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I am trying to multiply two vectors together where each element of one vector is multiplied by the element in the same index at the other vector. I then want to sum all the elements of the resulting vector to obtain one number. For instance, the calculation would look like this for the vectors {1,2,3,4} and {5,6,7,8}:


Essentially, I am taking the dot product of the two vectors. I know there is an SSE command to do this, but the command doesn't have an intrinsic function associated with it. At this point, I don't want to write inline assembly in my C code, so I want to use only intrinsic functions. This seems like a common calculation so I am surprised by myself that I couldn't find the answer on Google.

Note: I am optimizing for a specific micro architecture which supports up to SSE 4.2.

Thanks for your help.

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3 Answers 3

up vote 8 down vote accepted

GCC (at least version 4.3) includes <smmintrin.h> with SSE4.1 level intrinsics, including the single and double-precision dot products:

_mm_dp_ps (__m128 __X, __m128 __Y, const int __M);
_mm_dp_pd (__m128d __X, __m128d __Y, const int __M);

As a fallback for older processors, you can use this algorithm to create the dot product of the vectors a and b:

r1 = _mm_mul_ps(a, b);
r2 = _mm_hadd_ps(r1, r1);
r3 = _mm_hadd_ps(r2, r2);
_mm_store_ss(&result, r3);
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As a note, I would like to point out that calculating the Dot product using the dp intrinsic is slower than doing it the second way. – Serguei Fedorov Oct 30 '13 at 6:14
@SergueiFedorov that depends entirely on your hardware, there is no global case that it is slower. – CoffeeandCode Apr 24 '14 at 23:57

There is an article by Intel here which touches on dot-product implementations.

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I wrote this and compiled it with gcc -O3 -S -ftree-vectorize -ftree-vectorizer-verbose=2 sse.c

void f(int * __restrict__ a, int * __restrict__ b, int * __restrict__ c, int * __restrict__ d,
       int * __restrict__ e, int * __restrict__ f, int * __restrict__ g, int * __restrict__ h,
       int * __restrict__ o)
    int i;

    for (i = 0; i < 8; ++i)
        o[i] = a[i]*e[i] + b[i]*f[i] + c[i]*g[i] + d[i]*h[i];

And GCC 4.3.0 auto-vectorized it:

sse.c:5: note: LOOP VECTORIZED.
sse.c:2: note: vectorized 1 loops in function.

However, it would only do that if I used a loop with enough iterations -- otherwise the verbose output would clarify that vectorization was unprofitable or the loop was too small. Without the __restrict__ keywords it has to generate separate, non-vectorized versions to deal with cases where the output o may point into one of the inputs.

I would paste the instructions as an example, but since part of the vectorization unrolled the loop it's not very readable.

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