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I want to achieve this:

xmm0[0..63] = mem[0..63]
xmm0[64..127] = 0
xmm1[0..63] = mem[64..127]
xmm1[64..127] = 0

In fact, it doesn't have to be exactly like this. It's okay as long as:

xmm0[0..63] + xmm0[64..127] = mem[0..63]
xmm1[0..63] + xmm1[64..127] = mem[64..127]

How should I do this using xmm intrinsic?

share|improve this question
I dont think there is a single instruction that will do that. – Anycorn May 4 '14 at 2:41
@Anycorn What is a reasonable way of doing this in multiple instructions? – Haozhun May 4 '14 at 2:50
you can just use two separate movsd (_mm_load_sd intrinsic). Alternatively you could load the entire segment into first register to aggregate memory loads, then copy out the lower part to second register and subsequently zero out the lower part in first register. But that will likely be worse. – Anycorn May 4 '14 at 2:56
up vote 3 down vote accepted

I would simply use the _mm_set_pd or _mm_set1_pd intrinsics and see what your compiler generates - it should be reasonably efficient, and if not then the generated code may give you an idea of how to improve on it with more explicit intrinsics, e.g.:

double d[2];

__m128d v0 = _mm_set_pd(d[0], 0.0);
__m128d v1 = _mm_set_pd(d[1], 0.0);

Alternatively, as pointed out by @Mysticial and @Anycorn, you can just use _mm_load_sd:

double d[2];

__m128d v0 = _mm_load_sd(&d[0]);
__m128d v1 = _mm_load_sd(&d[1]);
share|improve this answer
I suppose _mm_load_sd() would work just as well. – Mysticial May 4 '14 at 6:34
Yes, that's probably the best solution - answer updated. – Paul R May 4 '14 at 7:02
you probably mean _mm_load_sd(&d[0]) – Anycorn May 4 '14 at 7:06
@Anycorn: thanks - copy and paste with too much haste - fixed now. – Paul R May 4 '14 at 7:09

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