ihfft

ihfft(x: array, /, *, n: int | None = None, axis: int = -1, norm: Literal['backward', 'ortho', 'forward'] = 'backward') → array

Computes the one-dimensional inverse discrete Fourier transform of a signal with Hermitian symmetry.

Parameters:

• x (array) – input array. Must have a real-valued floating-point data type.

• n (Optional[int]) –

  number of elements over which to compute the transform along the axis (dimension) specified by axis. Let M be the size of the input array along the axis specified by axis. When n is None, the function must set n equal to M.

  • If n is greater than M, the axis specified by axis must be zero-padded to size n.

  • If n is less than M, the axis specified by axis must be trimmed to size n.

  • If n equals M, all elements along the axis specified by axis must be used when computing the transform.

  Default: None.

• axis (int) – axis (dimension) of the input array over which to compute the transform. A valid axis must be an integer on the interval [-N, N), where N is the rank (number of dimensions) of x. If an axis is specified as a negative integer, the function must determine the axis along which to compute the transform by counting backward from the last dimension (where -1 refers to the last dimension). Default: -1.

• norm (Literal['backward', 'ortho', 'forward']) –

  normalization mode. Should be one of the following modes:

  • 'backward': normalize by 1/n.

  • 'ortho': normalize by 1/sqrt(n) (i.e., make the FFT orthonormal).

  • 'forward': no normalization.

  Default: 'backward'.

Returns:

out (array) – an array transformed along the axis (dimension) specified by axis. The returned array must have a complex floating-point data type whose precision matches the precision of x (e.g., if x is float64, then the returned array must have a complex128 data type). The returned array must have the same shape as x, except for the axis specified by axis which must have size n//2 + 1.

Notes

New in version 2022.12.