Wan, Xiaofei
2013-Jul-16 10:33 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
Hi, community: For the sake of our business need, I want to enable "Function-based parallel code generation" to boost up the compilation of single module, please see the details of the design and provide your feedbacks on below aspects, thanks! 1. Is this idea the proper solution for my requirement 2. This new feature will be enabled by llc -thd=N and has no impact on original llc when -thd=1 3. Can this new feature of llc be accepted by community and merged into LLVM code tree Patches The patch is divided into four separated parts, the all-in-one patch could be found here: http://llvm-reviews.chandlerc.com/D1152 Design https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgjY-vhyfySg/edit?usp=sharing Background 1. Our business need to compile C/C++ source files into LLVM IR and link them into a big BC file; the big BC file is then compiled into binary code on different arch/target devices. 2. Backend code generation is a time-consuming activity happened on target device which makes it an important user experience. 3. Make -j or file based parallelism can't help here since there is only one big BC file; function-based parallel LLVM backend code generation is a good solution to improve compilation time which will fully utilize multi-cores. Overall design strategy and goal 1. Generate totally same binary as what single thread output 2. No impacts on single thread performance & conformance 3. Little impacts on LLVM code infrastructure Current status and test result 1. Parallel llc can generate same code as single thread by "objdump -d", it could pass 10 hours stress test for all performance benchmark 2. Parallel llc can introduce ~2.9X performance gain on XEON sever for 4 threads Thanks Wan Xiaofei -------------- next part -------------- A non-text attachment was scrubbed... Name: Parallel.CG.7z Type: application/octet-stream Size: 24682 bytes Desc: Parallel.CG.7z URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20130716/9fa272e0/attachment.obj>
Chandler Carruth
2013-Jul-16 10:46 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
While I think the end goal you're describing is close to the correct one, I see the high-level strategy for getting there somewhat differently: 1) The code generators are only one collection of function passes that might be parallelized. Many others might also be parallelized profitably. The design for parallelism within LLVM's pass management infrastructure should be sufficiently generic to express all of these use cases. 2) The idea of having multiple pass managers necessitates (unless I misunderstand) duplicating a fair amount of state. For example, the caches in immutable analysis passes would no longer be shared, etc. I think that is really unfortunate, and would prefer instead to use parallelizing pass managers that are in fact responsible for the scheduling of passes. 3) It doesn't provide a strategy for parallelizing the leaves of a CGSCC pass manager which is where a significant portion of the potential parallelism is available within the middle end. 4) It doesn't deal with the (numerous) parts of LLVM that are not actually thread safe today. They may happen to work with the code generators you're happening to test, but there is no guarantee. Notable things to think about here are computing new types, the use-def lists of globals, commandline flags, and static state variables. While our intent has been to avoid problems with the last two that could preclude parallelism, it seems unlikely that we have succeeded without thorough testing to this point. Instead, I fear we have leaned heavily on the crutch of one-thread-per-LLVMContext. 5) It adds more complexity onto the poorly designed pass manager infrastructure. Personally, I think that cleanups to the design and architecture of the pass manager should be prioritized above adding new functionality like parallelism. However, so far no one has really had time to do this (including myself). While I would like to have time in the future to do this, as with everything else in OSS, it won't be real until the patches start flowing. On Tue, Jul 16, 2013 at 3:33 AM, Wan, Xiaofei <xiaofei.wan at intel.com> wrote:> Hi, community: > > For the sake of our business need, I want to enable "Function-based > parallel code generation" to boost up the compilation of single module, > please see the details of the design and provide your feedbacks on below > aspects, thanks! > 1. Is this idea the proper solution for my requirement > 2. This new feature will be enabled by llc -thd=N and has no impact on > original llc when -thd=1 > 3. Can this new feature