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135 lines
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135 lines
6.0 KiB
HTML
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<title>Clang - Performance</title>
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<!--*************************************************************************-->
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<h1>Clang - Performance</h1>
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<p>This page tracks the compile time performance of Clang on two
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interesting benchmarks:
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<ul>
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<li><i>Sketch</i>: The Objective-C example application shipped on
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Mac OS X as part of Xcode. <i>Sketch</i> is indicative of a
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"typical" Objective-C app. The source itself has a relatively
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small amount of code (~7,500 lines of source code), but it relies
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on the extensive Cocoa APIs to build its functionality. Like many
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Objective-C applications, it includes
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<tt>Cocoa/Cocoa.h</tt> in all of its source files, which represents a
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significant stress test of the front-end's performance on lexing,
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preprocessing, parsing, and syntax analysis.</li>
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<li><i>176.gcc</i>: This is the gcc-2.7.2.2 code base as present in
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SPECINT 2000. In contrast to Sketch, <i>176.gcc</i> consists of a
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large amount of C source code (~220,000 lines) with few system
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dependencies. This stresses the back-end's performance on generating
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assembly code and debug information.</li>
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</ul>
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</p>
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<h2><a name="enduser">Experiments</a></h2>
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<p>Measurements are done by serially processing each file in the
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respective benchmark, using Clang, gcc, and llvm-gcc as compilers. In
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order to track the performance of various subsystems the timings have
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been broken down into separate stages where possible:
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<ul>
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<li><tt>-Eonly</tt>: This option runs the preprocessor but does not
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perform any output. For gcc and llvm-gcc, the -MM option is used
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as a rough equivalent to this step.</li>
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<li><tt>-parse-noop</tt>: This option runs the parser on the input,
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but without semantic analysis or any output. gcc and llvm-gcc have
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no equivalent for this option.</li>
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<li><tt>-fsyntax-only</tt>: This option runs the parser with semantic
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analysis.</li>
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<li><tt>-emit-llvm -O0</tt>: For Clang and llvm-gcc, this option
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converts to the LLVM intermediate representation but doesn't
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generate native code.</li>
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<li><tt>-S -O0</tt>: Perform actual code generation to produce a
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native assembler file.</li>
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<li><tt>-S -O0 -g</tt>: This adds emission of debug information to
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the assembly output.</li>
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</ul>
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</p>
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<p>This set of stages is chosen to be approximately additive, that is
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each subsequent stage simply adds some additional processing. The
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timings measure the delta of the given stage from the previous
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one. For example, the timings for <tt>-fsyntax-only</tt> below show
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the difference of running with <tt>-fsyntax-only</tt> versus running
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with <tt>-parse-noop</tt> (for clang) or <tt>-MM</tt> with gcc and
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llvm-gcc. This amounts to a fairly accurate measure of only the time
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to perform semantic analysis (and parsing, in the case of gcc and llvm-gcc).</p>
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<p>These timings are chosen to break down the compilation process for
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clang as much as possible. The graphs below show these numbers
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combined so that it is easy to see how the time for a particular task
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is divided among various components. For example, <tt>-S -O0</tt>
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includes the time of <tt>-fsyntax-only</tt> and <tt>-emit-llvm -O0</tt>.</p>
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<p>Note that we already know that the LLVM optimizers are substantially (30-40%)
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faster than the GCC optimizers at a given -O level, so we only focus on -O0
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compile time here.</p>
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<h2><a name="enduser">Timing Results</a></h2>
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<!--*************************************************************************-->
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<!--=======================================================================-->
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<h3><a name="2008-10-31">2008-10-31</a></h3>
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<!--=======================================================================-->
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<center><h4>Sketch</h4></center>
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<img class="img_slide"
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src="timing-data/2008-10-31/sketch.png" alt="Sketch Timings"/>
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<p>This shows Clang's substantial performance improvements in
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preprocessing and semantic analysis; over 90% faster on
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-fsyntax-only. As expected, time spent in code generation for this
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benchmark is relatively small. One caveat, Clang's debug information
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generation for Objective-C is very incomplete; this means the <tt>-S
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-O0 -g</tt> numbers are unfair since Clang is generating substantially
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less output.</p>
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<p>This chart also shows the effect of using precompiled headers (PCH)
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on compiler time. gcc and llvm-gcc see a large performance improvement
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with PCH; about 4x in wall time. Unfortunately, Clang does not yet
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have an implementation of PCH-style optimizations, but we are actively
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working to address this.</p>
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<center><h4>176.gcc</h4></center>
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<img class="img_slide"
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src="timing-data/2008-10-31/176.gcc.png" alt="176.gcc Timings"/>
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<p>Unlike the <i>Sketch</i> timings, compilation of <i>176.gcc</i>
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involves a large amount of code generation. The time spent in Clang's
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LLVM IR generation and code generation is on par with gcc's code
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generation time but the improved parsing & semantic analysis
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performance means Clang still comes in at ~29% faster versus gcc
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on <tt>-S -O0 -g</tt> and ~20% faster versus llvm-gcc.</p>
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<p>These numbers indicate that Clang still has room for improvement in
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several areas, notably our LLVM IR generation is significantly slower
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than that of llvm-gcc, and both Clang and llvm-gcc incur a
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significantly higher cost for adding debugging information compared to
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gcc.</p>
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</div>
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</body>
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