Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am working on OpenCL code for sparse matrix operations and I find that it works when the code including the kernel is executed once or twice. But every few runs the answer is slightly off. Here is the very simple kernel I am using:

__kernel void dsmv( int N, __global int * IA,
                    __global int * JA, __global float * A,
                    __global float * X, __global float * Y){

    int IBGN, ICOL, IEND, ii;
    ICOL = get_global_id(0);

    if(ICOL < N)
    {
        IBGN = JA[ICOL]-1;
        IEND = JA[ICOL+1]-1-1;

        for (ii = IBGN; ii <= IEND; ii++)
        {
            Y[IA[ii]-1] +=  A[ii]*X[ICOL];
        }
    }
}

I can also post the fortran code that uses this kernel. I am using FortranCL.

What could cause the multiplication to give different answers from run to run?

share|improve this question
    
Can you give a little more information on the meanings of your variables? I don't have very much sparse-matrix multiplication experience. Particularly I'm wondering about the IA and the JA matrix. Otherwise it looks like a straightforward Y = AX multiplication. Thanks! –  KLee1 Nov 2 '12 at 23:46
    
The JA matrix points to the start of columns in IA and A. IA is array of row indices. A stores the non-zero values. I realize there are more efficient ways to handle the memory and matrix format but I want to get this version working before I experiment with that. –  user1795543 Nov 3 '12 at 2:32
    
The only thing that I see could cause undefined behaviour is "Y[IA[ii]-1] += ", can you guarantee no two work units will ever access the same elements of Y? If not, then it's likely you have a race condition going on. Also, it's just my humble opinion but the code could really use better variable names. –  Thomas Nov 3 '12 at 6:46
    
I think my problem is that I CANT guarantee no two work units access the same element in Y. I think I may need to do something like on page 46 of this pdf mec.usc.edu/sc10/tutorial/SC10Tutorials/docs/M13/M13.pdf. Also I forgot to mention the extra -1 for IBGN and IEND are because the arrays are indexed from 1 in fortran. –  user1795543 Nov 3 '12 at 14:43

1 Answer 1

This line looks suspicious:

Y[IA[ii]-1] +=  A[ii]*X[ICOL];

It seems that two work items may increment the same memory location, so there is a potential race condition here, and since += is not an atomic operation this is a problem.

Unfortunately you can't use the built-in atomic_add instead because it doesn't support floats, but atomic_cmpxchg does, so you can use it to implement a floating-point atomic add - or just look at this existing implementation of an atomic add for floats.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.