of llc be accepted by community and merged into > LLVM code tree > > Patches > The patch is divided into four separated parts, the all-in-one patch could > be found here: > http://llvm-reviews.chandlerc.com/D1152 > > Design > > https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgjY-vhyfySg/edit?usp=sharing > > > Background > 1. Our business need to compile C/C++ source files into LLVM IR and link > them into a big BC file; the big BC file is then compiled into binary code > on different arch/target devices. > 2. Backend code generation is a time-consuming activity happened on target > device which makes it an important user experience. > 3. Make -j or file based parallelism can't help here since there is only > one big BC file; function-based parallel LLVM backend code generation is a > good solution to improve compilation time which will fully utilize > multi-cores. > > Overall design strategy and goal > 1. Generate totally same binary as what single thread output > 2. No impacts on single thread performance & conformance > 3. Little impacts on LLVM code infrastructure > > Current status and test result > 1. Parallel llc can generate same code as single thread by "objdump -d", > it could pass 10 hours stress test for all performance benchmark > 2. Parallel llc can introduce ~2.9X performance gain on XEON sever for 4 > threads > > > Thanks > Wan Xiaofei > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20130716/61096a69/attachment.html>
Wan, Xiaofei
2013-Jul-16 11:37 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
Thanks for your comments, see my reply below, thanks. Thanks Wan Xiaofei From: Chandler Carruth [mailto:chandlerc at google.com] Sent: Tuesday, July 16, 2013 6:47 PM To: Wan, Xiaofei Cc: LLVM Developers Mailing List (llvmdev at cs.uiuc.edu) Subject: Re: [LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation While I think the end goal you're describing is close to the correct one, I see the high-level strategy for getting there somewhat differently: 1) The code generators are only one collection of function passes that might be parallelized. Many others might also be parallelized profitably. The design for parallelism within LLVM's pass management infrastructure should be sufficiently generic to express all of these use cases. [xiaofei], yes, only passes in function pass manager are parallelized, it is enough to meet our requirement since 95% of time in llc are in function passes. 2) The idea of having multiple pass managers necessitates (unless I misunderstand) duplicating a fair amount of state. For example, the caches in immutable analysis passes would no longer be shared, etc. I think that is really unfortunate, and would prefer instead to use parallelizing pass managers that are in fact responsible for the scheduling of passes. [ Xiaofei ] For immutable passes, they are not parallelized, actually, only passes in function pass manager are parallelized The reason why I start multiple pass manager is, make original code infrastructure stable, each thread has its own PM, then consume functions independently. 3) It doesn't provide a strategy for parallelizing the leaves of a CGSCC pass manager which is where a significant portion of the potential parallelism is available within the middle end. 4) It doesn't deal with the (numerous) parts of LLVM that are not actually thread safe today. They may happen to work with the code generators you're happening to test, but there is no guarantee. Notable things to think about here are computing new types, the use-def lists of globals, commandline flags, and static state variables. While our intent has been to avoid problems with the last two that could preclude parallelism, it seems unlikely that we have succeeded without thorough testing to this point. Instead, I fear we have leaned heavily on the crutch of one-thread-per-LLVMContext. [Xiaofei] we consider all the aspects you are listing, otherwise, it can’t pass any test cases, now we could pass all benchmarks and almost all unit test cases especial cases. 5) It adds more complexity onto the poorly designed pass manager infrastructure. Personally, I think that cleanups to the design and architecture of the pass manager should be prioritized above adding new functionality like parallelism. However, so far no one has really had time to do this (including myself). While I would like to have time in the future to do this, as with everything else in OSS, it won't be real until the patches start flowing. [xiaofei] this feature doesn’t rely on PM too much; it doesn’t need to change PM infrastructure On Tue, Jul 16, 2013 at 3:33 AM, Wan, Xiaofei <xiaofei.wan at intel.com<mailto:xiaofei.wan at intel.com>> wrote: Hi, community: For the sake of our business need, I want to enable "Function-based parallel code generation" to boost up the compilation of single module, please see the details of the design and provide your feedbacks on below aspects, thanks! 