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I'm implementing the producer/consumer problem for homework, and I have to compare the sequential algorithm with the parallel one, and my parallel one seems to only be able to run either at the same speed or slower than the sequential one. I've come to the conclusion that using a queue is a limiting factor and it won't speed up my algorithm.

Is this the case or am I just coding it wrong?

int main() {
    long sum = 0;
    unsigned long serial = ::GetTickCount();
    for(int i = 0; i < test; i++){
        enqueue(rand()%54354);
        sum+= dequeue(); 
    }
    printf("%d \n",sum);

    serial = (::GetTickCount() - serial);
    printf("Serial Program took: %f seconds\n", serial * .001);
    sum = 0;
    unsigned long omp = ::GetTickCount();

    #pragma omp parallel for num_threads(128) default(shared) 
    for(int i = 0; i < test; i++){
        enqueue(rand()%54354);
        sum+= dequeue(); 

    }

    #pragma omp barrier //joins all threads
    omp = (::GetTickCount() - omp);
    printf("%d \n",sum);
    printf("OpenMP Program took: %f seconds\n", omp * .001);
    getchar();
}
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I see num_threads(128). Do you really have 128 cores/threads? –  Mysticial May 7 '12 at 6:41
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1 Answer

up vote 2 down vote accepted

Problem #1:

You have rand() inside the parallel region.

rand() is not thread-safe. It uses global/static variables. So calling it concurrently from multiple threads will lead to unexpected (possibly undefined) behavior.

That aside, the data-races resulting from concurrent calls to rand() will lead to a lot of cache coherency stalls. This is likely the source of the slowdown.


Problem #2:

Is enqueue() and dequeue() thread-safe?

If it isn't, then you need to fix that first. If it is, how are you synchronizing it?

If it's just a critical region that allows only one thread at a time to access the queue, then that kind of defeats the whole purpose of parallelism.


Problem #3:

This line modifies the sum variable in each iteration:

sum += dequeue(); 

Note that all the threads will be doing this concurrently. So you need to declare sum as a reduction variable.

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I will try to prebuffer some values instead of using rand then. What would constitute a thread safe function though? Here's my enqueue: void enqueue(int n) { if(isFull != 0) { que.arr[que.next] = n; que.next += 1; que.next = que.next%MAX; que.size++; } } –  Jesus Adobo Luzon May 7 '12 at 6:40
    
    
@JesusAdoboLuzon That's definitely not thread-safe. –  Mysticial May 7 '12 at 6:42
    
Overall, the task you have here is not a good candidate for parallelism. So even if you manage to fix all these problems, I highly doubt you'll gain any speedup unless you do some very messy transformations. –  Mysticial May 7 '12 at 6:44
    
Any ideas on how to make it thread safe? –  Jesus Adobo Luzon May 7 '12 at 6:46
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