Is __int128_t arithmetic emulated by GCC, even with SSE?

ⅰ亾dé卋堺 提交于 2020-01-09 11:06:06

问题


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)?


回答1:


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.




回答2:


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.




回答3:


Although SSE/AVX/AVX-512/etc. have no 128-bit mode (their vector elements are strictly 64-bit max, and operations will simply overflow), as Paul R has implied, the main CPU does support limited 128-bit operations, by using a pair of registers.

  • When multiplying two regular 64-bit number, MUL/IMUL can outputs its 128-bit result in the RAX/RDX register pair.
  • Inversely, when dividing DIV/IDIV can take its input from then RAX/RDX pair to divide a 128-bit number by a 64-bit divisor (and outputs 64-bit quotient + 64-bit modulo)

Of course the CPU's ALU is 64-bit, thus - as implied Intel docs - these higher extra 64-bit come at the cost of extra micro-ops in the microcode. This is more dramatic for divisions (> 3x more) which already require lots of micro-ops to be processed.

Still that means that under some circumstances (like using a rule of three to scale a value), it's possible for a compiler to emit regular CPU instruction and not care to do any 128-bit emulation by itself.

This has been available for a long time:

  • since 80386, 32-bit CPU could do 64-bit multiplication/division using EAX:EDX pair
  • since 8086/88, 16-bit CPU could do 32-bit multiplication/division using AX:DX pair

(As for additions and subtraction: thank to the support for carry, it's completely trivial to do additions/subtractions of numbers of any arbitrary length that can fill your storage).



来源:https://stackoverflow.com/questions/16566437/is-int128-t-arithmetic-emulated-by-gcc-even-with-sse

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