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A little curiosity I found; GCC seems to generate the following code when I have a lot of optimization flags on:

00000000004019ae:   test %si,%si
00000000004019b1:   movups %xmm0,%xmm0
00000000004019b4:   je 0x401f40 <main(int, char**)+1904>

Question: what purpose does the second instruction serve? It doesn't look like it /does/ anything; so, is it some optimization to align the program in the instruction cache? Or is it something with out-of-order execution? (I'm compiling with -mtune=native on a Nehalem if that helps :D).

Nothing urgent, of course, just curious.

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2 Answers 2

Possibly xmm0 contains a result of some calculations, done in integer domain (with integer SSE instruction). And the next instruction using xmm0 is expected to be in floating point domain (floating point SSE instruction).

Nehalem may perform this next instruction faster if xmm0 is migrated to floating point domain with instruction like movaps or movups. And it may be beneficial to perform this migration prior to conditional jump instruction. In this case migration is done only once. If no movups instruction used, migration may be done twice (automatically, by the first FP instruction on this register), first time speculatively, on mispredicted branch, and second time - on the correct branch.

It seems, compiler noticed, that it is better to optimize calculation dependency chains, than to optimize for code size and execution resources.

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why would it use movups instead of movaps? –  PhiS Jan 23 '12 at 14:04
@PhiS, I don't know. They both are identical with register-only operands. –  Evgeny Kluev Jan 23 '12 at 14:08
Aha, perfect answer! Thanks (and upvoted). I didn't know movaps/movups converted to float, I thought it just did a straight copy, but that makes perfect sense. And yes, gcc will do that by default unless I specify -Os, I believe. –  vpostman Jan 23 '12 at 20:49
I didn't say anything is converted to float. movups doesn't change register content in any way. It copies the register bit-to-bit. Also it prepares this register to be processed by floating point execution unit (physically moves register's content to the appropriate place in CPU core). –  Evgeny Kluev Jan 24 '12 at 11:18
ahh ok, so it's something more like mov %eax, %st0, except that there aren't two separate registers in this case. good to know, I figured that was more like it. –  vpostman Jan 31 '12 at 0:03

Adding to the hypothesis proposed by Evgeny Kluev, other possibilities (in no particular order) are that (a) it's a compiler optimiser bug, (b) movups is inserted to break a dependency or (c) it is inserted for the purpose of code alignment.

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Aha, see, that last one makes sense as well, because IIRC I'm compiling with 16-byte code alignment (no idea why I'm doing that except for experimentation purposes. Most of my really performance critical code is hand-optimized). –  vpostman Jan 23 '12 at 20:52
@vpostman - I don't know which label you're aligning, but the je instruction after the movups seems to be aligned to 4, not 16. –  PhiS Jan 24 '12 at 7:46
so it is...very curious. –  vpostman Jan 31 '12 at 0:04

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