size. |
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init_method (str): Model layers initialization method. |
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init_std (float): Standard deviation for initialization. Used for normal and full_megatron init. |
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init_cutoff_factor (float): Cutoff factor for initialization. Used for normal and full_megatron init. |
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init_small_embedding (bool): Initialize embeddings with RWKV small init. |
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initial_attention_layer (str | None): Replace first `num_initial_layers` attention_layer instance with this layer. |
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initial_bert_layer (str | None): Replace first `num_initial_layers` bert_layer instance with this layer. |
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initial_mlp_layer (str | None): Replace first `num_initial_layers` mlp_layer instance with this layer. |
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num_initial_layers (int): Number of initial layers to set via `initial_attention_layer`, `initial_bert_layer`, and `initial_mlp_layer`. |
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skip_first_prenorm (bool): Skip pre-normalization for the first bert layer. Requires `embed_norm=True`. |
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deterministic_fa2 (bool): Use Flash Attention 2 deterministic mode. This is slower then the default non-deterministic mode. |
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sliding_window (int): Use sliding window attention with window size `n`. -1 to disable. Window size split between the left and right context. Only supports FA2. |
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global_attn_every_n_layers (int): Use global attention every `n` layers and sliding window for the rest. -1 to disable. |
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local_attn_rotary_emb_base (float): Rotary embedding base for local attention. -1 to disable and use `rotary_emb_base` for all layers. |
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local_attn_rotary_emb_dim (int | None): Rotary embedding dimension for local attention. None to disable and use `rotary_emb_dim` for all layers. |
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unpad_embeddings (bool): Unpad inputs before the embedding layer. |
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pad_logits (bool): Pad logits after the calculating the loss. |
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compile_model (bool): Compile the subset of the model which can be compiled. |
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masked_prediction (bool): Use only pass the masked tokens throught the final MLM layers |
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causal (bool): Use a causal mask, defaulting to false. |
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**kwargs: Additional keyword arguments. |
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""" |
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super().__init__(attention_probs_dropout_prob=attention_probs_dropout_prob, **kwargs) |
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self.attention_layer = attention_layer |
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self.attn_out_bias = attn_out_bias |
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self.attn_out_dropout_prob = attn_out_dropout_prob |
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self.attn_qkv_bias = attn_qkv_bias |
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self.bert_layer = bert_layer |
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self.decoder_bias = decoder_bias |
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self.embed_dropout_prob = embed_dropout_prob |
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self.embed_norm = embed_norm |
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self.final_norm = final_norm |
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self.embedding_layer = embedding_layer |
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self.encoder_layer = encoder_layer |
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self.loss_function = loss_function |
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self.loss_kwargs = loss_kwargs |
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self.mlp_dropout_prob = mlp_dropout_prob |
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self.mlp_in_bias = mlp_in_bias |
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self.mlp_layer = mlp_layer |
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self.mlp_out_bias = mlp_out_bias |
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self.norm_kwargs = norm_kwargs |
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self.normalization = normalization |
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self.padding = padding |
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self.head_class_act = head_class_act |
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self.head_class_bias = head_class_bias |
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self.head_class_dropout = head_class_dropout |
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self.head_class_norm = head_class_norm |
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self.head_pred_act = head_pred_act |
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self.head_pred_bias = head_pred_bias |
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self.head_pred_dropout = head_pred_dropout |
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self.head_pred_norm = head_pred_norm |
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self.pooling_type = pooling_type |
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self.rotary_emb_dim = rotary_emb_dim |
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self.rotary_emb_base = rotary_emb_base |
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self.rotary_emb_scale_base = rotary_emb_scale_base |
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self.rotary_emb_interleaved = rotary_emb_interleaved |
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self.use_fa2 = use_fa2 |
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self.use_sdpa_attn_mask = use_sdpa_attn_mask |
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self.allow_embedding_resizing = allow_embedding_resizing |
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self.init_method = init_method |
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self.init_std = init_std |
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self.init_cutoff_factor = init_cutoff_factor |
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self.init_small_embedding = init_small_embedding |
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self.initial_attention_layer = initial_attention_layer |
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self.initial_bert_layer = initial_bert_layer |
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self.initial_mlp_layer = initial_mlp_layer |
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self.num_initial_layers = num_initial_layers |
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self.skip_first_prenorm = skip_first_prenorm |
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self.deterministic_fa2 = deterministic_fa2 |
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self.sliding_window = sliding_window |
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self.global_attn_every_n_layers = global_attn_every_n_layers |
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self.local_attn_rotary_emb_base = local_attn_rotary_emb_base |
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self.local_attn_rotary_emb_dim = local_attn_rotary_emb_dim |
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self.unpad_embeddings = unpad_embeddings |
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self.pad_logits = pad_logits |
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self.compile_model = compile_model |
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self.masked_prediction = masked_prediction |
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self.causal_mask = causal_mask |
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if loss_kwargs.get("return_z_loss", False): |
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if loss_function != "fa_cross_entropy": |
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raise ValueError("loss_function must be 'fa_cross_entropy' when return_z_loss is True") |
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if loss_kwargs.get("lse_square_scale", 0) <= 0: |
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raise ValueError( |
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"lse_square_scale must be passed to `loss_kwargs` and must be greater than 0 for z_loss" |
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) |
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if loss_kwargs.get("inplace_backward", False): |
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self.loss_kwargs["inplace_backward"] = False |
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warnings.warn("`inplace_backward=True` will cause incorrect metrics. Automatically setting to False.") |
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if global_attn_every_n_layers > 0 and (self.num_hidden_layers - 1) % global_attn_every_n_layers != 0: |
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raise ValueError( |
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f"{global_attn_every_n_layers=} must be a divisor of one less than {self.num_hidden_layers=}" |
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) |
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if self.sliding_window != -1: |
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if not self.use_fa2: |
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raise ValueError("Sliding window attention is only supported with FlashAttention2") |
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if self.sliding_window % 2 != 0 and self.sliding_window % 64 != 0: |
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raise ValueError( |
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f"Sliding window must be an even number and divisible by 64: {self.sliding_window=} {self.sliding_window % 64} {self.sliding_window % 2}" |
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) |
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else: |
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if self.global_attn_every_n_layers != -1: |
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raise ValueError("global_attn_every_n_layers must be -1 when sliding_window is disabled") |
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if self.local_attn_rotary_emb_base != -1: |
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raise ValueError("local_attn_rotary_emb_base must be -1 when sliding_window is disabled") |
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if self.local_attn_rotary_emb_dim is not None: |
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raise ValueError("local_attn_rotary_emb_dim must be None when sliding_window is disabled") |
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if self.unpad_embeddings and self.padding != "unpadded": |
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warnings.warn( |
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"`unpad_embeddings=True` requires `padding='unpadded'`. Automatically setting `padding='unpadded'`." |
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) |
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self.padding = "unpadded" |
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if self.pad_logits and not self.unpad_embeddings: |
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raise ValueError("`pad_logits=True` requires `unpad_embeddings=True`") |
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if self.unpad_embeddings and self.embedding_layer == "absolute_pos": |
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raise ValueError(f"{self.unpad_embeddings=} is incompatible with {self.embedding_layer=}") |
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PADDING = ["unpadded", "padded"] |
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def maybe_add_padding(config: FlexBertConfig, config_option: str) -> str: |
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if config.padding not in PADDING: |
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raise ValueError(f"Invalid padding type: {config.padding}, must be one of {PADDING}") |
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if not any(config_option.startswith(pad + "_") for pad in PADDING): |
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config_option = f"{config.padding}_{config_option}" |
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return config_option |
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