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I'm trying to sum the elements of an array indexed by another array using the Thrust library, but I couldn't find an example. In other words, I want to implement Matlab's syntax

sum(x(indices))

Here is a guideline code trying to point out what do I like to achieve:

#define N 65536

// device array copied using cudaMemcpyToSymbol
__device__ int global_array[N];

// function to implement with thrust
__device__ int support(unsigned short* _memory, unsigned short* _memShort)
{
   int support = 0;

  for(int i=0; i < _memSizeShort; i++)
        support += global_array[_memory[i]];

  return support;     
}

Also, from the host code, can I use the global_array[N] without copying it back with cudaMemcpyFromSymbol ?

Every comment/answer is appreciated :)

Thanks

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2  
Can you explain a bit more about what you are trying to do? Is the sum an overall sum (ie. is your support function supposed to be a fused gather-reduction) or is it something else? Is there some reason you have chosen to show support as a device function, or is that basically irrelevant? –  talonmies May 4 '12 at 15:31
    
If you use Thrust you should code in a proper C++ style, IMO. –  leftaroundabout May 4 '12 at 15:32
    
@talonmies you solved my problem just saying "fused gather-reduction" !! It is exactly what I was looking for! But a couple of things: from the example in Thrust Quick Start Guide (permutation_iterator), they are just iterating the wholes arrays. Instead of it, I'd like to iterate for a certain number (as the for loop above); how can I do that ? And, should I copy back the global_array[N] from the device ? –  DuckD May 4 '12 at 16:14

1 Answer 1

This is a very late answer provided here to remove this question from the unanswered list. I'm sure that the OP has already found a solution (since May 2012 :-)), but I believe that the following could be useful to other users.

As pointed out by @talonmies, the problem can be solved by a fused gather-reduction. The solution is indeed an application of Thurst's permutation_iterator and reduce. The permutation_iterator allows to (implicitly) reorder the target array x according to the indices in the indices array. reduce performs the sum of the (implicitly) reordered array.

This application is part of Thrust's documentation, below reported for convenience

#include <thrust/iterator/permutation_iterator.h>
#include <thrust/reduce.h>
#include <thrust/device_vector.h>

// this example fuses a gather operation with a reduction for
// greater efficiency than separate gather() and reduce() calls

int main(void)
{
    // gather locations
    thrust::device_vector<int> map(4);
    map[0] = 3;
    map[1] = 1;
    map[2] = 0;
    map[3] = 5;

    // array to gather from
    thrust::device_vector<int> source(6);
    source[0] = 10;
    source[1] = 20;
    source[2] = 30;
    source[3] = 40;
    source[4] = 50;
    source[5] = 60;

    // fuse gather with reduction: 
    //   sum = source[map[0]] + source[map[1]] + ...
    int sum = thrust::reduce(thrust::make_permutation_iterator(source.begin(), map.begin()),
                             thrust::make_permutation_iterator(source.begin(), map.end()));

    // print sum
    std::cout << "sum is " << sum << std::endl;

    return 0;
}

In the above example, map plays the role of indices, while source plays the role of x.

Concerning the additional question in your comment (iterating over a reduced number of terms), it will be sufficient to change the following line

int sum = thrust::reduce(thrust::make_permutation_iterator(source.begin(), map.begin()),
                         thrust::make_permutation_iterator(source.begin(), map.end()));

to

int sum = thrust::reduce(thrust::make_permutation_iterator(source.begin(), map.begin()),
                         thrust::make_permutation_iterator(source.begin(), map.begin()+N));

if you want to iterate only over the first N terms of the indexing array map.

Finally, concerning the possibility of using global_array from the host, you should notice that this is a vector residing on the device, so you do need a cudaMemcpyFromSymbol to move it to the host first.

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