# Matrix multiplication running times Python < C++ < Matlab - Explain

I have a matrix `M` thats's `16384 x 81`. I want to compute `M * M.t` (the result will be `16384x16384`).

My question is: could somebody please explain the running time differences?

Using OpenCV in C++ the following code takes 18 seconds

``````#include <cv.h>
#include <cstdio>
using namespace cv;
int main(void) {
Mat m(16384, 81, CV_32FC1);
randu(m, Scalar(0), Scalar(1));
int64 tic = getTickCount();
Mat m2 = m * m.t();
printf("%f", (getTickCount() - tic) / getTickFrequency());
}
``````

In Python the following code takes only 0.9 seconds 18.8 seconds (see comment below)

``````import numpy as np
from time import time
m = np.random.rand(16384, 81)
tic = time()
result = np.dot(m, m.T)
print (time() - tic)
``````

In MATLAB the following code takes 17.7 seconds

``````m = rand(16384, 81);
tic;
result = m * m';
toc;
``````

My only guess would have been that it's a memory issue, and that somehow Python is able to avoid swap space. When I watch `top`, however, I do not see my `C++ application` using all the memory, and I had expected that `C++` would win the day. Thanks for any insights.

Edit

After revising my examples to time only the operation, the code now takes 18 seconds with Python, also. I'm really not sure what's going on, but if there's enough memory, they all seem to perform the same now.

Here are timings if the number of rows is 8192: C++: 4.5 seconds Python: 4.2 seconds Matlab: 1.8 seconds

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the computational intensive routines in numpy are written in C, so it's not surprising that numpy is this fast -- but not sure why it is much faster than OpenCV. –  Jesse Cohen Feb 19 '11 at 15:13
@Geoff, why do you measure the time of `rand()`? If you want to measure GEMM (multiply time), you should not measure a rand time. Also, there can be a startup time of the programm. –  osgx Feb 19 '11 at 15:17
So much for Python being slow! ;) –  delnan Feb 19 '11 at 15:19
I added timing code around the operation itself to each of the examples. It turns out that simply doing this bumped Python's time up to 18 seconds. Do you think I should close this? I don't want to confuse future readers. –  Geoff Feb 19 '11 at 15:34
@Jesse Cohen: It does not depend on `C`. `numpy` just is capable to use proper libraries. However so is `matlab` as well, so they should be close to each other. There is no `Python` magic here. Thanks –  eat Feb 19 '11 at 15:35

What CPU are you running on? For modern x86 and x64 chips with dynamic clocking, `getTickCount` and `getTickFrequency` cannot be trusted.

18 seconds is long enough to get acceptable precision from the standard OS functions based on the timer interrupt.

And what BLAS are you using with OpenCV? MatLab installs some highly optimized ones, IIRC even detecting your CPU and loading either Intel's or AMD's math library appropriately.

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