1. Is this idea the proper solution for my requirement 2. This new feature will be enabled by llc -thd=N and has no impact on original llc when -thd=1 3. Can this new feature of llc be accepted by community and merged into LLVM code tree Patches The patch is divided into four separated parts, the all-in-one patch could be found here: http://llvm-reviews.chandlerc.com/D1152 Design https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgjY-vhyfySg/edit?usp=sharing Background 1. Our business need to compile C/C++ source files into LLVM IR and link them into a big BC file; the big BC file is then compiled into binary code on different arch/target devices. 2. Backend code generation is a time-consuming activity happened on target device which makes it an important user experience. 3. Make -j or file based parallelism can't help here since there is only one big BC file; function-based parallel LLVM backend code generation is a good solution to improve compilation time which will fully utilize multi-cores. Overall design strategy and goal 1. Generate totally same binary as what single thread output 2. No impacts on single thread performance & conformance 3. Little impacts on LLVM code infrastructure Current status and test result 1. Parallel llc can generate same code as single thread by "objdump -d", it could pass 10 hours stress test for all performance benchmark 2. Parallel llc can introduce ~2.9X performance gain on XEON sever for 4 threads Thanks Wan Xiaofei _______________________________________________ LLVM Developers mailing list LLVMdev at cs.uiuc.edu<mailto:LLVMdev at cs.uiuc.edu> http://llvm.cs.uiuc.edu http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20130716/ee7312ed/attachment.html>
Evan Cheng
2013-Jul-16 12:28 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
Please see Shuxin's proposal on "parallelizing post-IPO stage". It seems the two projects are related. Evan On Jul 16, 2013, at 3:33 AM, "Wan, Xiaofei" <xiaofei.wan at intel.com> wrote:> Hi, community: > > For the sake of our business need, I want to enable "Function-based parallel code generation" to boost up the compilation of single module, please see the details of the design and provide your feedbacks on below aspects, thanks! > 1. Is this idea the proper solution for my requirement > 2. This new feature will be enabled by llc -thd=N and has no impact on original llc when -thd=1 > 3. Can this new feature of llc be accepted by community and merged into LLVM code tree > > Patches > The patch is divided into four separated parts, the all-in-one patch could be found here: > http://llvm-reviews.chandlerc.com/D1152 > > Design > https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgjY-vhyfySg/edit?usp=sharing > > > Background > 1. Our business need to compile C/C++ source files into LLVM IR and link them into a big BC file; the big BC file is then compiled into binary code on different arch/target devices. > 2. Backend code generation is a time-consuming activity happened on target device which makes it an important user experience. > 3. Make -j or file based parallelism can't help here since there is only one big BC file; function-based parallel LLVM backend code generation is a good solution to improve compilation time which will fully utilize multi-cores. > > Overall design strategy and goal > 1. Generate totally same binary as what single thread output > 2. No impacts on single thread performance & conformance > 3. Little impacts on LLVM code infrastructure > > Current status and test result > 1. Parallel llc can generate same code as single thread by "objdump -d", it could pass 10 hours stress test for all performance benchmark > 2. Parallel llc can introduce ~2.9X performance gain on XEON sever for 4 threads > > > Thanks > Wan Xiaofei > <Parallel.CG.7z>_______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
Wan, Xiaofei
2013-Jul-16 14:23 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
