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New to SO. I am test-driving Armadillo+OpenBLAS, and a simple Monte-Carlo geometric Brownian motion logic shows much longer runtime than MATLAB. I believe something must be wrong.

Environment: Intel i-5 4 core, 8GB ram, VS 2012 Express, Armadillo 4.2, OpenBLAS (official x64 binary) v0.2.9.rc2,

MATLAB takes 2 seconds for the same logic, but Armadillo+OB takes 12 seconds. I also noticed that the program is running on single thread, but I turned to OpenBLAS because I heard of its multi-core capability.

Thanks for any advice.

#include <iostream>
#include <armadillo>
#include <ctime>

using namespace std;
using namespace arma;

int main()
clock_t start;
start = clock();
unsigned int R=100000;
vec Spre = 100*ones<vec> (R);
vec S = zeros<vec> (R);
double r = 0.03;
double Vol = 0.2;
double TTM = 5;
unsigned int T=260*TTM;
double dt = TTM/T;
for (unsigned int iT=0; iT<T; ++iT)
    S = Spre%exp((r-0.5*Vol*Vol)*dt + Vol*sqrt(dt)*randn(R));
    Spre = S;
cout << mean(S) << endl;
cout << (clock()-start) / (double) CLOCKS_PER_SEC << endl;
return 0;
share|improve this question
It looks like the loop doesn't end up calling any BLAS functions, so OpenBLAS is probably not the issue. I suspect that optimization and vectorization need to be explicitly enabled within your compiler. Armadillo is a template library, and as for all template libraries, optimization during compilation is an absolute must. Also bear in mind that the MS VS compiler is not known for robustness or generating fast code. Far better performance can be achieved by the GCC or Intel C++ compiler. You can get GCC for Windows via the minGW project. –  mtall Apr 26 '14 at 0:27
Further updates: Seems to be the randn(R) that slows the entire logic down. Switched to zeros<vec>(R) then completed in less than 2 seconds. Switched to randn(R) then again 12 seconds... This is more likely the Armadillo problem rather than an OpenBLAS problem. Very frustrating... –  AndreasBVB Apr 26 '14 at 1:44
@mtall switched to Eclipse+MinGW, now runs 52 seconds... really lost... –  AndreasBVB Apr 26 '14 at 4:35
What are your compiler invocations? If you're running an unoptimized build things are bound to be slow. –  rubenvb Sep 22 '14 at 10:01

3 Answers 3

up vote 1 down vote accepted

Key observation is that Armadillo exp() function is way slower than MATLAB. Similar overhead is observed in log(), pow() and sqrt().

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Armadillo ends up calling std::exp(), std::log(), etc, which means the speed issue is with the std:: functions (ie. from the standard C++ library). How these functions are implemented is dependent on each operating system and/or compiler. On Windows + VS this may not be that great. –  mtall Nov 27 '14 at 1:53
Thanks @mtall. I switched to MinGW64 and ended up with the same disappointing performance. Should I try Linux+GCC? –  AndreasBVB Nov 28 '14 at 2:42
Try using the -ffast-math option with gcc, which relaxes some of the strict safety guarantees. Often this speeds up programs. Otherwise you may want to look at using the vdexp() function from Intel MKL, which can be easily interfaced with Armadillo vectors and matrices. Matlab internally uses MKL, so you'll get the same performance as Matlab. –  mtall Nov 30 '14 at 6:05

Just a guess, but it looks like you need to set the number of threads to use in OpenBLAS via the OPENBLAS_NUM_THREADS environment variable.

Try something like:


...on the command line before you run your program. Substitute the number of cores in your system where I put "4" (some would say set it to twice the number of cores in your system--YMMV).

share|improve this answer
Thanks for the quick response. I tried this: "C:\Release>set OPENBLAS_NUM_THREADS=4 C:\Release>TestOpenBLAS 116.44 12.434 Press any key to continue . . ." Did I understand your suggestion correctly? It still takes 12+ seconds, and still runs as a single thread. –  AndreasBVB Apr 25 '14 at 18:23
@AndreasBVB: First, are you running from the IDE or from the command line? It's probably best to just set the environment variable once & for all for your system (via System Properties->Advanced->Environment Variables on most Windows versions). Then make sure you restart your IDE to get a fresh environment. While you're at it, make sure you're building a "Release" build and not running via the debugger. Then we'll see what kind of performance gap remains. –  Drew Hall Apr 25 '14 at 18:31
Thanks @Drew Hall . I set the system ev, rebooted and restarted VS2012. Compiled again under x64 Release, and still get the same thing. Now I doubt it is the way binaries are made. Let me test Intel MKL sometime, then I will have a better idea. –  AndreasBVB Apr 25 '14 at 18:57
@AndreasBVB: Are you running via the debugger, or clean? You need to press the "run without debugging (shift-F5)" button if you're doing this from the VS IDE or the debugger will kill your performance. –  Drew Hall Apr 25 '14 at 19:14
I actually tried two ways: 1) Run w/o debug 2) Run from system command line. None of them helped. I have tested the same logic with ArrayFire GPU library, and it was very impressive, so now I tend to suspect that binaries are compiled as single thread... However 12-second runtime is still too long even for single thread. Thanks. –  AndreasBVB Apr 25 '14 at 20:02

Make sure you have Streaming SIMD Extensions enabled when you compile your code. In Visual Studio, check your project C/C++ compiler code generation options.

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