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Here's a simple program:

   void multiply(const int* v_in, const int* w_in, int n_v, int n_w, int* w_out)
      for(int i=0; i<n_w; i++)
         int sum=0;
         for(int j=0; j<n_v; j++)
            sum += (w_in[i]*v_in[j])>>1;

Presume n_v, n_w ~10^6. Clearly, there's at least a dozen equivalent ways to do this in CUDA, with different ways to subdivide (n_v*n_w) operations into threads, with and without shared memory... Which way should, theoretically speaking, be the fastest?

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Are you sure this code is correct? Isn't this essentially equivalent to calculating s = SUM(v_in); for (i = 0 to n_w) { w_out[i] = s * w_in[i]; }? –  Oliver Charlesworth Nov 7 '10 at 0:07
It's not equivalent because there is a shift ... and anyway, the question is about the best way to iterate through n_v x n_w element pairs without getting bitten by kernel launch overhead or global memory access latency. –  user434507 Nov 7 '10 at 0:23

1 Answer 1

up vote 0 down vote accepted


   void multiply(const int* v_in, const int* w_in, int n_v, int n_w, int* w_out)
      int *v = shared; // dynamic
      for(int i = block.rank; i < n_w; i += block.size)
         int w = w_in[i]; // coalesced
         int sum=0;
         for(int j=0; j<n_v; j += block.size) { // assumption
            v[block.rank] = v_in[j+block.rank];
            for(int k = 0; k < block.size; ++k) 
                sum += (w*v[k])>>1;  // 
            __synch(); // ouch
         w_out[i] = sum; // ditto
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I'm not sure what language this is, but this does not look like valid CUDA C, and nvcc agrees with me. Is it some kind of shorthand? –  user434507 Nov 7 '10 at 8:55
@user yes, its a shorthand, __synch is __synchthreads, block is threadblock, shared is smared memory, etc –  Anycorn Nov 7 '10 at 15:43

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