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https://github.com/ml-explore/mlx-examples.git
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Updating BERT model to take advantage of bias param in MultiHeadAttention
This commit is contained in:
Joe Barrow
parent
46c6bbe0a1
commit
5d4838b02e
@ -7,7 +7,6 @@ import mlx.core as mx
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import mlx.nn as nn
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import argparse
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import numpy
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import math
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@dataclass
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@ -34,74 +33,6 @@ model_configs = {
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}
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class MultiHeadAttention(nn.Module):
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"""
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Minor update to the MultiHeadAttention module to ensure that the
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projections use bias.
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"""
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def __init__(
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self,
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dims: int,
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num_heads: int,
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query_input_dims: Optional[int] = None,
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key_input_dims: Optional[int] = None,
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value_input_dims: Optional[int] = None,
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value_dims: Optional[int] = None,
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value_output_dims: Optional[int] = None,
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):
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super().__init__()
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if (dims % num_heads) != 0:
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raise ValueError(
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f"The input feature dimensions should be divisible by the number of heads ({dims} % {num_heads}) != 0"
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)
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query_input_dims = query_input_dims or dims
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key_input_dims = key_input_dims or dims
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value_input_dims = value_input_dims or key_input_dims
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value_dims = value_dims or dims
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value_output_dims = value_output_dims or dims
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self.num_heads = num_heads
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self.query_proj = nn.Linear(query_input_dims, dims, True)
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self.key_proj = nn.Linear(key_input_dims, dims, True)
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self.value_proj = nn.Linear(value_input_dims, value_dims, True)
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self.out_proj = nn.Linear(value_dims, value_output_dims, True)
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def __call__(self, queries, keys, values, mask=None):
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queries = self.query_proj(queries)
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keys = self.key_proj(keys)
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values = self.value_proj(values)
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num_heads = self.num_heads
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B, L, D = queries.shape
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_, S, _ = keys.shape
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queries = queries.reshape(B, L, num_heads, -1).transpose(0, 2, 1, 3)
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keys = keys.reshape(B, S, num_heads, -1).transpose(0, 2, 3, 1)
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values = values.reshape(B, S, num_heads, -1).transpose(0, 2, 1, 3)
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# Dimensions are [batch x num heads x sequence x hidden dim]
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scale = math.sqrt(1 / queries.shape[-1])
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scores = (queries * scale) @ keys
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if mask is not None:
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mask = self.convert_mask_to_additive_causal_mask(mask)
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mask = mx.expand_dims(mask, (1, 2))
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mask = mx.broadcast_to(mask, scores.shape)
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scores = scores + mask.astype(scores.dtype)
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scores = mx.softmax(scores, axis=-1)
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values_hat = (scores @ values).transpose(0, 2, 1, 3).reshape(B, L, -1)
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return self.out_proj(values_hat)
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def convert_mask_to_additive_causal_mask(
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self, mask: mx.array, dtype: mx.Dtype = mx.float32
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) -> mx.array:
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mask = mask == 0
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mask = mask.astype(dtype) * -1e9
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return mask
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class TransformerEncoderLayer(nn.Module):
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"""
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A transformer encoder layer with (the original BERT) post-normalization.
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@ -116,7 +47,7 @@ class TransformerEncoderLayer(nn.Module):
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):
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super().__init__()
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mlp_dims = mlp_dims or dims * 4
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self.attention = MultiHeadAttention(dims, num_heads)
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self.attention = nn.MultiHeadAttention(dims, num_heads, bias=True)
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self.ln1 = nn.LayerNorm(dims, eps=layer_norm_eps)
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self.ln2 = nn.LayerNorm(dims, eps=layer_norm_eps)
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self.linear1 = nn.Linear(dims, mlp_dims)
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@ -186,11 +117,26 @@ class Bert(nn.Module):
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self,
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input_ids: mx.array,
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token_type_ids: mx.array,
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attention_mask: Optional[mx.array] = None,
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attention_mask: mx.array = None,
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) -> tuple[mx.array, mx.array]:
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x = self.embeddings(input_ids, token_type_ids)
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if attention_mask is not None:
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# convert 0's to -infs, 1's to 0's, and make it broadcastable
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attention_mask = self.convert_mask_to_additive_causal_mask(attention_mask)
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attention_mask = mx.expand_dims(attention_mask, (1, 2))
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y = self.encoder(x, attention_mask)
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return y, mx.tanh(self.pooler(y[:, 0]))
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def convert_mask_to_additive_causal_mask(
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self, mask: mx.array, dtype: mx.Dtype = mx.float32
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) -> mx.array:
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mask = mask == 0
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mask = mask.astype(dtype) * -1e9
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return mask
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def load_model(bert_model: str, weights_path: str) -> tuple[Bert, BertTokenizer]:
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@ -214,7 +160,7 @@ def run(bert_model: str, mlx_model: str):
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"A second string",
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"This is another string.",
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]
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tokens = tokenizer(batch, return_tensors="np", padding=True)
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tokens = {key: mx.array(v) for key, v in tokens.items()}
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