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I'm trying to better understand how numpy's memmap handles views of very large files. The script below opens a memory mapped 2048^3 array, and copies a downsampled 128^3 view of it

import numpy as np
from time import time

FILE = '/Volumes/BlackBox/test.dat'
array = np.memmap(FILE, mode='r', shape=(2048,2048,2048), dtype=np.float64)

t = time()
for i in range(5):
    view = np.array(array[::16, ::16, ::16])
t = ((time() - t) / 5) * 1000
print "Time (ms): %i" % t

Usually, this prints Time (ms): 80 or so. However, if I change the view assignment to

view = np.array(array[1::16, 2::16, 3::16])

and run it three times, I get the following:

Time (ms): 9988
Time (ms): 79
Time (ms): 78

Does anybody understand why the first invocation is so much slower?

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1 Answer 1

up vote 2 down vote accepted

The OS still has portions (or all) of the mapped file available cached in physical RAM. The initial read has to access the disk, which is a lot slower than accessing RAM. Do enough other disk IO, and you'll find that you'll get back closer to your original time, where the OS has to re-read bits it hasn't cached from disk again...

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Note that a shift of 1 in the most strided dimension will result in a shift of 32MB, which will be enough that your reads come from a disjoint set of pages. –  ecatmur Aug 6 '12 at 16:50
Thanks for the explanation - I didn't realize the OS could cache results like this –  ChrisB Aug 6 '12 at 17:07

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