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Source Matching and Rewriting for MLIR Using String-Based Automata

Vinícius Couto Espindola, Luciano Zago, Hervé Yviquel, Guido Araújo

2022ACM Transactions on Architecture and Code Optimization11 citationsDOIOpen Access PDF

Abstract

A typical compiler flow relies on a uni-directional sequence of translation/optimization steps that lower the program abstract representation, making it hard to preserve higher-level program information across each transformation step. On the other hand, modern ISA extensions and hardware accelerators can benefit from the compiler’s ability to detect and raise program idioms to acceleration instructions or optimized library calls. Although recent works based on Multi-Level IR (MLIR) have been proposed for code raising, they rely on specialized languages, compiler recompilation, or in-depth dialect knowledge. This article presents Source Matching and Rewriting (SMR), a user-oriented source-code-based approach for MLIR idiom matching and rewriting that does not require a compiler expert’s intervention. SMR uses a two-phase automaton-based DAG-matching algorithm inspired by early work on tree-pattern matching. First, the idiom Control-Dependency Graph (CDG) is matched against the program’s CDG to rule out code fragments that do not have a control-flow structure similar to the desired idiom. Second, candidate code fragments from the previous phase have their Data-Dependency Graphs (DDGs) constructed and matched against the idiom DDG. Experimental results show that SMR can effectively match idioms from Fortran (FIR) and C (CIL) programs while raising them as BLAS calls to improve performance. Additional experiments also show performance improvements when using SMR to enable code replacement in areas like approximate computing and hardware acceleration.

Topics & Concepts

Computer scienceCompilerRewritingProgramming languageParsingSource codeControl flowProgram transformationOptimizing compilerDead code eliminationAutomatonAbstract syntax treePattern matchingMatching (statistics)Program analysisControl flow graphObject codeParallel computingCode generationTheoretical computer scienceKey (lock)Operating systemMathematicsStatisticsParallel Computing and Optimization TechniquesSoftware Testing and Debugging TechniquesLogic, programming, and type systems
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