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I'm working on an algorithm where in one step the generated results are hashed on the gpu to get rid of duplicates and therefore to minimize the transfer size for performance reasons. I've implemented the hashmap from Dan Alcantara's Dissertation on the 25th page with minor changes.

So far so good. The problem is when I hash the results in debug build i get correct results but when i hash them in release build I get about 200 results more and I can't figure out why does this happen. Following I've inserted the hash function for hashing the elements.

In my opinion the atomics should have avoided such behaviour but this isn't the case. I know that the release build can introduce some error due to the FMAD operations in fastmath mode this isn't the case, too. I've tested both options.

Another guess was due to uninitialized memory which i can exclude, too. Because of consistent memset usage before the kernel launch.

My last guess was due to synchronization but this shouldn't happen, too. Because of the usage of atomics.

I tried to set in some lines __syncthreads(). It does'nt help. i tried also to do a device synchronize before and after the insertInHashtable() function. Didn't help, too.

The amount of results to be inserted is the same in release and debug build.

__global__ void insertInHashTable(OutputDataPointers odp){
    int threadNumber = calculateThreadNumber();
    int elementCount = odp.elementCount;

    if(threadNumber > elementCount - 1) return;

    int hashTableSize = odp.hashTableSize;
    long long int positionKey = odp.realKeys[threadNumber];
    int result = odp.realResults[threadNumber];

    unsigned int hash = calculateHash(positionKey, odp.hashTableSize);
    unsigned int doubleHash = calculateDoubleHash(hash) + 1;
    unsigned int index = hash;
    long long int old = 0;
    int probeCount = 0;

    for(unsigned i = 0; i < maxProbes; ++i){
        index %= hashTableSize;
        old = atomicCAS((unsigned long long int*)&odp.hashKey[index], -1, (unsigned long long int)positionKey);

        if(old == -1 || old == positionKey) {
            atomicMax(&odp.hashValue[index], result);
            odp.usedFields[index + 1] = 1;
            break;
        }

        ++probeCount;

        if(method == LINEAR) ++index; 
        else if (method == QUADRATIC) index = hash + (c0 * i + c1 * (i<<2));
        else if (method == DOUBLEHASH) index = hash + (i * doubleHash);
}

if(probeCount == maxProbes) printf("probeCount reached!");
}

Thanks in advance for your advices.

share|improve this question
    
voting to close. SO expects: "Questions concerning problems with code you've written must describe the specific problem — and include valid code to reproduce it — in the question itself. See SSCCE.org for guidance. " You haven't provided a SSCCE.org code. –  Robert Crovella Dec 10 '13 at 15:32
    
Sorry, the example would be to big cause there is a specific file format to be read in dynamic memory management on cpu and gpu and up to 7 kernels which are executed before the end result is calculated. I figured out that the hashmap function is correct. So the problem is somewhere else. –  NikITa Jan 13 at 20:44
    
I would suggest deleting the question then. I don't think it does anyone any good, you've already decided it's irrelevant, and there's been no meaningful comment on it. –  Robert Crovella Jan 13 at 20:53

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