scipy.fftpack.next_fast_len#
- scipy.fftpack.next_fast_len(target)[source]#
Find the next fast size of input data to
fft
, for zero-padding, etc.SciPy’s FFTPACK has efficient functions for radix {2, 3, 4, 5}, so this returns the next composite of the prime factors 2, 3, and 5 which is greater than or equal to target. (These are also known as 5-smooth numbers, regular numbers, or Hamming numbers.)
- Parameters:
- targetint
Length to start searching from. Must be a positive integer.
- Returns:
- outint
The first 5-smooth number greater than or equal to target.
Notes
Added in version 0.18.0.
Examples
On a particular machine, an FFT of prime length takes 133 ms:
>>> from scipy import fftpack >>> import numpy as np >>> rng = np.random.default_rng() >>> min_len = 10007 # prime length is worst case for speed >>> a = rng.standard_normal(min_len) >>> b = fftpack.fft(a)
Zero-padding to the next 5-smooth length reduces computation time to 211 us, a speedup of 630 times:
>>> fftpack.next_fast_len(min_len) 10125 >>> b = fftpack.fft(a, 10125)
Rounding up to the next power of 2 is not optimal, taking 367 us to compute, 1.7 times as long as the 5-smooth size:
>>> b = fftpack.fft(a, 16384)