accelerate-fft-1.2.0.0: FFT using the Accelerate library

Copyright [2012..2017] Manuel M T Chakravarty Gabriele Keller Trevor L. McDonell[2013..2017] Robert Clifton-Everest BSD3 Trevor L. McDonell experimental non-portable (GHC extensions) None Haskell98

Data.Array.Accelerate.Math.DFT.Centre

Description

These transforms allow the centering of the frequency domain of a DFT such that the zero frequency is in the middle. The centering transform, when performed on the input of a DFT, will cause zero frequency to be centred in the middle. The shifting transform however takes the output of a DFT to give the same result. Therefore the relationship between the two is:

fft(center(X)) = shift(fft(X))
Synopsis

# Documentation

centre1D :: (Elt (Complex e), RealFloat e, FromIntegral Int e) => Acc (Array DIM1 (Complex e)) -> Acc (Array DIM1 (Complex e)) Source #

Apply the centring transform to a vector

centre2D :: (Elt (Complex e), RealFloat e, FromIntegral Int e) => Acc (Array DIM2 (Complex e)) -> Acc (Array DIM2 (Complex e)) Source #

Apply the centring transform to a matrix

centre3D :: (Elt (Complex e), RealFloat e, FromIntegral Int e) => Acc (Array DIM3 (Complex e)) -> Acc (Array DIM3 (Complex e)) Source #

Apply the centring transform to a 3D array

shift1D :: Elt e => Acc (Vector e) -> Acc (Vector e) Source #

Apply the shifting transform to a vector

shift2D :: Elt e => Acc (Array DIM2 e) -> Acc (Array DIM2 e) Source #

Apply the shifting transform to a 2D array

shift3D :: Elt e => Acc (Array DIM3 e) -> Acc (Array DIM3 e) Source #

Apply the shifting transform to a 3D array