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I'm writing a python program, using some external functionality from DLL. My problem is passing matrices (numpy arrays in python) in and out of C code, now i'm using following code to receive data from DLL:

peak_count = ct.c_int16()
peak_wl_array = np.zeros(512, dtype=np.double)
peak_pwr_array = np.zeros(512, dtype=np.double)

res = __dll.DLL_Search_Peaks(ctypes.c_int(data.shape[0])

It works like a charm, but my problem is numpy allocating speed - even without calling DLL (just commented) i've got 3.1 seconds per 100`000 calls.

It's just allocating with np.zeros() and taking writeable pointer with ctypes.c_void_p(D.ctypes.data)

I need to process about 20`000 calls per second, so almost all time spending on just allocating memory.

I think about cython, but it will not speed up numpy arrays, so i'll get no any profit.

Is there faster way to receive matrices-like data from C-written DLL.

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1 Answer 1

Memory operations are expensive, numpy or otherwise.

If you're going to be allocating a lot of arrays, it's a good idea to see if you can just do the allocation once, and either use views or subarrays to use just part of the array:

import numpy as np


def forig():
    for i in xrange(niters):
        peak_wl_array = np.empty((asize), dtype=np.double)
        peak_pwr_array = np.empty((asize), dtype=np.double)

    return peak_pwr_array

def fviews():
    peak_wl_arrays  = np.empty((asize*niters), dtype=np.double)
    peak_pwr_arrays = np.empty((asize*niters), dtype=np.double)

    for i in xrange(niters):
        # create views
        peak_wl_array  = peak_wl_arrays[i*asize:(i+1)*asize]
        peak_pwr_array = peak_pwr_arrays[i*asize:(i+1)*asize]
        # then do something

    return peak_pwr_emptys

def fsubemptys():
    peak_wl_arrays  = np.empty((niters,asize), dtype=np.double)
    peak_pwr_arrays = np.empty((niters,asize), dtype=np.double)

    for i in xrange(niters):
        # do something with peak_wl_arrays[i,:]

    return peak_pwr_emptys

import timeit

print timeit.timeit(forig,number=100)
print timeit.timeit(fviews,number=100)
print timeit.timeit(fsubemptys,number=100)

Running gives


Note that if you're using (say) np.zeros, on the other hand, you're spending most of your time initializing memory, not allocating memory, and that's always going to take substantially longer, erasing most of the difference between these approaches:


Good single-threaded bandwidth to main memory on newer systems is going to be something like ~10GB/s (1 billion doubles/sec), so it's always going to take about

1024 doubles/call / (1 billion doubles/sec) ~ 1 microsecond/call

to zero out the memory, which is already a significant chunk of the time that you're seeing. Still, if you initialize a single large array before making the calls, the total time of execution will be the same but the latency of each call will be lower.

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Is it the allocation that is expensive, or the initialization? I thought the second, which means np.empty is (a lot) faster than np.zeros. –  Evert Jul 3 '14 at 14:23
Note: my comment refers to your first paragraph. The last paragraph answers it, but I think that would be better suited at the start of your answer; that may be the main issue here. –  Evert Jul 3 '14 at 14:25
Sorry, @Evert , you're quite right, I was just adding that part ... do you think it makes more sense now that I've added that bit, or should I still re-factor it as per your suggestion? –  Jonathan Dursi Jul 3 '14 at 14:26
I can't allocate all memory at once due to processing specifics. Note, that most "expensive" operation is not array allocation, but retrieving pointer that can be passed to DLL by calling ctypes.c_void_p(data_array.ctypes.data) –  Makc Jul 4 '14 at 8:48
@Makc can you update your question with the data that shows which the time breakdown? I bought that you had a bottleneck even with that part commented out. –  Jonathan Dursi Jul 4 '14 at 12:28

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