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I have an array of 20K values and I am reducing it over 50 blocks with 400 threads each. num_blocks = 50 and block_size = 400.

My code looks like this:

getmax <<< num_blocks,block_size >>> (d_in, d_out1, d_indices);

__global__ void getmax(float *in1, float *out1, int *index)
{
    // Declare arrays to be in shared memory.
    __shared__ float max[threads];

    int nTotalThreads = blockDim.x;    // Total number of active threads
    float temp;
    float max_val;
    int max_index;
    int arrayIndex;

    // Calculate which element this thread reads from memory
    arrayIndex = gridDim.x*blockDim.x*blockIdx.y + blockDim.x*blockIdx.x + threadIdx.x;
    max[threadIdx.x] = in1[arrayIndex];
    max_val = max[threadIdx.x];
    max_index = blockDim.x*blockIdx.x + threadIdx.x;
    __syncthreads();

    while(nTotalThreads > 1)
    {
        int halfPoint = (nTotalThreads >> 1);
        if (threadIdx.x < halfPoint) 
        {
            temp = max[threadIdx.x + halfPoint];
            if (temp > max[threadIdx.x]) 
            {
                max[threadIdx.x] = temp;
                max_val = max[threadIdx.x];            
            }
        }
        __syncthreads();

        nTotalThreads = (nTotalThreads >> 1);    // divide by two.
    }

    if (threadIdx.x == 0)
    {
        out1[num_blocks*blockIdx.y + blockIdx.x] = max[threadIdx.x];
    }

    if(max[blockIdx.x] == max_val )
    {
        index[blockIdx.x] = max_index;    
    }
}

The problem/issue here is that at some point “nTotalThreads” is not exactly a power of 2, resulting in garbage value for the index. The array out1 gives me the maximum value in each block, which is correct and validated. But the value of the index is wrong. For example: the max value in the first block occurs at index=40, but the kernel gives the values of index as 15. Similarly the value of the max in the second block is at 440, but the kernel gives 416.

Any suggestions??

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2  
Many common patterns like parallel reduction are implemented in highly optimized libraries for CUDA such as Thrust or CUDPP, have you looked at those for your task? –  jeff7 Oct 8 '10 at 11:41
    
Why 400 threads per block, if you don't mind my asking? –  jmilloy Feb 24 '11 at 15:43

4 Answers 4

check my kernel. You can put your blockresults to array(which can be in global memory) and get the result in global memory

And see how I call it in host code:

sumSeries<<<dim3(blockCount),dim3(threadsPerBlock)>>>(deviceSum,threadsPerBlock*blockCount);
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It should be easy to ensure that nTotalThreads is always a power of 2.

Make the first reduction a special case that gets the nTotalThreads to a power of 2. eg, since you start with 400 threads in a block, do the first reduction with 256 threads. Threads 0-199 will reduce from two values, and threads 200-255 just won't have to do a reduction in this initial step. From then on out you'd be fine.

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Second Jeff's suggestion.

Take a look at the CUDA Thrust Library's reduce function. This is demonstrated to have 95+% efficiency compared with heavily hand-tuned kernels and is pretty flexible and easy to use.

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Are you sure you really need the 'issue' “nTotalThreads” is not exactly a power of 2? It makes the code less readable and I think it can interfere with the performance too. Anyway if you substitute

nTotalThreads = (nTotalThreads >> 1);

with

nTotalThreads = (nTotalThreads +1 ) >> 1;

it should solve one bug concerning this 'issue'.

Francesco

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