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The following code comes from the amd website

__kernel
void reduce(__global float* buffer,
            __local float* scratch,
            __const int length,
            __global float* result) {

  int global_index = get_global_id(0);
  float accumulator = INFINITY;
  // Loop sequentially over chunks of input vector
  while (global_index < length) {
    float element = buffer[global_index];
    accumulator = (accumulator < element) ? accumulator : element;
    global_index += get_global_size(0);
  }

  // Perform parallel reduction
  int local_index = get_local_id(0);
  scratch[local_index] = accumulator;
  barrier(CLK_LOCAL_MEM_FENCE);
  for(int offset = get_local_size(0) / 2;
      offset > 0;
      offset = offset / 2) {
    if (local_index < offset) {
      float other = scratch[local_index + offset];
      float mine = scratch[local_index];
      scratch[local_index] = (mine < other) ? mine : other;
    }
    barrier(CLK_LOCAL_MEM_FENCE);
  }
  if (local_index == 0) {
     result[get_group_id(0)] = scratch[0];
  }
}

I adapted it to make it work as a sum reduction:

__kernel
void reduce(__global float* buffer,
            __local float* scratch,
            __const int length,
            __global float* result) {

  int global_index = get_global_id(0);
  float accumulator = 0.0;
  // Loop sequentially over chunks of input vector
  while (global_index < length) {
    float element = buffer[global_index];
    accumulator = accumulator + element;
    global_index += get_global_size(0);
  }

  // Perform parallel reduction
  int local_index = get_local_id(0);
  scratch[local_index] = accumulator;
  barrier(CLK_LOCAL_MEM_FENCE);
  for(int offset = get_local_size(0) / 2;
      offset > 0;
      offset = offset / 2) {
    if (local_index < offset) {
      float other = scratch[local_index + offset];
      float mine = scratch[local_index];
      scratch[local_index] = mine + other;
    }
    barrier(CLK_LOCAL_MEM_FENCE);
  }
  if (local_index == 0) {
     result[get_group_id(0)] = scratch[0];
  }
}

And it works like a charm when I use one only work group (meaning that i give NULL as local_work_size to clEnqueueNDRangeKernel()), but things get out of my control when I try to change the workgroup dimension. (I should say I am a total newbie in OpenCl)

What I do is as follows

#define GLOBAL_DIM 600
#define WORK_DIM 60

size_t global_1D[3] = {GLOBAL_DIM,1,1};
size_t work_dim[3] = {WORK_DIM,1,1};
err = clEnqueueNDRangeKernel(commands, av_velocity_kernel, 1, NULL, global_1D, work_dim, 0, NULL, NULL); //TODO CHECK THIS LINE
if (err)    {
  printf("Error: Failed to execute av_velocity_kernel!\n");            printf("\n%s",err_code(err));   fflush(stdout);      return EXIT_FAILURE;    }

Do I do it the wrong way??

Furthermore, I noticed that if I set #define GLOBAL_DIM 60000 (which is what I would need) I run out of local memory. DO I get "more" local memory if I use several work groups, or the local memory is evenly spread between workgroups??

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1  
What do you mean by "out of control?" The global size has to be divisible by the workgroup size. –  KLee1 Apr 15 '12 at 8:05

1 Answer 1

up vote 0 down vote accepted

First of all, those reduction kernels only work correctly if the workgroup size is a power of two. This means that instead of 60 you should use something 64. Also, there is no way that changing the GLOBAL_DIM makes you run out of local memory: you're most probably doing something wrong when invoking the kernel.

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1  
you are right, I was indeed doing something wrong. I was supposed to allocate num_work_groups elements in the local memory, while I was allocating num_work_items –  eddy ed May 7 '12 at 3:56

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