Post-compiler software optimization for reducing energy

Proceedings of the 19th international conference on Architectural support for programming languages and operating systems Pub Date : 2014-02-24 DOI:10.1145/2541940.2541980

Eric M. Schulte, Jonathan Dorn, Stephen Harding, S. Forrest, Westley Weimer

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引用次数: 98

Abstract

Modern compilers typically optimize for executable size and speed, rarely exploring non-functional properties such as power efficiency. These properties are often hardware-specific, time-intensive to optimize, and may not be amenable to standard dataflow optimizations. We present a general post-compilation approach called Genetic Optimization Algorithm (GOA), which targets measurable non-functional aspects of software execution in programs that compile to x86 assembly. GOA combines insights from profile-guided optimization, superoptimization, evolutionary computation and mutational robustness. GOA searches for program variants that retain required functional behavior while improving non-functional behavior, using characteristic workloads and predictive modeling to guide the search. The resulting optimizations are validated using physical performance measurements and a larger held-out test suite. Our experimental results on PARSEC benchmark programs show average energy reductions of 20%, both for a large AMD system and a small Intel system, while maintaining program functionality on target workloads.

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后编译软件优化，减少能源

现代编译器通常针对可执行文件的大小和速度进行优化，很少探索非功能属性，如电源效率。这些属性通常是特定于硬件的，需要花费大量时间进行优化，并且可能不适合标准的数据流优化。我们提出了一种通用的后编译方法，称为遗传优化算法(GOA)，它针对编译成x86汇编的程序中软件执行的可测量的非功能方面。GOA结合了轮廓引导优化、超优化、进化计算和突变鲁棒性的见解。GOA搜索保留所需功能行为的程序变体，同时改进非功能行为，使用特征工作负载和预测建模来指导搜索。使用物理性能测量和更大的测试套件来验证所得到的优化。我们在PARSEC基准程序上的实验结果显示，在保持程序在目标工作负载上的功能的同时，大型AMD系统和小型英特尔系统的平均能耗都降低了20%。

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 19th international conference on Architectural support for programming languages and operating systems

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