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Suppose I have an array:

uint8_t arr[256];

and an element

__m128i x

containing 16 bytes,

x_1, x_2, ... x_16

I would like to efficiently fill a new __m128i element

__m128i y

with values from arr depending on the values in x, such that:

y_1  = arr[x_1]
y_2  = arr[x_2]
y_16 = arr[x_16]

A command to achieve this would essentially be loading a register from a non-contiguous set of memory locations. I have a painfully vague memory of having seen documentation of such a command, but can't find it now. Does it exist? Thanks in advance for your help.

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Fixed the code formatting; in future, keep in mind that if you want to format a block of text as code you have to indent it with 4 spaces and leave a blank line before it (or just select it and press the 0101 button). –  Matteo Italia Dec 19 '10 at 16:24
@Matteo: It's not 101010 anymore. It changed to { }... –  thkala Dec 19 '10 at 16:51
@thkala: uh, I didn't notice, in general I just do CTRL-K or copy-paste from my editor where I can add the 4 spaces pressing TAB (and I can benefit from syntax highlighting). –  Matteo Italia Dec 19 '10 at 16:58

1 Answer 1

up vote 6 down vote accepted

This kind of capability in SIMD architectures is known as load/store scatter/gather. Unfortunately SSE does not have it. Future SIMD architectures from Intel may have this - the ill-fated Larrabee processor was one case in point. For now though you will just need to design your data structures in such a way that this kind of functionality is not needed.

Note that you can achieve the equivalent effect by using e.g. _mm_set_epi8:

y = _mm_set_epi8(arr[x_16], arr[x_15], arr[x_14], ..., arr[x_1]);

although of course this will just generate a bunch of scalar code to load your y vector. This is fine if you are doing this kind of operation outside any performance-critical loops, e.g. as part of initialisation prior to looping, but inside a loop it is likely to be a performance-killer.

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Thanks for the answer. "Gather/Scatter" is clearly the term I was looking for. After a brief inspection, it looks like such functionality is available on GPUs. Any advice along those lines? –  Travis Dec 19 '10 at 22:56
Even on GPUs this can be inefficient, since loading/storing to/from different memory addresses will inevitably mean more bus cycles. –  Paul R Dec 20 '10 at 0:15

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