vivek pandya via llvm-dev
2016-Jun-19 18:41 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
Hello, I build FireFox-46.0.1 source with llvm to test interprocedural register allocation. The build was successful with out any runtime faliures, here are few stats: Measure W/O IPRA WITH IPRA ======= ======== ========Total Build Time 76 mins 82.3 mins 8% increment Octane v2.0 JS Benchmark Score (higher is better) 18675.69 19665.16 5% improvement Kraken JS Benchmark time (lower is better) 1416.2 ms 1421.3 ms 0.35% regression JetStream JS Benchmark Score (higer is better) 110.10 112.88 2.52% improvement Any suggestions are welcome on how to effectively measure performance improvement! Sincerely, Vivek -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20160620/11e5d661/attachment.html>
Sanjoy Das via llvm-dev
2016-Jun-19 22:44 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
Hi Vivek, [Dropping firefox-dev, since I don't want to spam them] vivek pandya via llvm-dev wrote: > Measure W/O IPRAWITH IPRA > ======================= > Total Build Time76 mins82.3 mins8% increment > Octane v2.0 JS Benchmark Score (higher is better)18675.69 19665.165% improvement > Kraken JS Benchmark time (lower is better)1416.2 ms 1421.3 ms 0.35% regression > JetStream JS Benchmark Score (higer is better)110.10112.882.52% improvement This is great! Do you have a sense of how much noise these benchmarks have? For instance, if you run the benchmark 10 times, what is standard deviation in the numbers? It'd also be great to have a precise, non-measurement oriented view of the benchmarks. Is it possible to collect some statistics on how much you've improved the register allocation in these workloads? Perhaps you could count the instances where you preserved a register over a call site that wouldn't have been possible without IPRA? Thanks! -- Sanjoy
vivek pandya via llvm-dev
2016-Jun-20 04:37 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
On Mon, Jun 20, 2016 at 4:14 AM, Sanjoy Das <sanjoy at playingwithpointers.com> wrote:> Hi Vivek, > > [Dropping firefox-dev, since I don't want to spam them] > > vivek pandya via llvm-dev wrote: > > Measure W/O IPRAWITH IPRA > > =======================> > Total Build Time76 mins82.3 mins8% increment > > Octane v2.0 JS Benchmark Score (higher is better)18675.69 19665.165% > improvement > > Kraken JS Benchmark time (lower is better)1416.2 ms 1421.3 ms 0.35% > regression > > JetStream JS Benchmark Score (higer is better)110.10112.882.52% > improvement > > This is great! > > Do you have a sense of how much noise these benchmarks have? For > instance, if you run the benchmark 10 times, what is standard > deviation in the numbers? >Hello Sanjoy, For Octane and Kraken I have run them 4 times and above result is geometric mean. For Octane standard deviation (SD) is 918.54 (NO_IPRA) and 597.82 (With_IPRA). For Kraken unfortunately I don't have readings any more but there was very minor change in each run. JetStream it self runs the test for 3 times reports the result. From next time onwards I will run test at least for 10 times> > It'd also be great to have a precise, non-measurement oriented view of > the benchmarks.I don't understand this point actually all these benchmarks are suggested by firefox-devs and they wanted the results back.> Is it possible to collect some statistics on how much > you've improved the register allocation in these workloads?Actually while testing single source test case with debug build I used to compare results of -stats with regalloc keyword but while building such a huge software I prefer release build of llvm. And also I don't know if there is any way in llvm to generate stats for the whole build.> Perhaps > you could count the instances where you preserved a register over a > call site that wouldn't have been possible without IPRA? >Yes this seems a good idea and I think this is implementable, after calculating new regmask when inserting data into immutable pass two regmasks can be compared to calculate improvements. I will work on this and let you know the progress.> > Thanks! > -- Sanjoy >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20160620/9872cb64/attachment.html>
Davide Italiano via llvm-dev
2016-Jun-20 16:36 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
