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While benchmarking something I measured a much lower throughput than I had calculated, which I narrowed down to the LZCNT instruction (it also happens with TZCNT), as demonstrated in the following benchmarks:

  xor ecx, ecx
_benchloop:
  lzcnt eax, edx
  add ecx, 1
  jnz _benchloop

And:

  xor ecx, ecx
_benchloop:
  xor eax, eax  ; this shouldn't help, but it does
  lzcnt eax, edx
  add ecx, 1
  jnz _benchloop

The second version is much faster. It shouldn't be. There's no reason why LZCNT should have an input dependency on its output. Unlike BSR/BSF, the xZCNT instructions always overwrite their output.

I'm running this on a 4770K, so LZCNT and TZCNT aren't being executed as BSR/BSF.

What's going on here?

5
  • Perhaps lzcnt can't be executed speculatively (it updates CF, ZF) after jnz (ZF != 0). Whereas xor breaks the dependency chain? But since add would retire the previous flags anyway, I'm not if this is the case. – Brett Hale Jan 27 '14 at 22:11
  • Just to make sure: can you rule out that it is a code alignment issue and has nothing to do with lzcnt? – PhiS Jan 28 '14 at 7:50
  • @PhiS using a 3 byte nop instead of xor eax, eax made it slow again – nicomp Jan 28 '14 at 8:38
  • The "xor" workaround has been added to gcc 4.9.2: gcc.gnu.org/PR62011 – Falk Hüffner Feb 25 '15 at 11:42
  • 3
    For reference by future visitors, this is just microarchitectural errata (essentially, a bug). There is no reason why LZCNT should have an input dependency on its output, but it does. The POPCNT instruction has the same bug, as described in detail here. – Cody Gray Jun 2 '17 at 14:07
20

This is simply a limitation in the micro-architecture of your Intel Haswell CPU and several previous1 CPUs. It has been fixed for tzcnt and lzcnt as of Skylake-S (client), but the issue remained for popcnt until it was fixed in Cannon Lake.

On those micro-architectures the destination operand for tzcnt, lzcnt and popcnt is treated as an input dependency even though, semantically, it is not. Now I doubt this is a really a "bug": if it was simply an unintended behavior/oversight, I expect it would have been fixed in one of the several new micro-architectures that have been released since it was introduced.

Most likely it is a design compromise based on one or both of the following two factors:

  • The hardware for popcnt, lzcnt and tzcnt is likely all shared with the existing bsf and bsr instructions. Now bsf and bsr do have a dependency on the previous destination value in practice2 for the special case of all-bits-zero input, since Intel chips leave the destination unmodified in that case. So it is entirely possible that the simplest design for the combined hardware resulted in the other similar instructions executing on the same unit inheriting the same dependency.

  • The vast majority of x86 two operand ALU instructions have an dependency on the destination operand, since it is used as a source as well. The three affected instructions are somewhat unique in that they are unary operators, but unlike existing unary operators like not and neg which have a single operand used as source and destination, they have distinct source and destination operands, making them superficially similar to most 2-input instructions. Perhaps the renamer/scheduler circuitry just doesn't distinguish the special case of these unary-with-two-register-operand versus the vast majority of plain shared source/destination 2-input instructions which don't have this dependency.

In fact, for the case of popcnt Intel has issued various errata covering the false dependency issue such as HSD146 for Haswell Desktop and SKL029 for Skylake, which reads:

POPCNT Instruction May Take Longer to Execute Than Expected

Problem POPCNT instruction execution with a 32 or 64 bit operand may be delayed until previous non -dependent instructions have executed.

Implication Software using the POPCNT instruction may experience lower performance than expected.

Workaround None identified

I always found this erratum unusual since it isn't really identifying any type of functional defect or non-conformance to specification which is the case for essentially all the other errata. Intel doesn't really document a specific performance model for the OoO execution engine and there are a ton of other performance "gotchas" that have appeared and disappeared over the years (many with a much larger impact than this very minor issue) that don't get documented in errata. Still, this perhaps provides some evidence that it can be considered a bug. Oddly, the erratum was never extended to include tzcnt or lzcnt which had the same issue when they were introduced.


1 Well tzcnt and lzcnt only appeared in Haswell, but the problem exists for popcnt as well which was introduced in Nehalem - but the false dependency problem perhaps only exists for Sandy Bridge or later.

2 In practice, although not documented in the ISA docs, since the result for all-zero input was undefined in the Intel manuals. Most or all Intel chips implemented the behavior as leaving the destination register unchanged in this case, however.

4
  • Let us continue this discussion in chat. – BeeOnRope Nov 11 '17 at 23:26
  • The dst-unmodified behaviour of BSF/BSR is documented by AMD ISA reference, for AMD CPUs. I expect future Intel will continue to be compatible with AMD and current Intel CPUs in future, almost certainly for uarches that evolve out of their current Sandybridge-family (e.g. Ice Lake). Plausible that they'd drop the output dependency for that execution unit in a wholly new uarch, especially if backwards compat isn't as much of a priority (e.g. if they ever do something like KNL again) – Peter Cordes Sep 19 '20 at 21:30
  • @PeterCordes do you by any chance have a link to the BSF/BSR documentation in AMD ISA? I am having trouble finding it. – Noah Feb 17 at 6:54
  • 1
    @Noah: developer.amd.com/resources/developer-guides-manuals was the first hit on google for amd x86 manual. Since this is not specific to one uarch, on that page look for the "AMD64 Architecture" manuals, and it seems vol.3 is the "general" instructions, not simd or fp. Equivalent of Intel's vol.2 SDM manual. amd.com/system/files/TechDocs/24594.pdf#page=157 is the entry for BSF which mentions that src=0 case. (en.wikipedia.org/wiki/… I think says the whole reg is truly unmodified even for 32-bit operand-size.) – Peter Cordes Feb 17 at 6:59
4

Along the lines of what @BrettHale suggested, it's possible (if odd) that you're hitting a corner-case partial flags update stall. The flag state should in theory simply be renamed away because the following add updates all flags, but if it isn't for some reason then it would introduce a loop-carried dependency, and inserting xor would break that dependency.

It's hard to know for certain if this is what's happening, but it looks at a casual glance to be the most likely explanation; you can test the hypothesis by replacing the xor with test (which also breaks the flags dependency but has no effect on register dependencies).

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  • Sorry for the late reply. It was a good theory, but unfortunately the test disproves it. After changing the xor to test, it went back to being slow. – nicomp Jan 28 '14 at 8:35
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    @harold: Nothing unfortunate about it. You seem to have ruled out alignment, and we’ve just ruled out a partial flags dependency. “When you have eliminated the impossible, whatever remains, however improbable, must be the truth.” We’ve may not quite have eliminated everything else yet, but it looks increasingly like xZCNT as implemented on your processor has a dependency on its output register in rename. – Stephen Canon Jan 28 '14 at 16:28
  • What else should I test, before I draw that conclusion? – nicomp Jan 28 '14 at 17:59
  • 3
    @StephenCanon: This is in fact the case. It's a performance bug in Intel CPUs. Now that this is known, gcc tries to work around it by using an output register that hasn't been used recently. google should be able to find some hits. IDK when it was discovered; maybe not until after this Q&A. – Peter Cordes Jul 15 '15 at 3:05

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