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Suppose I have a 2 element vector defines as follows (using the GCC syntax for packed vectors)

// packed vector of 2-elements
typedef double v2d __attribute__((vector_size(sizeof(double)*2)));

v2d x = ...;
double y = ...;

x[0] = pow(x[0], y)
x[1] = pow(x[1], y)

I'd like to know if there's a faster way to do the two power computations using vector operations. The architecture is GCC on x86-64 and platform specific code is OK.

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Implementing a generic power function is difficult as it is since you may need both exp() and log(). There may likely be too much branching to be able to get a worthwhile speedup via vectorizing. But I'm just speculating though. –  Mysticial Nov 16 '12 at 21:44
    
No, the SIMD instruction set doesn't have any operations that allow speeding up pow(). SSE2 only has add, sub, mul, div, max, min and sqrt. There's not even a non-vectorized instruction for it. –  Hans Passant Nov 16 '12 at 22:04
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There may be some hope if "y" is limited to unsigned int instead of double. Indeed, with the classic "shift-and-multiply" algorithm the two vector's elements could be evaluated in parallel. Just my guess. –  Giuseppe Guerrini Nov 16 '12 at 23:16

1 Answer 1

Yes, this should be possible if you have no special cases (negative numbers, 0, 1, NaN etc...) so that the code path is linear.

Here is the generic code for the pow function for IEEE754 doubles, it has no looping constructs, so if you flesh out all the special cases, vectorization seems straightforward. Have fun.

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Haha... I see what you mean by "have fun". :) –  Mysticial Nov 17 '12 at 3:19

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