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(Sorry if this sounds like a rant, but it's a real question and I'd appreciate real answers)

I understand that since C is so old, it might have not made sense to add it back then(MMX didn't even exist back then). But since then there was C99, and still there are no standard for SIMD variables(as far as I know).

By "SIMD variables", I mean something like:

vec2_int a = {2, 2};
vec2_int b = {3, 3};
a += b;

I also understand that this can be done with structs and (in theory) the compiler should optimize it to use SIMD when appropriate anyway.

But I recently saw a post from Qt Labs which includes an example with types like "__m128i"(which look clearly non-standard), instead of relying on optimizations. Considering Qt is advertising this as greatly improving Qt's speed, I'm guessing compiler optimizations are being insufficient, at least for some programmers.

If it was just C, I'd think C was being stupid. But, as far as I know, newer languages such as C++, Java and C# don't include these either. C# has Mono.SIMD but it's not a primitive type(and since C# has a "decimal" keyword, I don't think they were trying to save types).

So here's what I'm noticing: Languages with vector primitive types seem to be the exception and not the rule. Because vector primitive types look so obvious, I'm guessing there's got to be some decent reasons NOT to include these types.

Does anyone here know why these types are so frequently excluded? Some links to rationales against adding them?

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1 Answer

up vote 5 down vote accepted

Because not all processors support SIMD instructions. Languages like C and C++ (and even Java and C#) are designed to be used on different kinds of hardware, like microcontrollers, in addition to desktop computers.

Currently, vectorization of algorithms is not automatic (although that is being actively researched). Algorithms that are "vectorizable" must be explicitly written to take advantage of any SIMD capabilities of the execution environment.

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Yes, but optimizing to SIMD-ify algorithms automatically is hard. Writing non-SIMD versions of SIMD algorithms is trivial. –  luiscubal Sep 6 '10 at 13:36
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True, but not all algorithms are SIMD-izable in the first place. –  In silico Sep 6 '10 at 13:51
    
@In silico - Not all algorithms are related to strings, and yet C# has a string primitive type. Your arguments might be valid, but still not enough to justify such wide lack of native SIMD types. Like I said, if C was alone in this, I'd understand. But popular languages with no native SIMD support outnumber by far the ones with SIMD... –  luiscubal Sep 6 '10 at 19:43
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If popularity is the issue, then the answer would probably be that not a lot of people heard about it or used it much. At least for C++, the philosophy is to only add language features that are "generally useful" to programmers. SIMD probably doesn't make that cut, even though it can be extremely useful in certain contexts. –  In silico Sep 6 '10 at 19:51
    
@In silico - I guess that explanation will have to be enough. –  luiscubal Sep 6 '10 at 20:17
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