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I'm trying to write a function that takes a block of unsorted key/value pairs such as

<7, 4>
<2, 8>
<3, 1>
<2, 2>
<1, 5>
<7, 1>
<3, 8>
<7, 2>

and sorts them by key while reducing the values of pairs with the same key:

<1, 5>
<2, 10>
<3, 9>
<7, 7>

Currently I'm using a function like this which is essentially a bitonic sort that will combine values of the same key and set the old data to an infinitely heavy value (just using 99 for now) so that a subsequent bitonic sort will sift them to the bottom and the array cut by the value of int *removed.

__device__ void interBitonicSortReduce(int2 *sdata, int tid, int recordNum, int *removed) {
  int n = MIN(DEFAULT_DIMBLOCK, recordNum);
  for (int k = 2; k <= n; k *= 2) {
    for (int j = k / 2; j > 0; j /= 2) {
      int ixj = tid ^ j;
      if (ixj > tid) {
        if (sdata[tid].x == sdata[ixj].x && sdata[tid].x < 99) {
          atomicAdd(&sdata[tid].y, sdata[ixj].y);
          sdata[ixj].x = 99; 
          sdata[ixj].y = 99; 
          atomicAdd(removed, 1); 
        if ((tid & k) == 0 && sdata[tid].x > sdata[ixj].x)
          swapData2(sdata[tid], sdata[ixj]);
        if ((tid & k) != 0 && sdata[tid].x < sdata[ixj].x)
          swapData2(sdata[tid], sdata[ixj]);

This works just fine for small sets of data but with larger sets (though still within the size of a single block) a single call just won't do it.

Is it wise to try to combine the sorting and the reduction in the same function? Obviously the function would need to be called more than once but is it possible to determine exactly how many times it needs to be called to exhaust all the data based on its size?

Or should I preform the reduction separately with something like this:

__device__ int interReduce(int2 *sdata, int tid) {
  int index = tid;
  while (sdata[index].x == sdata[tid].x) {
    if (index < 0)
  if (index+1 != tid) {
    atomicAdd(&sdata[index+1].y, sdata[tid].y);
    sdata[tid].x = 99;
    sdata[tid].y = 99;
    return 1;
  return 0;

I'm trying to come up with the most efficient solution but my experience with cuda and parallel algorithms is limited.

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You may want to try thrust::sort_by_key and thrust::reduce_by_key. But you will need to have the keys and values in different arrays because of this. –  Pavan Yalamanchili Jul 11 '13 at 16:06
i'm not looking to use thrust –  user1743798 Jul 11 '13 at 16:08
I saw these after I posted my answer. If you like I will delete my answer since it uses thrust. Why not use thrust? –  Robert Crovella Jul 11 '13 at 16:15
Fast comment. You should be aware that atomic operations force sequential execution, so their use penalizes performance. Moreover, if statements could give rise to branch divergence and their use requires caution. You can perhaps split the for loop in k in two for loops according to tid&k? Or at least move such condition outside the loop in j? –  JackOLantern Jul 11 '13 at 16:17
@robert My main goal here is to benchmark different algorithms to see what runs fastest and why (particularly the impact of atomic operations) so I would rather code it explicitly. –  user1743798 Jul 11 '13 at 16:29

1 Answer 1

You can use thrust to do this.

Use thrust::sort_by_key followed by thrust::reduce_by_key

Here's an example:

#include <iostream>
#include <thrust/device_vector.h>
#include <thrust/copy.h>
#include <thrust/sort.h>
#include <thrust/reduce.h>
#include <thrust/sequence.h>

#define N 12
typedef thrust::device_vector<int>::iterator dintiter;
int main(){

  thrust::device_vector<int> keys(N);
  thrust::device_vector<int> values(N);
  thrust::device_vector<int> new_keys(N);
  thrust::device_vector<int> new_values(N);
  thrust::sequence(keys.begin(), keys.end());
  thrust::sequence(values.begin(), values.end());

  keys[3] = 1;
  keys[9] = 1;
  keys[8] = 2;
  keys[7] = 4;

  thrust::sort_by_key(keys.begin(), keys.end(), values.begin());
  thrust::pair<dintiter, dintiter> new_end;
  new_end = thrust::reduce_by_key(keys.begin(), keys.end(), values.begin(), new_keys.begin(), new_values.begin());

  std::cout << "results  values:" << std::endl;
  thrust::copy(new_values.begin(), new_end.second, std::ostream_iterator<int>( std::cout, " "));
  std::cout << std::endl << "results keys:" << std::endl;
  thrust::copy(new_keys.begin(), new_end.first, std::ostream_iterator<int>( std::cout, " "));
  std::cout << std::endl;

  return 0;
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