MultiHeadAttention layer.
Inherits From: Layer
, Module
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`tf.compat.v1.keras.layers.MultiHeadAttention`
tf.keras.layers.MultiHeadAttention(
num_heads,
key_dim,
value_dim=None,
dropout=0.0,
use_bias=True,
output_shape=None,
attention_axes=None,
kernel_initializer='glorot_uniform',
bias_initializer='zeros',
kernel_regularizer=None,
bias_regularizer=None,
activity_regularizer=None,
kernel_constraint=None,
bias_constraint=None,
**kwargs
)
This is an implementation of multi-headed attention as described in the
paper "Attention is all you Need" (Vaswani et al., 2017).
If query
, key,
value
are the same, then
this is self-attention. Each timestep in query
attends to the
corresponding sequence in key
, and returns a fixed-width vector.
This layer first projects query
, key
and value
. These are
(effectively) a list of tensors of length num_attention_heads
, where the
corresponding shapes are (batch_size, <query dimensions>, key_dim)
,
(batch_size, <key/value dimensions>, key_dim)
,
(batch_size, <key/value dimensions>, value_dim)
.
Then, the query and key tensors are dot-producted and scaled. These are
softmaxed to obtain attention probabilities. The value tensors are then
interpolated by these probabilities, then concatenated back to a single
tensor.
Finally, the result tensor with the last dimension as value_dim can take an
linear projection and return.
When using MultiHeadAttention inside a custom Layer, the custom Layer must
implement build()
and call MultiHeadAttention's _build_from_signature()
.
This enables weights to be restored correctly when the model is loaded.
functions when used in a custom Layer.
Examples:
Performs 1D cross-attention over two sequence inputs with an attention mask.
Returns the additional attention weights over heads.
layer = MultiHeadAttention(num_heads=2, key_dim=2)
target = tf.keras.Input(shape=[8, 16])
source = tf.keras.Input(shape=[4, 16])
output_tensor, weights = layer(target, source,
return_attention_scores=True)
print(output_tensor.shape)
(None, 8, 16)
print(weights.shape)
(None, 2, 8, 4)
Performs 2D self-attention over a 5D input tensor on axes 2 and 3.
layer = MultiHeadAttention(
num_heads=2, key_dim=2, attention_axes=(2, 3))
input_tensor = tf.keras.Input(shape=[5, 3, 4, 16])
output_tensor = layer(input_tensor, input_tensor)
print(output_tensor.shape)
(None, 5, 3, 4, 16)
Args |
num_heads
|
Number of attention heads.
|
key_dim
|
Size of each attention head for query and key.
|
value_dim
|
Size of each attention head for value.
|
dropout
|
Dropout probability.
|
use_bias
|
Boolean, whether the dense layers use bias vectors/matrices.
|
output_shape
|
The expected shape of an output tensor, besides the batch
and sequence dims. If not specified, projects back to the key feature
dim.
|
attention_axes
|
axes over which the attention is applied. None means
attention over all axes, but batch, heads, and features.
|
kernel_initializer
|
Initializer for dense layer kernels.
|
bias_initializer
|
Initializer for dense layer biases.
|
kernel_regularizer
|
Regularizer for dense layer kernels.
|
bias_regularizer
|
Regularizer for dense layer biases.
|
activity_regularizer
|
Regularizer for dense layer activity.
|
kernel_constraint
|
Constraint for dense layer kernels.
|
bias_constraint
|
Constraint for dense layer kernels.
|
Call arguments |
query
|
Query Tensor of shape (B, T, dim) .
|
value
|
Value Tensor of shape (B, S, dim) .
|
key
|
Optional key Tensor of shape (B, S, dim) . If not given, will use
value for both key and value , which is the most common case.
|
attention_mask
|
a boolean mask of shape (B, T, S) , that prevents
attention to certain positions. The boolean mask specifies which query
elements can attend to which key elements, 1 indicates attention and 0
indicates no attention. Broadcasting can happen for the missing batch
dimensions and the head dimension.
|
return_attention_scores
|
A boolean to indicate whether the output should
be (attention_output, attention_scores) if True , or
attention_output if False . Defaults to False .
|
training
|
Python boolean indicating whether the layer should behave in
training mode (adding dropout) or in inference mode (no dropout).
Defaults to either using the training mode of the parent layer/model,
or False (inference) if there is no parent layer.
|
use_causal_mask
|
A boolean to indicate whether to apply a causal mask to
prevent tokens from attending to future tokens (e.g., used in a decoder
Transformer).
|
Returns |
attention_output
|
The result of the computation, of shape (B, T, E) ,
where T is for target sequence shapes and E is the query input last
dimension if output_shape is None . Otherwise, the multi-head outputs
are projected to the shape specified by output_shape .
|
attention_scores
|
[Optional] multi-head attention coefficients over
attention axes.
|