Yes, the purpose is similar, we started this job from last year; But it Shuxin's solution is module based (correct me if I am wrong), we tried this solution and failed for many reasons, it is described in my design document https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgjY-vhyfySg/edit?usp=sharing we need discuss two solution and compare them, then adopt one solution The biggest difference of module based parallelism and function based parallelism are 1. how to partition module into different pieces which consume similar time, it is a difficult question 2. How to make sure the generated binary is same each time 3. if 2 can't be achieved, it is difficult to validate the correctness of parallelism Thanks Wan Xiaofei -----Original Message----- From: Evan Cheng [mailto:evan.cheng at apple.com] Sent: Tuesday, July 16, 2013 8:28 PM To: Wan, Xiaofei Cc: LLVM Developers Mailing List (llvmdev at cs.uiuc.edu); Shuxin Yang Subject: Re: [LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation Please see Shuxin's proposal on "parallelizing post-IPO stage". It seems the two projects are related. Evan On Jul 16, 2013, at 3:33 AM, "Wan, Xiaofei" <xiaofei.wan at intel.com> wrote:> Hi, community: > > For the sake of our business need, I want to enable "Function-based parallel code generation" to boost up the compilation of single module, please see the details of the design and provide your feedbacks on below aspects, thanks! > 1. Is this idea the proper solution for my requirement 2. This new > feature will be enabled by llc -thd=N and has no impact on original > llc when -thd=1 3. Can this new feature of llc be accepted by > community and merged into LLVM code tree > > Patches > The patch is divided into four separated parts, the all-in-one patch could be found here: > http://llvm-reviews.chandlerc.com/D1152 > > Design > https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgj > Y-vhyfySg/edit?usp=sharing > > > Background > 1. Our business need to compile C/C++ source files into LLVM IR and link them into a big BC file; the big BC file is then compiled into binary code on different arch/target devices. > 2. Backend code generation is a time-consuming activity happened on target device which makes it an important user experience. > 3. Make -j or file based parallelism can't help here since there is only one big BC file; function-based parallel LLVM backend code generation is a good solution to improve compilation time which will fully utilize multi-cores. > > Overall design strategy and goal > 1. Generate totally same binary as what single thread output 2. No > impacts on single thread performance & conformance 3. Little impacts > on LLVM code infrastructure > > Current status and test result > 1. Parallel llc can generate same code as single thread by "objdump > -d", it could pass 10 hours stress test for all performance benchmark > 2. Parallel llc can introduce ~2.9X performance gain on XEON sever for > 4 threads > > > Thanks > Wan Xiaofei > <Parallel.CG.7z>_______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
Shuxin Yang
2013-Jul-16 18:02 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
In addition to the concerns Chandler figure out, I'm curious about : execution time of pristine-llc vs "modified-llc with -thd=1", and the exec-time of pristine-clang vs clang-linked-with-the-modified-llc. Thanks On 7/16/13 3:46 AM, Chandler Carruth wrote:> While I think the end goal you're describing is close to the correct > one, I see the high-level strategy for getting there somewhat > differently: > > 1) The code generators are only one collection of function passes that > might be parallelized. Many others might also be parallelized > profitably. The design for parallelism within LLVM's pass management > infrastructure should be sufficiently generic to express all of these > use cases. > > 2) The idea of having multiple pass managers necessitates (unless I > misunderstand) duplicating a fair amount of state. For example, the > caches in immutable analysis passes would no longer be shared, etc. I > think that is really unfortunate, and would prefer instead to use > parallelizing pass managers that are in fact responsible for the > scheduling of passes. > > 3) It doesn't provide a strategy for parallelizing the leaves of a > CGSCC pass manager which is where a significant portion of the > potential parallelism is available within the middle end. > > 4) It doesn't deal with the (numerous) parts of LLVM that are not > actually thread safe today. They may happen to work with the code > generators you're happening to test, but there is no guarantee. > Notable things to think about here are computing new types, the > use-def lists of globals, commandline flags, and static state > variables. While our intent has been to avoid problems with the last > two that could preclude parallelism, it seems unlikely that we have > succeeded without thorough testing to this point. Instead, I fear we > have leaned heavily on the crutch of one-thread-per-LLVMContext. > > 5) It adds more complexity onto the poorly designed pass manager > infrastructure. Personally, I think that cleanups to the