Unconventional Parallelization of Nondeterministic Applications

Proceedings of the Twenty-Third International Conference on Architectural Support for Programming Languages and Operating Systems Pub Date : 2018-03-19 DOI:10.1145/3173162.3173181

E. A. Deiana, Vincent St-Amour, P. Dinda, N. Hardavellas, Simone Campanoni

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引用次数: 12

Abstract

The demand for thread-level-parallelism (TLP) on commodity processors is endless as it is essential for gaining performance and saving energy. However, TLP in today's programs is limited by dependences that must be satisfied at run time. We have found that for nondeterministic programs, some of these actual dependences can be satisfied with alternative data that can be generated in parallel, thus boosting the program's TLP. Satisfying these dependences with alternative data nonetheless produces final outputs that match those of the original nondeterministic program. To demonstrate the practicality of our technique, we describe the design, implementation, and evaluation of our compilers, autotuner, profiler, and runtime, which are enabled by our proposed C++ programming language extensions. The resulting system boosts the performance of six well-known nondeterministic and multi-threaded benchmarks by 158.2% (geometric mean) on a 28-core Intel-based platform.

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非确定性应用的非常规并行化

在商用处理器上对线程级并行性(TLP)的需求是无止境的，因为它对于获得性能和节省能源至关重要。然而，今天的程序中的TLP受到必须在运行时满足的依赖关系的限制。我们发现，对于不确定的程序，其中一些实际的依赖关系可以用并行生成的替代数据来满足，从而提高了程序的TLP。然而，用替代数据满足这些依赖关系会产生与原始不确定性程序相匹配的最终输出。为了演示我们技术的实用性，我们描述了我们的编译器、自动调谐器、分析器和运行时的设计、实现和评估，这些都是由我们提议的c++编程语言扩展启用的。由此产生的系统在基于28核的intel平台上将六个众所周知的不确定性和多线程基准测试的性能提高了158.2%(几何平均值)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Twenty-Third International Conference on Architectural Support for Programming Languages and Operating Systems

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