cupyx.scipy.fft.dstn#

cupyx.scipy.fft.dstn(x, type=2, s=None, axes=None, norm=None, overwrite_x=False)[source]#

Compute a multidimensional Discrete Sine Transform.

Parameters:
  • x (cupy.ndarray) – The input array.

  • type ({1, 2, 3, 4}, optional) – Type of the DST (see Notes). Default type is 2.

  • s (int or array_like of ints or None, optional) – The shape of the result. If both s and axes (see below) are None, s is x.shape; if s is None but axes is not None, then s is numpy.take(x.shape, axes, axis=0). If s[i] > x.shape[i], the ith dimension is padded with zeros. If s[i] < x.shape[i], the ith dimension is truncated to length s[i]. If any element of s is -1, the size of the corresponding dimension of x is used.

  • axes (int or array_like of ints or None, optional) – Axes over which the DST is computed. If not given, the last len(s) axes are used, or all axes if s is also not specified.

  • norm ({"backward", "ortho", "forward"}, optional) – Normalization mode (see Notes). Default is “backward”.

  • overwrite_x (bool, optional) – If True, the contents of x can be destroyed; the default is False.

Returns:

y – The transformed input array.

Return type:

cupy.ndarray of real

See also

scipy.fft.dstn()

Notes

For full details of the DST types and normalization modes, as well as references, see scipy.fft.dst().