design and > architecture of the pass manager should be prioritized above adding > new functionality like parallelism. However, so far no one has really > had time to do this (including myself). While I would like to have > time in the future to do this, as with everything else in OSS, it > won't be real until the patches start flowing. > > > On Tue, Jul 16, 2013 at 3:33 AM, Wan, Xiaofei <xiaofei.wan at intel.com > <mailto:xiaofei.wan at intel.com>> wrote: > > Hi, community: > > For the sake of our business need, I want to enable > "Function-based parallel code generation" to boost up the > compilation of single module, please see the details of the design > and provide your feedbacks on below aspects, thanks! > 1. Is this idea the proper solution for my requirement > 2. This new feature will be enabled by llc -thd=N and has no > impact on original llc when -thd=1 > 3. Can this new feature of llc be accepted by community and merged > into LLVM code tree > > Patches > The patch is divided into four separated parts, the all-in-one > patch could be found here: > http://llvm-reviews.chandlerc.com/D1152 > > Design > https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgjY-vhyfySg/edit?usp=sharing > > > Background > 1. Our business need to compile C/C++ source files into LLVM IR > and link them into a big BC file; the big BC file is then compiled > into binary code on different arch/target devices. > 2. Backend code generation is a time-consuming activity happened > on target device which makes it an important user experience. > 3. Make -j or file based parallelism can't help here since there > is only one big BC file; function-based parallel LLVM backend code > generation is a good solution to improve compilation time which > will fully utilize multi-cores. > > Overall design strategy and goal > 1. Generate totally same binary as what single thread output > 2. No impacts on single thread performance & conformance > 3. Little impacts on LLVM code infrastructure > > Current status and test result > 1. Parallel llc can generate same code as single thread by > "objdump -d", it could pass 10 hours stress test for all > performance benchmark > 2. Parallel llc can introduce ~2.9X performance gain on XEON sever > for 4 threads > > > Thanks > Wan Xiaofei > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu <mailto:LLVMdev at cs.uiuc.edu> > http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > > > > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20130716/6ca93bc3/attachment.html>
Xinliang David Li
2013-Jul-16 20:18 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
On Tue, Jul 16, 2013 at 3:33 AM, Wan, Xiaofei <xiaofei.wan at intel.com> wrote:> Hi, community: > > For the sake of our business need, I want to enable "Function-based parallel code generation" to boost up the compilation of single module, please see the details of the design and provide your feedbacks on below aspects, thanks! > 1. Is this idea the proper solution for my requirement > 2. This new feature will be enabled by llc -thd=N and has no impact on original llc when -thd=1 > 3. Can this new feature of llc be accepted by community and merged into LLVM code tree > > Patches > The patch is divided into four separated parts, the all-in-one patch could be found here: > http://llvm-reviews.chandlerc.com/D1152 > > Design > https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgjY-vhyfySg/edit?usp=sharing > > > Background > 1. Our business need to compile C/C++ source files into LLVM IR and link them into a big BC file; the big BC file is then compiled into binary code on different arch/target devices. > 2. Backend code generation is a time-consuming activity happened on target device which makes it an important user experience. > 3. Make -j or file based parallelism can't help here since there is only one big BC file; function-based parallel LLVM backend code generation is a good solution to improve compilation time which will fully utilize multi-cores. > > Overall design strategy and goal > 1. Generate totally same binary as what single thread output > 2. No impacts on single thread performance & conformance > 3. Little impacts on LLVM code infrastructure > > Current status and test result > 1. Parallel llc can generate same code as single thread by "objdump -d", it could pass 10 hours stress test for all performance benchmark > 2. Parallel llc can introduce ~2.9X performance gain on XEON sever for 4 threadsIgnoring FE time which can be fully parallelized and assuming 10% compile time is spent in serial module passes, 25% time is spent in CGSCC pass, the maximum speed up that can be gained by using function level parallelism is less than 3x. Even adding support for parallel compilation for leaves of CG in CGSCC pass won't help too much -- the percentage of leaf functions is < 30% in large apps I have seen. Module based parallelism proposed by Shuxin has max speed up of 10x, assuming body cloning does not add a lot overhead and build farm with hundred/thousands of nodes is used. David> > > Thanks > Wan Xiaofei > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >
