Each thread in a block can have different set (and size) of results. At the moment i am allocating fixed size of device memory; think per-thread.

Meaning, for XX threads i Have to allocate XX * max_result_count * data_structure * sizeof(int), my data contains integers. Each thread access its memory block (offset) by calculating int i = blockDim.x * blockIdx.x + threadIdx.x; and multiplying it with max_result_count*data_structure, for integer array;

In the real world this means huge waste of device memory, because some sets are close to 0, some are not. For example, i Have to allocate under 2GB of device memory to be able to store an equivalent of 300MB of results.

Any ideas on how to rework this ?

For example, each thread locks mutex, increments actual res_count, writes data into shared memory block, unlocks mutex.

[Problem solved, thanks, guys !]


You've already hinted in your question at one possible approach:

#define DSIZE (100*1048576)

__device__ unsigned int buffer_index = 0;
__device__ int *buffer_data;

In your host code:

int *buffer_data_temp;
cudaMalloc(&buffer_data_temp, sizeof(int)*DSIZE); 
cudaMemcpyToSymbol(buffer_data, &buffer_data_temp, sizeof(int *));

In your thread code:

unsigned int my_buffer_offset = atomicAdd(&buffer_index, size_of_my_thread_data);
assert((my_buffer_offset+size_of_my_thread_data) < DSIZE);
memcpy(buffer_data+my_buffer_offset, my_thread_data, size_of_my_thread_data*sizeof(int));

(disclaimer: coded in browser, not tested)

It's not necessary to use a mutex, for example around the memcpy operation. Once we have reserved the starting and ending points of our allocation with the atomicAdd, the threads will not step on each other, even if all are writing data, because they are writing to separate regions within buffer_data.

EDIT: Here's a complete example:

#include <stdio.h>
#include <assert.h>
#define DSIZE (100*1048576)
#define nTPB 32
#define BLKS 2

__device__ unsigned int buffer_index = 0;

__global__ void update_buffer(int *buffer_data){
  const unsigned int size_of_my_thread_data = 1;
  unsigned int my_buffer_offset = atomicAdd(&buffer_index, size_of_my_thread_data);
  assert((my_buffer_offset+size_of_my_thread_data) < DSIZE);
  int my_thread_data[size_of_my_thread_data];
  my_thread_data[0] = (blockIdx.x*10000) + threadIdx.x;
  memcpy(buffer_data+my_buffer_offset, my_thread_data, size_of_my_thread_data*sizeof(int));

int main(){

  int *h_buffer_data, *d_buffer_data;
  cudaMalloc(&d_buffer_data, sizeof(int)*DSIZE);
  update_buffer<<<BLKS, nTPB>>>(d_buffer_data);
  unsigned int result_size;
  cudaMemcpyFromSymbol(&result_size, buffer_index, sizeof(unsigned int));
  h_buffer_data = (int *)malloc(sizeof(int)*result_size);
  cudaMemcpy(h_buffer_data, d_buffer_data, result_size*sizeof(int),cudaMemcpyDeviceToHost);
  for (int i = 0; i < result_size; i++)
    printf("%d\n", h_buffer_data[i]);
  return 0;
  • funny, im having trouble using cudaMemcpyFromSymbol(). will cry here, if im not able to get it work. – user3314134 Apr 1 '14 at 15:29
  • You don't have to use a device symbol based pointer to the buffer data. You can use an ordinary cudaMalloc created buffer_data region, and pass the start of that region as a parameter to the kernel. – Robert Crovella Apr 1 '14 at 15:46
  • im trying to get working your code. cannot use assert, compiler says, you cannot use host functions in device/global functions. could you possibly add code that increments positive local result counter ? because in my code, sum of locally incremented positives differ from (buffer_index/size_of_my_thread_data). hopefully you get what i mean. – user3314134 Apr 1 '14 at 17:08
  • Sorry, I don't get what you mean. The assert is not essential, it's just a safety check. You're getting the assert error because it's only supported in devices of cc2.0 and greater. – Robert Crovella Apr 1 '14 at 17:15
  • put simply, buffer_index/size_of_my_thread_data differs from accumulated, locally, in threads incremented variables - i have a loop in update_buffer and i increment local integer in case of success (case when i have to memcopy data structure) and after main loop i copy array of these variables (one for each thread) to host memory and in host code, add them to see total number of successful iterations. total number differs from buffer_index/size_of_my_thread_data. – user3314134 Apr 1 '14 at 18:37

Rewrite the kernel and calling function to calculate a part of the required points (obviously, you'll have to change the number of blocks per launch, etc.).

int offset = 0;
for(int i = 0; i < numKernelLaunches; i++) {
    yourKernel<<<numBlocks,threadsPerBlock>>>(offset, /* your other parameters */);
    offset += numBlocks*threadsPerBlock;

and in yourKernel you keep int i = blockDim.x * blockIdx.x + threadIdx.x; as the index for the global memory access and i + offset for the id of your data position.


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