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I am trying to have two arbitrary length vectors (typical length will be 2048) and multiply element by element. So Z[n] = X[n] * Y[n] for all n.

The code I have setup to test is fairly basic:

float inputX[4] = { 2, 4, 8, 16 };
float inputY[4] = { 2, 4, 8, 16 };

catlas_saxpby(4, 1, inputX, 1, 1, inputY, 1);

The result goes into inputY, and the result is

4.000000, 8.000000, 16.000000, 32.000000

Which if they were multiplying it should be 4, 16, 64, 256. But it looks like it is adding.

So this is not doing what I expect, and the documentation doesn't give me enough information to figure what it is doing.

Any ideas?

Apple's documentation for BLAS says this: 

Computes the product of two vectors, scaling each one separately (single-precision).

void catlas_saxpby (
   const int N,
   const float alpha,
   const float *X,
   const int incX,
   const float beta,
   float *Y,
   const int incY
Number of elements in the vector.
Scaling factor for X.
Input vector X.
Stride within X. For example, if incX is 7, every 7th element is used.
Scaling factor for Y.
Input vector Y.
Stride within Y. For example, if incY is 7, every 7th element is used.
On return, the contents of vector Y are replaced with the result.
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2 Answers 2

up vote 2 down vote accepted

The Apple documentation is mistaken. The saxpby function computes the expression alpha*X + beta*Y for scalars alpha and beta and vectors X and Y.

I don't think there's a function available to compute the element-wise product of two vectors, since that's not a common operation in linear algebra. You could take the diagonal of the outer product, but that's a severe waste of effort since it computes the entire outer product (N2 multiplications instead of N).

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I think I am going to be stuck using neon intrinsics or a for loop. I will likely try both and see what is faster. – drakej Jul 5 '11 at 4:54

As Adam Rosenfield said, the documentation is incorrect. Please file a bug.

That aside, there are some corrections to the rest of his answer. First, saxpby computes alpha * X + beta * Y. Second, and more useful for you: there is no function in BLAS that does what you want, but there is exactly such a function in vDSP, which is also part of the Accelerate.framework: vDSP_vmul.

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After succeeding with using some neon intrinsics, I guess I will have to use vmul now :P. Thank you for showing me that. It is certainly more portable. – drakej Jul 5 '11 at 12:08

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