cupy.fft.hfft#

cupy.fft.hfft(a, n=None, axis=-1, norm=None)[source]#

Compute the FFT of a signal that has Hermitian symmetry.

Parameters:
  • a (cupy.ndarray) – Array to be transform.

  • n (None or int) – Length of the transformed axis of the output. For n output points, n//2+1 input points are necessary. If n is not given, it is determined from the length of the input along the axis specified by axis.

  • axis (int) – Axis over which to compute the FFT.

  • norm ("backward", "ortho", or "forward") – Optional keyword to specify the normalization mode. Default is None, which is an alias of "backward".

Returns:

The transformed array which shape is specified by n and type will convert to complex if the input is other. If n is not given, the length of the transformed axis is 2*(m-1) where m is the length of the transformed axis of the input.

Return type:

cupy.ndarray

See also

numpy.fft.hfft()