The Intel Advanced Vector Extensions (AVX) offers no **dot product in 256-bit version (ymm register) for double precision floating point variables**. The "Why?" question have been very briefly treated in another forum (here) and on SO (here). But the question I am facing is how to replace this missing instruction with other AVX instructions in an efficient way?

The dot product in 256-bit version exists for single precision FP variables (ref here):

```
__m256 _mm256_dp_ps(__m256 m1, __m256 m2, const int mask);
```

The idea is to find an efficient equivalent for this missing instruction:

```
__m256d _mm256_dp_pd(__m256d m1, __m256d m2, const int mask);
```

Thanks for your suggestions.

Edit:

To be more specific, the code i would like to transform from `__m128`

(4 floats) to `__m256d`

(4 doubles) use the following instructions :

```
__m128 val0 = ...; // 4 float values
__m128 val1 = ...; //
__m128 val2 = ...; //
__m128 val3 = ...; //
__m128 val4 = ...; //
__m128 res = _mm_or_ps( _mm_dp_ps(val1, val0, 0xF1),
_mm_or_ps( _mm_dp_ps(val2, val0, 0xF2),
_mm_or_ps( _mm_dp_ps(val3, val0, 0xF4),
_mm_dp_ps(val4, val0, 0xF8) )));
```

The result of this code is a `_m128`

vector of 4 floats containing the results of the dot products between `val1`

and `val0`

, `val2`

and `val0`

, `val3`

and `val0`

, `val4`

and `val0`

.

Maybe this can give hints for the suggestions ?