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I have a problem with a GPU function, because the results are different from the serial implementation.

I think that the problem is on the last row of the function, because concurrent threads could modify the value of BFilter at the same time.

How can avoid this?

__device__ void mapBloom(word32 hash, char *(BFilter), int M)
{
    int tempInt;
    int bitNum;
    int byteNum;
    unsigned char mapBit;
    tempInt = hash % M;
    byteNum = tempInt / 8;
    bitNum =  tempInt % 8;

    mapBit = 0x80;
    mapBit = mapBit >> bitNum;

    BFilter[byteNum] = BFilter[byteNum] | mapBit;
}

The kernel function where the above-mentioned function is called:

__global__ void mapBloomKernel(const char* dev_charTextFromFiles, int *dev_wordIndexes, int *dev_fileIndexes, int* dev_numberOfWords, word32 *CrcTable, word32 crc32, char *BFilter, int *dev_BFStartIndex, int *dev_BF_NumBits)
{

    extern __shared__ int currentBloomFilter[];

    if(threadIdx.x < (dev_BF_NumBits[blockIdx.x]%32==0 ? dev_BF_NumBits[blockIdx.x]/32 : (dev_BF_NumBits[blockIdx.x]/32 + 1)))
        currentBloomFilter[threadIdx.x] = 0;
    __syncthreads();

    unsigned int index = dev_numberOfWords[blockIdx.x] + threadIdx.x + blockIdx.x;

    if(threadIdx.x<dev_numberOfWords[blockIdx.x+1]-dev_numberOfWords[blockIdx.x]-1)
    {

        for(int i=0; i<10; i++)
        {
            crc32 = update_crc(i, dev_charTextFromFiles + dev_wordIndexes[index] + dev_fileIndexes[blockIdx.x], dev_wordIndexes[index+1] - dev_wordIndexes[index], CrcTable);
            mapBloom(crc32, currentBloomFilter, dev_BF_NumBits[blockIdx.x]);
        }
    }
    __syncthreads();
    if(threadIdx.x < (dev_BF_NumBits[blockIdx.x]%32==0 ? dev_BF_NumBits[blockIdx.x]/32 : (dev_BF_NumBits[blockIdx.x]/32 + 1)))
    {
        int n = currentBloomFilter[threadIdx.x];
        BFilter[dev_BFStartIndex[blockIdx.x] + threadIdx.x * 4 + 3] = (n >> 24) & 0xFF;;
        BFilter[dev_BFStartIndex[blockIdx.x] + threadIdx.x * 4 + 2] = (n >> 16) & 0xFF;;
        BFilter[dev_BFStartIndex[blockIdx.x] + threadIdx.x * 4 + 1] = (n >> 8) & 0xFF;
        BFilter[dev_BFStartIndex[blockIdx.x] + threadIdx.x * 4 ] = n & 0xFF;    
    }
}

Edit 1:

I have considered to change BFilter to an array of int instead of char, and then use AtomicOr.

I've modified the mapBloom Function to work with integer Bloom Filter. Here is the modified function:

__device__ void mapBloom(word32 hash, int *(BFilter), int M)
{
    int tempInt;
    int bitNum;
    int byteNum;
    unsigned char mapBit;
    tempInt = hash % M;

    byteNum = tempInt / 8;
    bitNum =  tempInt % 8;

    mapBit = 0x80;
    mapBit = mapBit >> bitNum;

    int intNum;
    intNum = tempInt / 32;
    int byteNumInInt = byteNum % 4;

    int mapBitInt = ((int)mapBit)<<(8*byteNumInInt);

    BFilter[intNum] = atomicOr(BFilter + intNum, mapBitInt);

}

The results from the serial and parallel implementation are still different.

  • Since this is a __device__ function, how you call it from the kernel is in your hands. You must call it so that such a race cannot occur. – Reinstate Monica Mar 10 '15 at 11:11
  • this function is called from a kernel on each thread for k times, where k represent the number of hash functions (eg: k=10) – Alex Iacob Mar 10 '15 at 11:13
  • 1
    To prevent multiple writes to the same location, you'll have to call it in a pattern which prevents it. Such as having thread nr. n handle the case when hash % M / 8 == n. It's impossible to say more without seeing the calling pattern. – Reinstate Monica Mar 10 '15 at 11:20
  • Would be usefull to add the kernel function to be more specific? – Alex Iacob Mar 10 '15 at 11:22
  • 2
    it looks like the critical section is BFilter[byteNum] = BFilter[byteNum] | mapBit; so jsut use a mutex to guarantee exclusive access to this bit. – Pandrei Mar 10 '15 at 11:30

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