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I'm new to fortran and to gfortran. I learned that whole expression arrays are calculated in parallel, but I see that calculations only take place in just one core of my computer.

I use the following code:

program prueba_matrices

 implicit none

 integer, parameter                             :: num = 5000
 double precision, dimension(1:num,1:num)       :: A, B, C
 double precision, dimension (num*num)          :: temp
 integer                               :: i

 temp = (/ (i/2.0, i=1,num*num) /)
 A = reshape(temp, (/ num, num/) )
 B = reshape(temp, (/ num, num/) )
 C = matmul(A , B)

end program prueba_matrices

I complie like this:

gfortran prueba_matrices.f03 -o prueba_gfortran

And, watching the graphs produced in real time by gnome-system-monitor, I can see that there is only one core working. If I substitute the line with the calculation

  C = matmul(A , B)

for

  C = A * B

It yields the same behaviour.

What am I doing wrong?

share|improve this question
    
@HighPerformanceMark: I think that he is just testing the parallelization of arrays and not the mathematics... – Kyle Kanos Jul 1 '13 at 13:46
    
Where did you see that statement that gfortran executes whole array expressions in parallel? – M. S. B. Jul 1 '13 at 14:01
    
@HighPerformanceMark : Yes, I know the two sentences are not the same. As KyleKanos says, I'm just testing the parallelization. – Antonio Serrano Jul 2 '13 at 10:29
    
@M.S.B : The referred statementet is in this fortran course – Antonio Serrano Jul 2 '13 at 10:30

GFortran/GCC does have some automatic parallelization features, see http://gcc.gnu.org/wiki/AutoParInGCC . They are frequently not that good, so they are not enabled at any of the -ON optimization levels, you have to select it specifically with -ftree-parallelize-loops=N, where N is the number of threads you want to use. Note however that in your example above a loop like "A*B" is likely constrainet by memory bandwidth (for sufficiently large arrays), and thus adding cores might not help that much. Furthermore, the MATMUL intrinsic leads to an implementation in the gfortran runtime library, which is not compiled with the autopar options (unless you have specifically built it that way).

What could help your example code above more is to actually enable any optimization at all. With -O3 Gfortran automatically enables vectorization, which can be seen as a way to parallelize loops as well, although not over several cpu cores.

share|improve this answer
    
Note that -ftree-parallelize-loops=N is for parallelizing loops, which the OP has only 1. This likely will not help for matmul(A,B). – Kyle Kanos Jul 1 '13 at 14:00
1  
@KyleKanos: Indeed, I thought that my sentence about the MATMUL implementation being a library routine made that point already, although perhaps implicitly. – janneb Jul 1 '13 at 14:12
    
I guess my point was that the program will be spending a lot more time on the matmul part of the code than the loop part (dropping 5000-->1500 and no compilation options, I get 0.05 sec for the loop and 5 sec for matmul calculation!). Whatever time is going to be saved in the loop parallelization is going to be completely irrelevant for the whole code above. – Kyle Kanos Jul 1 '13 at 14:30
    
Now that I think about it: I suppose the OP was wanting to see if AutoPar of vectors/arrays was true or not. If his intention is to use the knowledge in multiple loops, your suggestion is 100% correct. For this problem, it's nearly useless. – Kyle Kanos Jul 1 '13 at 15:21
    
Excuse me, but ... what is "OP"? (I'm not very familiar with this jargon, but hope I learn it). – Antonio Serrano Jul 2 '13 at 10:33

If you want your call to matmult from gfortran to be multithreaded, easiest is to simply link to external BLAS package that has been compiled with multithreading support. Candidates include OpenBlas (née Goto Blas), ATLAS, or commercial packages like Intel's MKL, AMD's ACML, or Apple's accelerate framework.

So for instance, for this simple example:

program timematmult

  real, allocatable, dimension(:,:) :: A, B, C
  integer, parameter :: N = 2048

  allocate( A(N,N) )
  allocate( B(N,N) )
  allocate( C(N,N) )

  call random_seed
  call random_number(A)
  call random_number(B)

  C = matmul(A,B)

  print *, C(1,1)

  deallocate(C)
  deallocate(B)
  deallocate(A)

end program timematmult

With the base matmul:

$ gfortran -o matmult matmult.f90
$ time ./matmult
   514.38751

real    0m6.518s
user    0m6.374s
sys     0m0.021s

and with the multithreaded gotoblas library:

$ gfortran -o matmult matmult.f90 -fexternal-blas -lgoto2
$ time ./matmult
   514.38696

real    0m0.564s
user    0m2.202s
sys     0m0.964s

Note in particular here that the real time is less than the user time, indicating multiple cores are being used.

share|improve this answer
    
Thank you, I have to try this. – Antonio Serrano Jul 2 '13 at 12:44
    
Hi, my compiler doesn't find the goto2 library. Which package should I install (I use Ubuntu 12.04 LTS. – Antonio Serrano Jul 2 '13 at 12:56
    
I understand now that the library in question is in the external BLAS package. And it is external because it is not installed by the package manager, but compiled by myself. Thank you. – Antonio Serrano Jul 3 '13 at 7:23

I think that a key sentence in the course that you cited is "With array assignment there is no implied order of the individual assignments, they are performed, conceptually, in parallel." The key word is "conceptually". It isn't saying that whole array expressions are actually executed in parallel; you shouldn't expect more than one core to be used. For that, you need to use OpenMP or MPI (outside of Fortran itself) or the coarrays of Fortran 2008.

EDIT: Fortran didn't have, as part of the language, actual parallel execution until the coarrays of Fortran 2008. Some compilers might provide parallelization otherwise and some language features make it easier for compilers to implement parallel execution (optionally). The sentence that I cited from the web article better states reality than the portion you cite. Whole-array expressions were not intended to require parallel execution; they are a syntactical convenience to the programmer, making the language higher level, so that array operations can be expressed in single statements, without writing do loops. In any case, no article on the web is definitive. Your observation of the lack of parallel executions shows which statement is correct. It does not contradict the Fortran language.

share|improve this answer
    
Yes, but it says: ` The above assignment is equivalent to: !PARALLEL B(-4,0) = C(1,1)*D(0,0)-B(-4,0)**2 ! in || B(-3,0) = C(2,1)*D(1,0)-B(-3,0)**2 ! in || ... B(-4,1) = C(1,2)*D(0,1)-B(-4,1)**2 ! in || ... B(0,2) = C(5,3)*D(4,2)-B(0,2)**2 ! in || !END PARALLEL ` – Antonio Serrano Jul 2 '13 at 12:42
    
Thank you, your edit is very clarifying. – Antonio Serrano Jul 3 '13 at 7:27

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