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I've been trying to compare the speeds of the Matlab Matrix Exponential to the Armadillo C++ Matrix Exponential. I've always been told that if you want the fastest code, use C++, but the tests I performed seem to imply that the Matlab matrix exponential is way faster. Can someone let me know if this has been verified elsewhere, or if I'm doing something wrong?

Here is how I implemented it:

The matrices I tested were sparse and a little weird, but not particularly special. The important bit is they have dimensions 2^N by 2^N. Let I = [1 0; 0 1] be the identity matrix, and X = [0 1; 1 0] be a transposition matrix. Then, for N = 1,2,3,..., I generated the matrices,

A_1 = X
A_2 = kron(X,I) + kron(I,X)
A_3 = kron(X,I,I) + kron(I,X,I) + kron(I,I,X)
A_4 = kron(X,I,I,I) + kron(I,X,I,I) + kron(I,I,X,I) + kron(I,I,I,X)

and so on... of size 2^N by 2^N, where kron(A,B,C,...) is the Kronecker Product of matrices A,B,C,..., which can be called as kron(A,kron(B,kron(C,...))) in both Armadillo and Matlab.

I used the expmat function in Armadillo v7.300.1, and clock() to record time, and compiled on Mac in the command line with

c++ exptest.cpp -o exptest -larmadillo -std=c++14

In MatlabR2015a I used the expm function and used timeit to record time.

N       Matlab expm(A) (secs)       Armadillo expmat(A) (secs)
1       2.1654E-4                   4.25E-4
2       1.3655E-4                   1.09E-4
3       1.5788E-4                   1.26E-4
4       1.4571E-4                   4.17E-4
5       2.7004E-4                   6.34E-4
6       4.4781E-4                   0.003055
7       0.0012                      0.018804
8       0.0096                      0.191102
9       0.0598                      2.11156
10      0.4210                      18.5047
11      3.1949                      150.917

Is the Matlab matrix exponential simply much faster than the Armadillo matrix exponential, or am I doing something wrong? Also, what is the fastest computational resource for matrix exponentials?

  • you should turn on compiler optimizations – formerlyknownas_463035818 Nov 6 '16 at 10:56
  • Could you tell me where to start with that? I don't know very much about compilers. – Paradox Nov 6 '16 at 11:18
  • I dont know which one you are using, e.g for gcc the default is to do no optimization and the flag is -O2 – formerlyknownas_463035818 Nov 6 '16 at 12:30
  • Thanks. I thought compiler optimisation would be related, but it doesn't seem to affect the results. I'm using a gnu compiler, and even testing the flags -O1, -O2 or -O3 still leave the computation taking similar amounts of time. With just a 1024x1024 matrix of ones (I should have used this as an easier example), armadillo with optimization takes ~12 seconds, whereas Matlab takes ~0.6 seconds. I still can't believe Matlab is blowing armadillo out of the water so much though. Unless I can identify what I'm doing wrong, I'll probably have to switch to matlab – Paradox Nov 6 '16 at 14:02
  • @user2520385 - make sure you also configure Armadillo to use a fast implementation of LAPACK, like OpenBLAS or Intel MKL. Matlab internally uses Intel MKL. – mtall Nov 7 '16 at 1:09

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