mindspore.ops.LayerNorm

class mindspore.ops.LayerNorm(begin_norm_axis=1, begin_params_axis=1, epsilon=1e-07)[source]

Applies the Layer Normalization to the input tensor.

This operator will normalize the input tensor on given axis. LayerNorm is described in the paper Layer Normalization.

\[y = \frac{x - mean}{\sqrt{variance + \epsilon}} * \gamma + \beta\]

where \(\gamma\) is scale, \(\beta\) is bias, \(\epsilon\) is epsilon.

Parameters
  • begin_norm_axis (int) – The begin axis of the input_x to apply LayerNorm, the value must be in [-1, rank(input_x)). Default: 1 .

  • begin_params_axis (int) – The begin axis of the parameter input (gamma, beta) to apply LayerNorm, the value must be in [-1, rank(input_x)). Default: 1 .

  • epsilon (float) – A value added to the denominator for numerical stability(\(\epsilon\)). Default: 1e-7 .

Inputs:
  • input_x (Tensor) - Tensor of shape \((N, \ldots)\). The input of LayerNorm. Supported dtypes: float16, float32, float64.

  • gamma (Tensor) - Learnable parameter \(\gamma\) . Tensor of shape input_x_shape[begin_params_axis:]. Supported dtypes: float16, float32, float64.

  • beta (Tensor) - Learnable parameter \(\beta\) . Tensor of shape input_x_shape[begin_params_axis:]. Supported dtypes: float16, float32, float64.

Outputs:

tuple[Tensor], tuple of 3 tensors, the normalized input and the updated parameters.

  • output_x (Tensor) - The normalized input, has the same type and shape as the input_x.

  • mean (Tensor) - The first begin_norm_axis dimensions of mean shape is the same as input_x, and the remaining dimensions are 1. Suppose the shape of the input_x is \((x_1, x_2, \ldots, x_R)\), the shape of the mean is \((x_1, \ldots, x_{begin\_norm\_axis}, 1, \ldots, 1)\) (when begin_norm_axis=0, the shape of mean is \((1, \ldots, 1)\) ).

  • rstd (Tensor) - The reciprocal of the input standard deviation. Shape is the same as mean .

Raises
  • TypeError – If begin_norm_axis or begin_params_axis is not an int.

  • TypeError – If epsilon is not a float.

  • TypeError – If input_x, gamma or beta is not a Tensor.

Supported Platforms:

Ascend GPU CPU

Examples

>>> import mindspore
>>> import numpy as np
>>> from mindspore import Tensor, ops
>>> input_x = Tensor(np.array([[1, 2, 3], [1, 2, 3]]), mindspore.float32)
>>> gamma = Tensor(np.ones([3]), mindspore.float32)
>>> beta = Tensor(np.ones([3]), mindspore.float32)
>>> layer_norm = ops.LayerNorm()
>>> output, _, _ = layer_norm(input_x, gamma, beta)
>>> print(output)
[[-0.2247448  1.         2.2247448]
 [-0.2247448  1.         2.2247448]]