On Sun, Jun 19, 2016 at 11:41 AM, vivek pandya via llvm-dev <llvm-dev at lists.llvm.org> wrote:> Hello, > > I build FireFox-46.0.1 source with llvm to test interprocedural register > allocation. > The build was successful with out any runtime faliures, here are few stats:This is very good, thanks for working on this.> > Measure W/O IPRA WITH IPRA > ======= ======== ========> Total Build Time 76 mins 82.3 mins 8% increment > Octane v2.0 JS Benchmark Score (higher is better) 18675.69 19665.16 5% > improvementThis speedup is kind of amazing, enough to make me a little bit suspicious.>From what I can see, Octane is not exactly a microbenchmark but triesto model complex/real-world web applications, so, I think you might want to analyze where this speedup is coming from? Also, "score" might be a misleading metric, can you actually elaborate what that means? How does that relate to, let's say, runtime performance improvement? Thanks! -- Davide "There are no solved problems; there are only problems that are more or less solved" -- Henri Poincare
vivek pandya via llvm-dev
2016-Jun-20 19:22 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
On Mon, Jun 20, 2016 at 10:06 PM, Davide Italiano <davide at freebsd.org> wrote:> On Sun, Jun 19, 2016 at 11:41 AM, vivek pandya via llvm-dev > <llvm-dev at lists.llvm.org> wrote: > > Hello, > > > > I build FireFox-46.0.1 source with llvm to test interprocedural register > > allocation. > > The build was successful with out any runtime faliures, here are few > stats: > > This is very good, thanks for working on this. > > > > > Measure W/O IPRA WITH IPRA > > ======= ======== ========> > Total Build Time 76 mins 82.3 mins 8% increment > > Octane v2.0 JS Benchmark Score (higher is better) 18675.69 19665.16 5% > > improvement > > This speedup is kind of amazing, enough to make me a little bit suspicious. > From what I can see, Octane is not exactly a microbenchmark but tries > to model complex/real-world web applications, so, I think you might > want to analyze where this speedup is coming from?Hi Davide, I don't understand much about browser benchmarks but what IPRA is trying to do is reduce spill code , and trying to keep values in register where ever it can so speed up is comping from improved code quality. But with current infrastructure it is hard to tell which particular functions in browser code is getting benefitted.> Also, "score" might > be a misleading metric, can you actually elaborate what that means? > How does that relate to, let's say, runtime performance improvement? >Octane score considers 2 things execution speed and latency (pause during execution) . You can find more information here https://developers.google.com/octane/faq -Vivek> > Thanks! > > -- > Davide > > "There are no solved problems; there are only problems that are more > or less solved" -- Henri Poincare >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20160621/8dee5c9d/attachment.html>
Boris Zbarsky via llvm-dev
2016-Jun-20 20:30 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
On 6/19/16 2:41 PM, vivek pandya via llvm-dev wrote:> Octane v2.0 JS Benchmark Score (higher is better)18675.69 19665.165% > improvementWhat was the breakdown across the sub-benchmarks, if I might ask? -Boris
vivek pandya via llvm-dev
2016-Jun-21 02:26 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
On Tue, Jun 21, 2016 at 2:00 AM, Boris Zbarsky <bzbarsky at mit.edu> wrote:> On 6/19/16 2:41 PM, vivek pandya via llvm-dev wrote: > >> Octane v2.0 JS Benchmark Score (higher is better)18675.69 19665.165% >> improvement >> > > What was the breakdown across the sub-benchmarks, if I might ask?Hey Boris, Sorry but I haven't kept details I just noted the final score. I will keep it from next time. -Vivek> > > -Boris >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20160621/6230a7ce/attachment.html>
Axel Hecht via llvm-dev
2016-Jun-21 08:29 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
Hi, the best way to move forward, and I guess the answer to your question, is to get your work to build and test on try. And now I'm going to flood you with jargon, sorry. Instead of trying to document that all here, I suggest you ask people for help on irc. Notably, #taskcluster, and #build. Folks there are your target audience for compiler changes, too. First read is https://wiki.mozilla.org/ReleaseEngineering/TryServer, just to get the first piece of jargon out. I suspect that the next steps are: I speculate that you can use your version of llvm if you can create a docker image that is able to compile Firefox. Please confirm that with #taskcluster, and get some help there on how to do that. Then you'd want to make sure that you can actually compile/run mozilla-central. In particular wrt to taskcluster, there's been various file moves and changes, so working off of release is going to make your path rockier. I understand that mozilla-central is more of a moving target, but that shouldn't be that much of a problem for you in practice, I hope. I suspect that just focusing on linux x64 is good for you for now? So jargon-thought-train: