Ifft

Computes the one dimensional inverse discrete Fourier transform of input.

Usage

torch_fft_ifft(self, n = NULL, dim = -1L, norm = NULL)

Arguments

self

(Tensor) the input tensor

n

(int, optional) – Signal length. If given, the input will either be zero-padded or trimmed to this length before computing the IFFT.

dim

(int, optional) – The dimension along which to take the one dimensional IFFT.

norm

(str, optional) – Normalization mode. For the backward transform, these correspond to:

• "forward" - no normalization

• "backward" - normalize by 1/n

• "ortho" - normalize by 1/sqrt(n) (making the IFFT orthonormal) Calling the forward transform with the same normalization mode will apply an overall normalization of 1/n between the two transforms. This is required to make ifft() the exact inverse. Default is "backward" (normalize by 1/n).

Examples

if (torch_is_installed()) {
t <- torch_arange(start = 0, end = 3)
t
x <- torch_fft_fft(t, norm = "backward")
torch_fft_ifft(x)


}
#> torch_tensor
#> ℹ Use `$real` or `$imag` to print the contents of this tensor.
#> [ CPUComplexFloatType{4} ]