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I have been working with computer matrix multiplications on last months and I have made some tests using openMP and eigen3.

The tests were made on the follow machines:

Computer 1:

Intel Core i7-3610QM CPU @ 2,30GHz / 6 GB ddr3

Computer 2:

Six-Core AMD Opteron(tm) Processor 2435 2.60 GHz (2 processors) / 16 GB

For the openMP the follow matrix-matrix multiplication algorithm was used:

void matrix4openmp(void)
{
    int j;

#pragma omp parallel for 
for (j=0;j<N; j+=2){
  double v1[N],v2[N];
    int i,k;
  for (i=0;i<N; i++){
     v1[i]=b[i][j];
     v2[i]=b[i][j+1];
  }

  for (i=0; i<N;i+=2){
     register double s00,s01,s10,s11;
     s00=s01=s10=s11=0.0;
     for (k=0;k<N;k++){
        s00 += a[i]  [k] * v1[k];
        s01 += a[i]  [k] * v2[k];
        s10 += a[i+1][k] * v1[k];
        s11 += a[i+1][k] * v2[k];
     }
     c[i]  [j]   =s00;
     c[i]  [j+1] =s01;
     c[i+1][j]   =s10;
     c[i+1][j+1]   =s11;
  }
}

The results were the follow:

____________Computer 1___Computer 2

Sequential___232,75600____536,21400

OpenMP_____2,75764_____7,62024

Eigen3______3,35090_____1,92970

*The time is in seconds.

*The matrix sizes were 2700 x 2500 and 2500 x 2700.

*The sequential algorithms isn't the same of the OMP, it's the most simple version of m-m multiplication and can be seen here: http://pastebin.com/Pc9AKAE8.

*SSE2 instructions were activated for the eigen3 tests.

*OpenMP uses the default cores, this' all the cores that windows detect including virtual ones.

As you can see the OpenMP version is faster on the first computer (i7) than the eigen3 version. However for the computer 2 (2x Opteron) the performance of eigen3 complete beats the OpenMP version plus all the tests made in the computer 1.

Any idea why I get this results and why eigen3 isn't so fast in the computer 1 as in computer 2?

Regards,

Fábio Bento

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1  
Can you make all the implementations use SSE2? The Opteron has more and faster cores for raw memory clock pumping that makes this a distinctly uneven test. I would recommend at least equalising the instruction set (by compilation) and number of cores used. (taskset). –  Steve-o Dec 10 '12 at 14:16
    
@High Performance Mark I forgot to add that the sequential version doesn't use the same algorithm that I posted it uses the most simple version, which doesn't use any optimizations. It's this one: pastebin.com/Pc9AKAE8 That's why it's probably much slower since it should be using only ram intead of caches and registers. –  RandomGuy Dec 10 '12 at 15:22
    
@Steve-o I will try with SSE enabled in sequential and OpenMP and report it to you. The number of cores used is the default of openMP, this's all the virtual processors that windows detect in each machine (8 in computer_1 and 12 in computer_2). When you mean "raw memory clock pumping", are you talking about the ram-cpu data transfer? –  RandomGuy Dec 10 '12 at 15:22
    
@Steve-o Where's some interesting tests, with the same number of threads for both cpus (4 threads) and SSE2 enabled for all tests: pastebin.com/mkWCicb7 This seems to makes much more sense now. Seems that the i7 works much slower with 8 threads than 4 since it only have 4 physically processors. I'll probably test again with the number of threads set to the number of physically processors instead of counting with virtual ones too. –  RandomGuy Dec 10 '12 at 22:29
    
You should keep the following things in mind: 1. Eigen3 has a built-in parallelization of matrix-matrix products using OpenMP (if you compile it with -fopenmp) 2. Eigen should be compiled with compiler optimizations enabled (-O2 or -O3) and assertions disabled (-DNDEBUG). –  Robert Rüger Jan 15 '13 at 15:48

1 Answer 1

up vote 1 down vote accepted

Thanks for your answers.

The huge difference between the sequential and the parallel versions is due to be different algorithms being used. The sequential version uses the usual naïve O(N^3) without any optimizations, whilst the parallel versions are optimized versions – using blocks. Using the same algorithm the sequential version times are about 10 (computer 1) and 50 (for computer 2) – sorry should have put these values in the first post.

The difference between Eigen3 performance vs OpenMP performance in the first and second computer seems to be due the number of threads launched vs the number of physical processors available. We found that the performance of Eigen3 gets worse if the number of threads launched is bigger than the available number of physical processors and this is not the case for OpenMP

In the tests the number of threads launched for both cases was equal to the number total processors (virtual + physical).

In computer 1 the Eigen3 performance is worse because the number of total processors (virtual + physical - – due to hyperthreading) is greater than the number of physical processors.

In computer 2 the Eigen3 performance is better because the total number of processors is the same as the number of the physical processors. If we use the double of number of physical processors for the number of threads the performance of Eigen3 also degrades and the openMP in fact improves a little.

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