Validate my assumptions about all of this ;-) . Make your setup work with mozilla-central. Work in docker. Make your mozilla-central's taskcluster tasks for linux x64 pick your docker image to build on try. Push to try for linux x64, with all tests and perf tests. Use treeherder and perfherder (web uis) to see tests and performance. If you want to focus on your toolchain impact over time instead of mozilla-central, I think you should be able to keep the same base version of your patch and just update the docker image, and then use perfherder to compare the results. HTH Axel On 19/06/16 20:41, vivek pandya wrote:> Hello, > > I build FireFox-46.0.1 source with llvm to test interprocedural > register allocation. > The build was successful with out any runtime faliures, here are few > stats: > > Measure W/O IPRAWITH IPRA > =======================> Total Build Time76 mins82.3 mins8% increment > Octane v2.0 JS Benchmark Score (higher is better)18675.69 19665.165% > improvement > Kraken JS Benchmark time (lower is better)1416.2 ms 1421.3 ms 0.35% > regression > JetStream JS Benchmark Score (higer is better)110.10112.882.52% > improvement > > Any suggestions are welcome on how to effectively measure performance > improvement! > > Sincerely, > Vivek > > > > _______________________________________________ > firefox-dev mailing list > firefox-dev at mozilla.org > https://mail.mozilla.org/listinfo/firefox-dev-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20160621/8854fba6/attachment.html>
vivek pandya via llvm-dev
2016-Jun-21 14:18 UTC
[llvm-dev] FireFox-46.0.1 build with interprocedural register allocation enabled
On Tue, Jun 21, 2016 at 1:59 PM, Axel Hecht <l10n at mozilla.com> wrote:> Hi, > > the best way to move forward, and I guess the answer to your question, is > to get your work to build and test on try. > > And now I'm going to flood you with jargon, sorry. Instead of trying to > document that all here, I suggest you ask people for help on irc. Notably, > #taskcluster, and #build. Folks there are your target audience for compiler > changes, too. > > First read is https://wiki.mozilla.org/ReleaseEngineering/TryServer, just > to get the first piece of jargon out. > > I suspect that the next steps are: > > I speculate that you can use your version of llvm if you can create a > docker image that is able to compile Firefox. Please confirm that with > #taskcluster, and get some help there on how to do that. > > Then you'd want to make sure that you can actually compile/run > mozilla-central. In particular wrt to taskcluster, there's been various > file moves and changes, so working off of release is going to make your > path rockier. I understand that mozilla-central is more of a moving target, > but that shouldn't be that much of a problem for you in practice, I hope. > > I suspect that just focusing on linux x64 is good for you for now? > > So jargon-thought-train: > > Validate my assumptions about all of this ;-) . > > Make your setup work with mozilla-central. > > Work in docker. > > Make your mozilla-central's taskcluster tasks for linux x64 pick your > docker image to build on try. > > Push to try for linux x64, with all tests and perf tests. > > Use treeherder and perfherder (web uis) to see tests and performance. > > > If you want to focus on your toolchain impact over time instead of > mozilla-central, I think you should be able to keep the same base version > of your patch and just update the docker image, and then use perfherder to > compare the results. > > Hello Axel,This seems good plan but I think I would require time to setup all these, so I prefer to do this during next weekend. Thanks, Vivek> HTH > > Axel > > On 19/06/16 20:41, vivek pandya wrote: > > Hello, > > I build FireFox-46.0.1 source with llvm to test interprocedural register > allocation. > The build was successful with out any runtime faliures, here are few stats: > > Measure W/O IPRA WITH IPRA > ======= ======== ========> Total Build Time 76 mins 82.3 mins 8% increment > Octane v2.0 JS Benchmark Score (higher is better) 18675.69 19665.16 5% > improvement > Kraken JS Benchmark time (lower is better) 1416.2 ms 1421.3 ms 0.35% > regression > JetStream JS Benchmark Score (higer is better) 110.10 112.88 2.52% > improvement > > Any suggestions are welcome on how to effectively measure performance > improvement! > > Sincerely, > Vivek > > > > _______________________________________________ > firefox-dev mailing listfirefox-dev at mozilla.orghttps://mail.mozilla.org/listinfo/firefox-dev > > >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20160621/2d31a9f0/attachment.html>
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