The problem can be described as follow.

**Input**

```
__m256d a, b, c, d
```

**Output**

```
__m256d s = {a[0]+a[1]+a[2]+a[3], b[0]+b[1]+b[2]+b[3],
c[0]+c[1]+c[2]+c[3], d[0]+d[1]+d[2]+d[3]}
```

**Work I have done so far**

It seemed easy enough: two VHADD with some shuffling in-between but in fact combining all permutations featured by AVX can't generate the very permutation needed to achieve that goal. Let me explain:

```
VHADD x, a, b => x = {a[0]+a[1], b[0]+b[1], a[2]+a[3], b[2]+b[3]}
VHADD y, c, d => y = {c[0]+c[1], d[0]+d[1], c[2]+c[3], d[2]+d[3]}
```

Were I able to permute x and y in the same manner to get

```
x1 = {a[0]+a[1], a[2]+a[3], c[0]+c[1], c[2]+c[3]}
y1 = {b[0]+b[1], b[2]+b[3], d[0]+d[1], d[2]+d[3]}
```

then

```
VHADD s, x1, y1 => s1 = {a[0]+a[1]+a[2]+a[3], b[0]+b[1]+b[2]+b[3],
c[0]+c[1]+c[2]+c[3], d[0]+d[1]+d[2]+d[3]}
```

which is the result I wanted.

Thus I just need to find how to perform

```
x,y => {x[0], x[2], y[0], y[2]}, {x[1], x[3], y[1], y[3]}
```

Unfortunately I came to the conclusion that this is provably impossible using any combination of VSHUFPD, VBLENDPD, VPERMILPD, VPERM2F128, VUNPCKHPD, VUNPCKLPD. The crux of the matter is that it is impossible to swap u[1] and u[2] in an instance u of __m256d.

**Question**

Is this really a dead end? Or have I missed a permutation instruction?

`b`

and`c`

in the input. That way you would have only to swap the inner two doubles. In any way, this is achievable using a combination of`vperm2f128`

, two spare registers,`vpermilps`

swapping the 1st/2nd and 3rd/4th and a final`vunpack[hl]pd`

combo to finish off the unwary source code reader. – hirschhornsalz May 31 '12 at 12:59`{a0, b0, c0, d0}`

etc. and simply add up. – hirschhornsalz May 31 '12 at 13:01