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I've heard that the 128-bit integer data-types like __int128_t provided by GCC are emulated and therefore slow. However, I understand that the various SSE instruction sets (SSE, SSE2, ..., AVX) introduced at least some instructions for 128-bit registers. I don't know very much about SSE or assembly / machine code, so I was wondering if someone could explain to me whether arithmetic with __int128_t is emulated or not using modern versions of GCC.

The reason I'm asking this is because I'm wondering if it makes sense to expect big differences in __int128_t performance between different versions of GCC, depending on what SSE instructions are taken advantage of.

So, what parts of __int128_t arithmetic are emulated by GCC, and what parts are implemented with SSE instructions (if any)?

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There are no 128 bit arithmetic operations in SSE or AVX (apart from bitwise operations). –  Paul R May 15 '13 at 15:29
There's not even a 128 bit add in SSE/AVX. You could emulate it with bitwise operations and shifts, but given that you already have proper 64 bit scalar arithmetic instructions in x86-64 which can easily be combined for 128 bit operations there would seem to be nothing to be gained from this. –  Paul R May 15 '13 at 16:07
Thanks @Paul. I made an answer out of this, I hope you don't mind. –  Douglas B. Staple May 15 '13 at 17:19
You're welcome - I'll even up-vote your answer. ;-) –  Paul R May 15 '13 at 17:37
there is a similar question here stackoverflow.com/q/12200698/995714 –  Lưu Vĩnh Phúc Apr 14 at 3:15

2 Answers 2

up vote 5 down vote accepted

I was confusing two different things in my question.

Firstly, as PaulR explained in the comments: "There are no 128 bit arithmetic operations in SSE or AVX (apart from bitwise operations)". Considering this, 128-bit arithmetic has to be emulated on modern x86-64 based processors (e.g. AMD Family 10 or Intel Core architecture). This has nothing to do with GCC.

The second part of the question is whether or not 128-bit arithmetic emulation in GCC benefits from SSE/AVX instructions or registers. As implied in PaulR's comments, there isn't much in SSE/AVX that's going to allow you to do 128-bit arithmetic more easily; most likely x86-64 instructions will be used for this. The code I'm interested in can't compile with -mno-sse, but it compiles fine with -mno-sse2 -mno-sse3 -mno-ssse3 -mno-sse4 -mno-sse4.1 -mno-sse4.2 -mno-avx -mno-avx2 and performance isn't affected. So my code doesn't benefit from modern SSE instructions.

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SSE2-AVX instructions are available for 8,16,32,64-bit integer data types. They are mostly intended to treat packed data together, for example, 128-bit register may contain four 32-bit integers and so on.

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This is actually explained very nicely on Wikipedia: "Most modern CPUs feature SIMD instruction sets (SSE, AltiVec etc.) where 128-bit vector registers are used to store several smaller numbers, such as four 32-bit floating-point numbers. A single instruction can then operate on all these values in parallel. However, these processors do not operate on individual numbers that are 128 binary digits in length, only their registers have the size of 128-bits." –  Douglas B. Staple May 15 '13 at 18:31

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