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torch.pow

torch.pow(input, exponent, *, out=None) Tensor

Takes the power of each element in input with exponent and returns a tensor with the result.

exponent can be either a single float number or a Tensor with the same number of elements as input.

When exponent is a scalar value, the operation applied is:

outi=xiexponent\text{out}_i = x_i ^ \text{exponent}

When exponent is a tensor, the operation applied is:

outi=xiexponenti\text{out}_i = x_i ^ {\text{exponent}_i}

When exponent is a tensor, the shapes of input and exponent must be broadcastable.

Parameters
  • input (Tensor) – the input tensor.

  • exponent (float or tensor) – the exponent value

Keyword Arguments

out (Tensor, optional) – the output tensor.

Example:

>>> a = torch.randn(4)
>>> a
tensor([ 0.4331,  1.2475,  0.6834, -0.2791])
>>> torch.pow(a, 2)
tensor([ 0.1875,  1.5561,  0.4670,  0.0779])
>>> exp = torch.arange(1., 5.)

>>> a = torch.arange(1., 5.)
>>> a
tensor([ 1.,  2.,  3.,  4.])
>>> exp
tensor([ 1.,  2.,  3.,  4.])
>>> torch.pow(a, exp)
tensor([   1.,    4.,   27.,  256.])
torch.pow(self, exponent, *, out=None) Tensor

self is a scalar float value, and exponent is a tensor. The returned tensor out is of the same shape as exponent

The operation applied is:

outi=selfexponenti\text{out}_i = \text{self} ^ {\text{exponent}_i}
Parameters
  • self (float) – the scalar base value for the power operation

  • exponent (Tensor) – the exponent tensor

Keyword Arguments

out (Tensor, optional) – the output tensor.

Example:

>>> exp = torch.arange(1., 5.)
>>> base = 2
>>> torch.pow(base, exp)
tensor([  2.,   4.,   8.,  16.])

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