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;
w_out[i]=sum;
}
}
```

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?

`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