Hi, I am using the LLVM JIT infrastructure (MCJIT). I wanted to see if there are any performance gains as the compiler can detect the target CPU at runtime. But, I didn't see any improvement (I compile with -no-mmx and -no-sse). I then tried an experiment, where I compiled the program with clang-3.3, with and without specifying the target cpu as "corei7". I was shocked to see that the only difference in the two binaries were related to "Instruction Set Extensions". Further I tried the same experiment with gcc, and saw that the instructions were shuffled around in the binary. I expected this, because every CPU differs in some way or the other (has different buffer size for out-of-order execution, different cache sizes, etc.). For clang, I was passing the "-march=corei7" flag. For gcc, I was passing the "-mcpu=corei7" flag. Am I passing the correct flags? Any help, comments or suggestions, would be helpful. Thanks, -- Varun Agrawal PhD Student Computer Science, Stony Brook University http://compas.cs.stonybrook.edu/~vagrawal/ -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20131011/a6c5c399/attachment.html>
Hi Varun, Have you tried your experiment with icc by any chance? The MCJIT component does not assume that you will be executing the generated code on the host system because it can be used to generate code for external targets. However, you can specify the CPU by calling setCPU() on the EngineBuilder object before creating your execution engine. (You can use sys::getHostCPUName() to figure out what CPU you are running on and that will further detect AVX support, which you don't get with the general "corei7" cpu flag.) I would expect that if you do that it would generate similar code to clang. -Andy From: llvmdev-bounces at cs.uiuc.edu [mailto:llvmdev-bounces at cs.uiuc.edu] On Behalf Of Varun Agrawal Sent: Thursday, October 10, 2013 10:52 PM To: llvmdev at cs.uiuc.edu Subject: [LLVMdev] Building for a specific target, corei7 Hi, I am using the LLVM JIT infrastructure (MCJIT). I wanted to see if there are any performance gains as the compiler can detect the target CPU at runtime. But, I didn't see any improvement (I compile with -no-mmx and -no-sse). I then tried an experiment, where I compiled the program with clang-3.3, with and without specifying the target cpu as "corei7". I was shocked to see that the only difference in the two binaries were related to "Instruction Set Extensions". Further I tried the same experiment with gcc, and saw that the instructions were shuffled around in the binary. I expected this, because every CPU differs in some way or the other (has different buffer size for out-of-order execution, different cache sizes, etc.). For clang, I was passing the "-march=corei7" flag. For gcc, I was passing the "-mcpu=corei7" flag. Am I passing the correct flags? Any help, comments or suggestions, would be helpful. Thanks, -- Varun Agrawal PhD Student Computer Science, Stony Brook University http://compas.cs.stonybrook.edu/~vagrawal/ -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20131011/449ec587/attachment.html>
Hi Andrew, I think I diluted my question. My question was not related to MCJIT. I ran the following 4 scenarios: (1)gcc -mcpu=corei7 tetris.c -o tetris (2)gcc -mcpu=athlon64 tetris.c -o tetris (3)clang -march=corei7 tetris.c -o tetris (4)clang -march=athlon64 tetris.c -o tetris In (1) and (2), I see difference in order of instructions in the output binaries, which I expected because every CPU has different micro-architecture, and the compiler is hopefully making use of that information. (I need to verify the performance improvement, this is not related to my question) But, in (3) and (4), I don't see any difference in the output binaries other than instruction set extensions. This means that there is some optimization, but not based on the micro-architecture of the CPU. I just want to ask if this is the expected behavior. And if so, then is this optimization going to be added to LLVM anytime in the future? Thanks, Varun Agrawal From: Kaylor, Andrew [mailto:andrew.kaylor at intel.com] Sent: Friday, October 11, 2013 4:17 PM To: Varun Agrawal; llvmdev at cs.uiuc.edu Subject: RE: Building for a specific target, corei7 Hi Varun, Have you tried your experiment with icc by any chance? The MCJIT component does not assume that you will be executing the generated code on the host system because it can be used to generate code for external targets. However, you can specify the CPU by calling setCPU() on the EngineBuilder object before creating your execution engine. (You can use sys::getHostCPUName() to figure out what CPU you are running on and that will further detect AVX support, which you don't get with the general "corei7" cpu flag.) I would expect that if you do that it would generate similar code to clang. -Andy From: llvmdev-bounces at cs.uiuc.edu<mailto:llvmdev-bounces at cs.uiuc.edu> [mailto:llvmdev-bounces at cs.uiuc.edu] On Behalf Of Varun Agrawal Sent: Thursday, October 10, 2013 10:52 PM To: llvmdev at cs.uiuc.edu<mailto:llvmdev at cs.uiuc.edu> Subject: [LLVMdev] Building for a specific target, corei7 Hi, I am using the LLVM JIT infrastructure (MCJIT). I wanted to see if there are any performance gains as the compiler can detect the target CPU at runtime. But, I didn't see any improvement (I compile with -no-mmx and -no-sse). I then tried an experiment, where I compiled the program with clang-3.3, with and without specifying the target cpu as "corei7". I was shocked to see that the only difference in the two binaries were related to "Instruction Set Extensions". Further I tried the same experiment with gcc, and saw that the instructions were shuffled around in the binary. I expected this, because every CPU differs in some way or the other (has different buffer size for out-of-order execution, different cache sizes, etc.). For clang, I was passing the "-march=corei7" flag. For gcc, I was passing the "-mcpu=corei7" flag. Am I passing the correct flags? Any help, comments or suggestions, would be helpful. Thanks, -- Varun Agrawal PhD Student Computer Science, Stony Brook University http://compas.cs.stonybrook.edu/~vagrawal/ -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20131012/9aed7f2c/attachment.html>