Chandler Carruth
2013-Jul-16 20:33 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
On Tue, Jul 16, 2013 at 1:18 PM, Xinliang David Li <xinliangli at gmail.com>wrote:> Ignoring FE time which can be fully parallelized and assuming 10% > compile time is spent in serial module passes, 25% time is spent in > CGSCC pass, the maximum speed up that can be gained by using function > level parallelism is less than 3x. Even adding support for parallel > compilation for leaves of CG in CGSCC pass won't help too much -- the > percentage of leaf functions is < 30% in large apps I have seen. >Can you clarify what you're basing these assumption on or how you derived your data?> Module based parallelism proposed by Shuxin has max speed up of 10x, > assuming body cloning does not add a lot overhead and build farm with > hundred/thousands of nodes is used. >Body cloning does add some overhead, so that actually needs to be measured. Also, many don't have such a build farm. -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20130716/c3f73c10/attachment.html>
Wan, Xiaofei
2013-Jul-17 02:48 UTC
[LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation
-----Original Message----- From: Xinliang David Li [mailto:xinliangli at gmail.com] Sent: Wednesday, July 17, 2013 4:18 AM To: Wan, Xiaofei Cc: LLVM Developers Mailing List (llvmdev at cs.uiuc.edu) Subject: Re: [LLVMdev] [LLVM Dev] [Discussion] Function-based parallel LLVM backend code generation On Tue, Jul 16, 2013 at 3:33 AM, Wan, Xiaofei <xiaofei.wan at intel.com> wrote:> Hi, community: > > For the sake of our business need, I want to enable "Function-based parallel code generation" to boost up the compilation of single module, please see the details of the design and provide your feedbacks on below aspects, thanks! > 1. Is this idea the proper solution for my requirement 2. This new > feature will be enabled by llc -thd=N and has no impact on original > llc when -thd=1 3. Can this new feature of llc be accepted by > community and merged into LLVM code tree > > Patches > The patch is divided into four separated parts, the all-in-one patch could be found here: > http://llvm-reviews.chandlerc.com/D1152 > > Design > https://docs.google.com/document/d/1QSkP6AumMCAVpgzwympD5pI3btPJt4SRgj > Y-vhyfySg/edit?usp=sharing > > > Background > 1. Our business need to compile C/C++ source files into LLVM IR and link them into a big BC file; the big BC file is then compiled into binary code on different arch/target devices. > 2. Backend code generation is a time-consuming activity happened on target device which makes it an important user experience. > 3. Make -j or file based parallelism can't help here since there is only one big BC file; function-based parallel LLVM backend code generation is a good solution to improve compilation time which will fully utilize multi-cores. > > Overall design strategy and goal > 1. Generate totally same binary as what single thread output 2. No > impacts on single thread performance & conformance 3. Little impacts > on LLVM code infrastructure > > Current status and test result > 1. Parallel llc can generate same code as single thread by "objdump > -d", it could pass 10 hours stress test for all performance benchmark > 2. Parallel llc can introduce ~2.9X performance gain on XEON sever for > 4 threadsIgnoring FE time which can be fully parallelized and assuming 10% compile time is spent in serial module passes, 25% time is spent in CGSCC pass, the maximum speed up that can be gained by using function level parallelism is less than 3x. Even adding support for parallel compilation for leaves of CG in CGSCC pass won't help too much -- the percentage of leaf functions is < 30% in large apps I have seen. Module based parallelism proposed by Shuxin has max speed up of 10x, assuming body cloning does not add a lot overhead and build farm with hundred/thousands of nodes is used. [Xiaofei] for SpecCPU2006, I got the data function passes consume >90% of total time in llc by vtune (I don't enable LTO); here I only consider llc without LTO, the max parallelism depends how many threads are started. David> > > Thanks > Wan Xiaofei > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev >
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