LayerNorm¶
- class torch.nn.LayerNorm(normalized_shape, eps=1e-05, elementwise_affine=True, device=None, dtype=None)[source]¶
Applies Layer Normalization over a mini-batch of inputs as described in the paper Layer Normalization
$y = \frac{x - \mathrm{E}[x]}{ \sqrt{\mathrm{Var}[x] + \epsilon}} * \gamma + \beta$The mean and standard-deviation are calculated over the last D dimensions, where D is the dimension of
normalized_shape
. For example, ifnormalized_shape
is(3, 5)
(a 2-dimensional shape), the mean and standard-deviation are computed over the last 2 dimensions of the input (i.e.input.mean((-2, -1))
). $\gamma$ and $\beta$ are learnable affine transform parameters ofnormalized_shape
ifelementwise_affine
isTrue
. The standard-deviation is calculated via the biased estimator, equivalent to torch.var(input, unbiased=False).Note
Unlike Batch Normalization and Instance Normalization, which applies scalar scale and bias for each entire channel/plane with the
affine
option, Layer Normalization applies per-element scale and bias withelementwise_affine
.This layer uses statistics computed from input data in both training and evaluation modes.
- Parameters:
normalized_shape (int or list or torch.Size) –
input shape from an expected input of size
$[* \times \text{normalized\_shape}[0] \times \text{normalized\_shape}[1] \times \ldots \times \text{normalized\_shape}[-1]]$If a single integer is used, it is treated as a singleton list, and this module will normalize over the last dimension which is expected to be of that specific size.
eps (float) – a value added to the denominator for numerical stability. Default: 1e-5
elementwise_affine (bool) – a boolean value that when set to
True
, this module has learnable per-element affine parameters initialized to ones (for weights) and zeros (for biases). Default:True
.
- Variables:
weight – the learnable weights of the module of shape $\text{normalized\_shape}$ when
elementwise_affine
is set toTrue
. The values are initialized to 1.bias – the learnable bias of the module of shape $\text{normalized\_shape}$ when
elementwise_affine
is set toTrue
. The values are initialized to 0.
- Shape:
Input: $(N, *)$
Output: $(N, *)$ (same shape as input)
Examples:
>>> # NLP Example >>> batch, sentence_length, embedding_dim = 20, 5, 10 >>> embedding = torch.randn(batch, sentence_length, embedding_dim) >>> layer_norm = nn.LayerNorm(embedding_dim) >>> # Activate module >>> layer_norm(embedding) >>> >>> # Image Example >>> N, C, H, W = 20, 5, 10, 10 >>> input = torch.randn(N, C, H, W) >>> # Normalize over the last three dimensions (i.e. the channel and spatial dimensions) >>> # as shown in the image below >>> layer_norm = nn.LayerNorm([C, H, W]) >>> output = layer_norm(input)