chris boese via llvm-dev
2020-Jan-29 22:12 UTC
[llvm-dev] Question about LLVM LLJIT Compile time
Hi, We are using the new LLJIT class in our compiler. We have not been successful using the parallel JIT feature. When we tried it previously on multiple modules, our compile-time increased significantly. I don't know if we are using it incorrectly, or that we miss out on optimizations we get when running on a single merged module, but it hasn't worked for us yet. We are pretty far behind HEAD atm, but will try it again soon. In the meantime, we are trying to find ways to gauge the compilation time of a module. We pass a single module to the LLJIT instance. Is there is any information we can get during the JIT construction to let us compare against other modules we run through JIT? We're trying to find hot spots or performance issues in our modules. Timers or statistical data would be helpful if they exist during the execution of the JIT engine. I imagine parallelizing the JIT will be our best bet for increasing performance, but we have not been able to use that yet. Any help/ideas would be appreciated. Thanks, Chris -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20200129/7f0f0350/attachment.html>
Lang Hames via llvm-dev
2020-Jan-30 02:03 UTC
[llvm-dev] Question about LLVM LLJIT Compile time
Hi Chris, I can think of a couple of things to check up front: (1) Are you timing this with a release build or a debug build? ORC uses asserts liberally, including in code that is run under the session lock, and this may decrease parallelism in debug builds. (1) Are you using a fixed sized thread pool with an appropriate limit? Compiling too many things in parallel can have negatively impact performance if it leads to memory exhaustion. (2) Are you loading each module on a different LLVMContext? Modules sharing an LLVMContext cannot be compiled concurrently, as contexts cannot be shared between threads. And some follow up questions: What platform are you running on? Are you using LLJIT or LLLazyJIT? What kind of slow-down do you see relative to single-threaded compilation? Finally, some thoughts: The performance of concurrent compilation has not received any attention at all yet, as I have been busy with other feature work. I definitely want to get this working though. There are no stats or timings collected at the moment, but I can think of a few that i think would be useful and relatively easy to implement: (1) Track time spent under the session lock by adding timers to runSessionLocked, (2) Track time spent waiting on LLVMContexts in ThreadSafeContext, (3) Add a runAs<FunctionType> utility with timers to time execution of JIT functions. What are your thoughts? Are there any other tools you would like to see added? Cheers, Lang. On Wed, Jan 29, 2020 at 2:12 PM chris boese via llvm-dev < llvm-dev at lists.llvm.org> wrote:> Hi, > > We are using the new LLJIT class in our compiler. We have not been > successful using the parallel JIT feature. When we tried it previously on > multiple modules, our compile-time increased significantly. I don't know if > we are using it incorrectly, or that we miss out on optimizations we get > when running on a single merged module, but it hasn't worked for us yet. We > are pretty far behind HEAD atm, but will try it again soon. > > In the meantime, we are trying to find ways to gauge the compilation time > of a module. We pass a single module to the LLJIT instance. Is there is any > information we can get during the JIT construction to let us compare > against other modules we run through JIT? We're trying to find hot spots or > performance issues in our modules. Timers or statistical data would be > helpful if they exist during the execution of the JIT engine. > > I imagine parallelizing the JIT will be our best bet for increasing > performance, but we have not been able to use that yet. > > Any help/ideas would be appreciated. > > Thanks, > Chris > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org > https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20200129/5ad7f519/attachment.html>
Stefan Gränitz via llvm-dev
2020-Feb-02 17:44 UTC
[llvm-dev] Question about LLVM LLJIT Compile time
