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Suppose I have two arrays of floats of same length n:

float *a, *b;
int n;

I'd like to compute their scalar product. The naive way would be this:

int i;
float result=0;
for (i=0;i<n;i++)
  result += a[i]*b[i];

But from a data locality point of view this is terrible, especially if n is large or if a and b are far apart in memory. On each iteration we alternate fetching values from a and b. Is there a way I can make this more efficient?

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You're only making a single sequential pass through each array. Two strides is fine. So I doubt you can do much better - unless of course you have an outer loop. –  Mysticial Jul 9 '12 at 4:10

1 Answer 1

Unless you are unlucky enough that a and b both map to the same cache line then the processor will have its fetch pipeline full almost all the time. Data non-locality and stride can be big issues in larger, squarer arrays but here I think you have very little to worry about.

If you interleaved a and b values then both floats would fit in a single fetch on a 64-bit machine, which might help matters (although memory alignment issues make this architecture-dependent.)

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