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Thanks for reading my thread here.

I am trying to do reduction in cuda. and I am really a newbie. I am currently reading a sample code from NVIDIA.

The purpose of using reduction is that I want to sum an array. I guess I am really not sure how to set up the block size and grid size, especially when my input array is larger (512X512) than a single block size.

Here is the code.

template <unsigned int blockSize>
__global__ void reduce6(int *g_idata, int *g_odata, unsigned int n)
    extern __shared__ int sdata[];
    unsigned int tid = threadIdx.x;
    unsigned int i = blockIdx.x*(blockSize*2) + tid;
    unsigned int gridSize = blockSize*2*gridDim.x;
    sdata[tid] = 0;

    while (i < n) 
        sdata[tid] += g_idata[i] + g_idata[i+blockSize]; 
        i += gridSize; 


    if (blockSize >= 512) { if (tid < 256) { sdata[tid] += sdata[tid + 256]; } __syncthreads(); }
    if (blockSize >= 256) { if (tid < 128) { sdata[tid] += sdata[tid + 128]; } __syncthreads(); }
    if (blockSize >= 128) { if (tid < 64) { sdata[tid] += sdata[tid + 64]; } __syncthreads(); }

    if (tid < 32) 
        if (blockSize >= 64) sdata[tid] += sdata[tid + 32];
        if (blockSize >= 32) sdata[tid] += sdata[tid + 16];
        if (blockSize >= 16) sdata[tid] += sdata[tid + 8];
        if (blockSize >= 8) sdata[tid] += sdata[tid + 4];
        if (blockSize >= 4) sdata[tid] += sdata[tid + 2];
        if (blockSize >= 2) sdata[tid] += sdata[tid + 1];

    if (tid == 0) g_odata[blockIdx.x] = sdata[0];

However it seems to me the g_odata[blockIdx.x] saves sum from all blocks, and if I want to get the final results, I need to to do the sum of all components within this g_odata[blockIdx.x] array.

I am wondering is there a kernel to do the whole summation? or I misunderstand things here? I would really appreciate if anyone can educate me with this. Thanks very much.

share|improve this question
Also please note __shared__ data should be volatile in above code otherwise correct final result cannot be guaranteed. It can be seen in the link @Robert provided. –  Farzad Apr 8 '14 at 14:58
OK. Thanks man:) –  Ono Apr 8 '14 at 16:35

1 Answer 1

up vote 2 down vote accepted

Your understanding is correct. The reductions demonstrated here end up with a sequence of block-sums deposited in global memory.

To sum all of these block sums together, requires some form of global synchronization. You must wait until all the blocks are complete before adding their sums together. You have a number of options at this point, some of which are:

  1. launch a new kernel after the main kernel to sum the block-sums together
  2. add the block sums on the host
  3. use atomics to add the block sums together, at the end of the main kernel
  4. use a method like threadfence reduction to add the block sums together in the main kernel.

If you search around the CUDA tag you can find examples of all these, and discussions of their pros and cons. To see how the main kernel you posted is used for a complete reduction, look at the parallel reduction sample code.

share|improve this answer
I see... thanks! –  Ono Apr 8 '14 at 14:17
An extra for loop in CPU code did the add job. –  Ono Apr 8 '14 at 16:35

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