I did a few compile-and-run benchmarks with lli et al recently. I didn't see overall performance improvements from parallelization either. Using a release build on my Macbook Pro, typical runtimes for 403.gcc from bitcode precompiled with clang -O1 -g0 look like this (real, user, sys): Static build and run: clang -o main -O0 <bitcode> && ./main <input> 4.652s 4.471s 0.172s Eager JIT: lli -jit-kind=mcjit 18.086s 17.975s 0.088s lli -jit-kind=orc-eager (local hack) 15.334s 11.534s 0.264s Per-function lazy JIT: lli -jit-kind=orc-lazy 13.939s 13.779s 0.146s lli -jit-kind=orc-lazy -compile-threads=8 15.171s 15.590s 0.245s SpeculativeJIT -num-threads=8 10.292s 17.306s 0.380s Per-module lazy JIT: lli -jit-kind=orc-lazy -per-module-lazy 4.655s 4.580s 0.069s lli -jit-kind=orc-lazy -per-module-lazy -compile-threads=8 4.695s 6.184s 0.173s Invocations with the -compile-threads parameter dispatch compilation to parallel threads. My guess is that so far the synchronization overhead eats up all speedup, but I didn't investigate enough to bake this with evidence. It would be nice to see the difference for -jit-kind=orc-eager, but with my local hack I am currently running into an internal error in the JITed code that I don't understand yet. Cheers, Stefan On 30/01/2020 03:03, Lang Hames wrote:> Hi Chris, > > I can think of a couple of things to check up front: > > (1) Are you timing this with a release build or a debug build? ORC > uses asserts liberally, including in code that is run under the > session lock, and this may decrease parallelism in debug builds. > > (1) Are you using a fixed sized thread pool with an appropriate limit? > Compiling too many things in parallel can have negatively impact > performance if it leads to memory exhaustion. > > (2) Are you loading each module on a different LLVMContext? Modules > sharing an LLVMContext cannot be compiled concurrently, as contexts > cannot be shared between threads. > > And some follow up questions: What platform are you running on? Are > you using LLJIT or LLLazyJIT? What kind of slow-down do you see > relative to single-threaded compilation? > > Finally, some thoughts: The performance of concurrent compilation has > not received any attention at all yet, as I have been busy with other > feature work. I definitely want to get this working though. There are > no stats or timings collected at the moment, but I can think of a few > that i think would be useful and relatively easy to implement: (1) > Track time spent under the session lock by adding timers to > runSessionLocked, (2) Track time spent waiting on LLVMContexts in > ThreadSafeContext, (3) Add a runAs<FunctionType> utility with timers > to time execution of JIT functions. > > What are your thoughts? Are there any other tools you would like to > see added? > > Cheers, > Lang. > > On Wed, Jan 29, 2020 at 2:12 PM chris boese via llvm-dev > <llvm-dev at lists.llvm.org <mailto:llvm-dev at lists.llvm.org>> wrote: > > Hi, > > We are using the new LLJIT class in our compiler. We have not been > successful using the parallel JIT feature. When we tried it > previously on multiple modules, our compile-time increased > significantly. I don't know if we are using it incorrectly, or > that we miss out on optimizations we get when running on a single > merged module, but it hasn't worked for us yet. We are pretty far > behind HEAD atm, but will try it again soon. > > In the meantime, we are trying to find ways to gauge the > compilation time of a module. We pass a single module to the LLJIT > instance. Is there is any information we can get during the JIT > construction to let us compare against other modules we run > through JIT? We're trying to find hot spots or performance issues > in our modules. Timers or statistical data would be helpful if > they exist during the execution of the JIT engine. > > I imagine parallelizing the JIT will be our best bet for > increasing performance, but we have not been able to use that yet. > > Any help/ideas would be appreciated. > > Thanks, > Chris > _______________________________________________ > LLVM Developers mailing list > llvm-dev at lists.llvm.org <mailto:llvm-dev at lists.llvm.org> > https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >-- https://flowcrypt.com/pub/stefan.graenitz at gmail.com -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20200202/b9536484/attachment.html>
chris boese via llvm-dev
2020-Feb-04 22:41 UTC
[llvm-dev] Question about LLVM LLJIT Compile time
