Discrete Fourier transforms (scipy.fftpack)¶
Fast Fourier Transforms (FFTs)¶
fft(x[, n, axis, overwrite_x]) | Return discrete Fourier transform of real or complex sequence. |
ifft(x[, n, axis, overwrite_x]) | Return discrete inverse Fourier transform of real or complex sequence. |
fft2(x[, shape, axes, overwrite_x]) | 2-D discrete Fourier transform. |
ifft2(x[, shape, axes, overwrite_x]) | 2-D discrete inverse Fourier transform of real or complex sequence. |
fftn(x[, shape, axes, overwrite_x]) | Return multidimensional discrete Fourier transform. |
ifftn(x[, shape, axes, overwrite_x]) | Return inverse multi-dimensional discrete Fourier transform of |
rfft(x[, n, axis, overwrite_x]) | Discrete Fourier transform of a real sequence. |
irfft(x[, n, axis, overwrite_x]) | Return inverse discrete Fourier transform of real sequence x. |
dct(x[, type, n, axis, norm, overwrite_x]) | Return the Discrete Cosine Transform of arbitrary type sequence x. |
idct(x[, type, n, axis, norm, overwrite_x]) | Return the Inverse Discrete Cosine Transform of an arbitrary type sequence. |
Differential and pseudo-differential operators¶
diff(x[, order, period, _cache]) | Return k-th derivative (or integral) of a periodic sequence x. |
tilbert(x, h[, period, _cache]) | Return h-Tilbert transform of a periodic sequence x. |
itilbert(x, h[, period, _cache]) | Return inverse h-Tilbert transform of a periodic sequence x. |
hilbert(x[, _cache]) | Return Hilbert transform of a periodic sequence x. |
ihilbert(x) | Return inverse Hilbert transform of a periodic sequence x. |
cs_diff(x, a, b[, period, _cache]) | Return (a,b)-cosh/sinh pseudo-derivative of a periodic sequence. |
sc_diff(x, a, b[, period, _cache]) | Return (a,b)-sinh/cosh pseudo-derivative of a periodic sequence x. |
ss_diff(x, a, b[, period, _cache]) | Return (a,b)-sinh/sinh pseudo-derivative of a periodic sequence x. |
cc_diff(x, a, b[, period, _cache]) | Return (a,b)-cosh/cosh pseudo-derivative of a periodic sequence. |
shift(x, a[, period, _cache]) | Shift periodic sequence x by a: y(u) = x(u+a). |
Helper functions¶
fftshift(x[, axes]) | Shift the zero-frequency component to the center of the spectrum. |
ifftshift(x[, axes]) | The inverse of fftshift. |
fftfreq(n[, d]) | Return the Discrete Fourier Transform sample frequencies. |
rfftfreq(n[, d]) | DFT sample frequencies (for usage with rfft, irfft). |
Convolutions (scipy.fftpack.convolve)¶
convolve | convolve - Function signature: |
convolve_z | convolve_z - Function signature: |
init_convolution_kernel | init_convolution_kernel - Function signature: |
destroy_convolve_cache | destroy_convolve_cache - Function signature: |
Other (scipy.fftpack._fftpack)¶
drfft | drfft - Function signature: |
zfft | zfft - Function signature: |
zrfft | zrfft - Function signature: |
zfftnd | zfftnd - Function signature: |
destroy_drfft_cache | destroy_drfft_cache - Function signature: |
destroy_zfft_cache | destroy_zfft_cache - Function signature: |
destroy_zfftnd_cache | destroy_zfftnd_cache - Function signature: |