Messages in this thread | | | Date | Wed, 9 Apr 2014 10:17:09 +0200 | From | Markus Trippelsdorf <> | Subject | Re: [GIT] kbuild/lto changes for 3.15-rc1 |
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On 2014.04.09 at 08:01 +0200, Ingo Molnar wrote: > > * Andi Kleen <ak@linux.intel.com> wrote: > > > On Tue, Apr 08, 2014 at 03:44:25PM -0700, Linus Torvalds wrote: > > > On Tue, Apr 8, 2014 at 1:49 PM, <josh@joshtriplett.org> wrote: > > > > > > > > In addition to making the kernel smaller and such (I'll leave the > > > > specific stats there to Andi), here's the key awesomeness of LTO that > > > > you, personally, should find useful and compelling: LTO will eliminate > > > > the need to add many lower-level Kconfig symbols to compile out bits of > > > > the kernel. > > > > > > Actually that, to me, is a negative right now. > > > > > > Since there's no way we'll make LTO the default in the foreseeable > > > future, people starting to use it like that is just a bad bad thing. > > > > > > So really, the main advantage of LTO would be any actual > > > optimizations it can do. And call me anal, but I want *numbers* > > > for that before I merge it. Not handwaving. I'm not actually aware > > > of how well - if at all - code generation actually improves. > > > > Well it looks very different if you look at the generated code. gcc > > becomes a lot more aggressive. > > > > But as I said there's currently no significant performance > > improvement known, so if your only goal is better performance this > > patch (as currently) known is not a big winner. My suspicion is > > that's mostly because the standard benchmarks we run are not too > > compiler sensitive. > > > > However the users seem to care about the other benefits, like code > > size. > > > > And there may well be loads that are compiler sensitive. As Honza > > posted, for non kernel workloads LTO is known to have large > > benefits. > > > > Besides at this point it's pretty much just some additions to the > > Makefiles. > > So the reason I've been mostly ignoring the LTO patches myself (I only > took LTO related changes that had other justifications such as > cleanups) is that I've actually implemented full LTO in a userspace > project myself, and my experience was: > > 1) There was very little if any measurable LTO runtime speedup, > despite agressive GCC options and despite user-space generally > offering more optimizations opportunities than kernel space. > > 2) LTO with current build tools meant a 1.5x-3x build speed > slowdown (on a very fast box with tons of CPUs and RAM), > which made LTO essentially a non-starter for development > work. (And that was with the Gold linker.) > > and looking at your characterisation of LTO you only conceded > #1 much after you started pushing LTO and you are clearly trying > to avoid talking about #2 while it's very much relevant... > > I'm willing to be convinced by actual numbers, and LTO tooling might > eventually improve, etc., but right now LTO is much ado about very > little, being pushed in a somewhat dishonest way.
I did some measurements on Andi's lto-3.14 branch:
options size build time ------------------------------ -O2 4408880 1:56.98 -flto -O2 4213072 2:36.22 -Os 3833248 1:45.13 -flto -Os 3651504 2:34.51
This was measured on my AMD 4 core machine with a monolithic .config where "CONFIG_MODULES is not set". The compiler is gcc trunk (4.9). So on x86_86 you get 5% size reduction for 25-30% build time slowdown.
The huge RAM requirements of LTO are solved with gcc-4.9.
As for tooling support, the next version of binutils will support automatic loading of the liblto_plugin and that will allow one to get rid of the gcc wrappers (gcc-ar, etc.).
It is unfortunate that a special version of binutils is still required to build the kernel, but that will change as soon as all "ld -r" invocations are eliminated (I think Sam Ravnborg has a patch for this).
-- Markus
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