Hi Lang, (1) Are you timing this with a release build or a debug build? ORC uses asserts liberally, including in code that is run under the session lock, and this may decrease parallelism in debug builds. - Mostly with release builds. I've only attempted debug builds when trying to take a trace with Valgrind/Vtune. (1) Are you using a fixed sized thread pool with an appropriate limit? Compiling too many things in parallel can have negatively impact performance if it leads to memory exhaustion. - Yes I've tried as few as 2 threads. Doesn't seem to help. (2) Are you loading each module on a different LLVMContext? Modules sharing an LLVMContext cannot be compiled concurrently, as contexts cannot be shared between threads. - I've tried both ways, but ya I stuck with separate Contexts per module. And some follow up questions: What platform are you running on? Are you using LLJIT or LLLazyJIT? What kind of slow-down do you see relative to single-threaded compilation? - Platform is a beefy server (shared among developers) with lots of cores. It's running Ubuntu. So we're using LLLazyJIT, but have laziness turned off by setting CompileWholeModule. So one test I was using took rougly 2-3 min to compile (single module). When splitting the module and compiling, and setting threads to 2, it was taking roughly twice as long. Finally, some thoughts: The performance of concurrent compilation has not received any attention at all yet, as I have been busy with other feature work. I definitely want to get this working though. There are no stats or timings collected at the moment, but I can think of a few that i think would be useful and relatively easy to implement: (1) Track time spent under the session lock by adding timers to runSessionLocked, (2) Track time spent waiting on LLVMContexts in ThreadSafeContext, (3) Add a runAs<FunctionType> utility with timers to time execution of JIT functions. What are your thoughts? Are there any other tools you would like to see added? - I'm curious about (1) - runSessionLocked. Unfamiliar with that. Not to sound greedy, but all 3 sound very helpful :) - If it helps I could possibly send some code over. Let me know if you'd like to see it. Thanks, Chris On Wed, Jan 29, 2020 at 6:03 PM Lang Hames <lhames at gmail.com> wrote:> Hi Chris, > > I can think of a couple of things to check up front: > > (1) Are you timing this with a release build or a debug build? ORC uses > asserts liberally, including in code that is run under the session lock, > and this may decrease parallelism in debug builds. > > (1) Are you using a fixed sized thread pool with an appropriate limit? > Compiling too many things in parallel can have negatively impact > performance if it leads to memory exhaustion. > > (2) Are you loading each module on a different LLVMContext? Modules > sharing an LLVMContext cannot be compiled concurrently, as contexts cannot > be shared between threads. > > And some follow up questions: What platform are you running on? Are you > using LLJIT or LLLazyJIT? What kind of slow-down do you see relative to > single-threaded compilation? > > Finally, some thoughts: The performance of concurrent compilation has not > received any attention at all yet, as I have been busy with other feature > work. I definitely want to get this working though. There are no stats or > timings collected at the moment, but I can think of a few that i think > would be useful and relatively easy to implement: (1) Track time spent > under the session lock by adding timers to runSessionLocked, (2) Track time > spent waiting on LLVMContexts in ThreadSafeContext, (3) Add a > runAs<FunctionType> utility with timers to time execution of JIT functions. > > What are your thoughts? Are there any other tools you would like to see > added? > > Cheers, > Lang. > > On Wed, Jan 29, 2020 at 2:12 PM chris boese via llvm-dev < > llvm-dev at lists.llvm.org> wrote: > >> Hi, >> >> We are using the new LLJIT class in our compiler. We have not been >> successful using the parallel JIT feature. When we tried it previously on >> multiple modules, our compile-time increased significantly. I don't know if >> we are using it incorrectly, or that we miss out on optimizations we get >> when running on a single merged module, but it hasn't worked for us yet. We >> are pretty far behind HEAD atm, but will try it again soon. >> >> In the meantime, we are trying to find ways to gauge the compilation time >> of a module. We pass a single module to the LLJIT instance. Is there is any >> information we can get during the JIT construction to let us compare >> against other modules we run through JIT? We're trying to find hot spots or >> performance issues in our modules. Timers or statistical data would be >> helpful if they exist during the execution of the JIT engine. >> >> I imagine parallelizing the JIT will be our best bet for increasing >> performance, but we have not been able to use that yet. >> >> Any help/ideas would be appreciated. >> >> Thanks, >> Chris >> _______________________________________________ >> LLVM Developers mailing list >> llvm-dev at lists.llvm.org >> https://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev >> >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20200204/b0c8fd19/attachment.html>
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