Star Tan
2013-Sep-02 03:02 UTC
[LLVMdev] [Polly] Comionpile-time of Polly's code generation
Hi all, It seems that Polly's code generation can leads to high compile-time overhead, especially for PolyBench applications such as 2mm, 3mm, gemm, syrk, etc. Some basic evaluation and analysis for Polly's code generation can be referred to http://llvm.org/bugs/show_bug.cgi?id=16898. Currently, we can choose to run -polly-code-generator=cloog or -polly-code-generator=isl for code generation, but both of them lead to almost double compile-time overhead for the 2mm benchmark. Unfortunately, both Cloog and ISL can not improve the execution time compared with -polly-code-generator=none. I think if we could identify it will not improve execution time in advance, then we can skip the expensive Cloog and ISL code generator. Can any one provide some suggestions or hints on this problem? Best, Star Tan -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20130902/10c689e0/attachment.html>
Tobias Grosser
2013-Sep-02 09:05 UTC
[LLVMdev] [Polly] Comionpile-time of Polly's code generation
On 09/01/2013 08:02 PM, Star Tan wrote:> Hi all, > > > It seems that Polly's code generation can leads to high compile-time overhead, especially for PolyBench applications such as 2mm, 3mm, gemm, syrk, etc. Some basic evaluation and analysis for Polly's code generation can be referred to http://llvm.org/bugs/show_bug.cgi?id=16898. > > > Currently, we can choose to run -polly-code-generator=cloog or -polly-code-generator=isl for code generation, but both of them lead to almost double compile-time overhead for the 2mm benchmark. Unfortunately, both Cloog and ISL can not improve the execution time compared with -polly-code-generator=none. I think if we could identify it will not improve execution time in advance, then we can skip the expensive Cloog and ISL code generator. > > > Can any one provide some suggestions or hints on this problem?OK. I think in this case the problem is actually to figure out why Polly does not give a speedup in terms of execution time, because we have seen large speedups for 2mm and 3mm. Here is what I see: 2mm$ polly-clang 2mm.c -O3 -I ../../../utilities/ -DPOLYBENCH_TIME -DPOLYBENCH_USE_SCALAR_LB -mllvm -polly-ignore-aliasing 2mm$ time ./a.out 18.217128 real 0m18.256s user 0m18.128s sys 0m0.064s 2mm$ polly-clang 2mm.c -O3 -I ../../../utilities/ -DPOLYBENCH_TIME -DPOLYBENCH_USE_SCALAR_LB -mllvm -polly-ignore-aliasing -mllvm -polly 2mm$ time ./a.out 4.986877 real 0m5.036s user 0m4.940s sys 0m0.068s So the reason this does not work is that the polybench kernels in the test suite do not annotate the functions called with the 'restrict' keyword (that's whe we need the ignore-aliasing) as well as that the size of the arrays is given as scalars but the corresponding loop bounds are not. It would be great to fix up those issues. The first issue can be fixed by adding run-time alias analysis checks. Adding those checks now became very easy with the new isl code generation. The basic idea is that we ask isl to generate the necessary run-time check and add it into the condition created by executeScopConditionally(). In case you are interested in looking into this, this would be a great help! Cheers, Tobias
At 2013-09-02 17:05:52,"Tobias Grosser" <tobias at grosser.es> wrote:>On 09/01/2013 08:02 PM, Star Tan wrote: >> Hi all, >> >> >> It seems that Polly's code generation can leads to high compile-time overhead, especially for PolyBench applications such as 2mm, 3mm, gemm, syrk, etc. Some basic evaluation and analysis for Polly's code generation can be referred to http://llvm.org/bugs/show_bug.cgi?id=16898. >> >> >> Currently, we can choose to run -polly-code-generator=cloog or -polly-code-generator=isl for code generation, but both of them lead to almost double compile-time overhead for the 2mm benchmark. Unfortunately, both Cloog and ISL can not improve the execution time compared with -polly-code-generator=none. I think if we could identify it will not improve execution time in advance, then we can skip the expensive Cloog and ISL code generator. >> >> >> Can any one provide some suggestions or hints on this problem? > >OK. I think in this case the problem is actually to figure out why Polly >does not give a speedup in terms of execution time, because we have seen >large speedups for 2mm and 3mm. > >Here is what I see: > >2mm$ polly-clang 2mm.c -O3 -I ../../../utilities/ -DPOLYBENCH_TIME >-DPOLYBENCH_USE_SCALAR_LB -mllvm -polly-ignore-aliasing >2mm$ time ./a.out >18.217128 > >real 0m18.256s >user 0m18.128s >sys 0m0.064s >2mm$ polly-clang 2mm.c -O3 -I ../../../utilities/ -DPOLYBENCH_TIME >-DPOLYBENCH_USE_SCALAR_LB -mllvm -polly-ignore-aliasing -mllvm -polly >2mm$ time ./a.out >4.986877 > >real 0m5.036s >user 0m4.940s >sys 0m0.068s > >So the reason this does not work is that the polybench kernels in the >test suite do not annotate the functions called with the 'restrict' >keyword (that's whe we need the ignore-aliasing) as well as that the >size of the arrays is given as scalars but the corresponding loop bounds >are not. It would be great to fix up those issues. > >The first issue can be fixed by adding run-time alias analysis checks. >Adding those checks now became very easy with the new isl code >generation. The basic idea is that we ask isl to generate the necessary >run-time check and add it into the condition created by >executeScopConditionally(). In case you are interested in looking into >this, this would be a great help! >Thanks for your helpful reply. Yes, if we add -polly-ignore-aliasing, which skills the aliasing checking in ScopDetection, then we can detect the kernel loop as a valid scop and gain significant performance improvement. I tried to follow your hints to look into the executeScopConditionally() in CodeGen/Utils.cpp, but I cannot fully understand how to affect ScopDetection pass by modifying the executionScopConditionally(). Do you mean I can add ISL checking information into the Context in executionScopConditionally()? Could you give some more concrete ideas? Is there any code examples about ISL alias analysis? Thanks, Star Tan -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20130909/4a4ad502/attachment.html>
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