一种能量约束近似计算的意义驱动规划框架

V. Vassiliadis, Charalampos Chalios, K. Parasyris, C. Antonopoulos, S. Lalis, Nikolaos Bellas, H. Vandierendonck, Dimitrios S. Nikolopoulos
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引用次数: 5

摘要

近似执行对于能量受限的环境是一种可行的技术,只要应用程序具有在给定的能量预算内产生尽可能高质量输出的机制。我们引入了一个具有可控和优雅的质量损失的能量约束执行框架。一个简单的编程模型允许用户表示计算对于最终结果质量的相对重要性,以及最低质量要求。意义感知运行时系统使用特定于应用程序的分析能量模型来识别并发性和近似值的程度,从而在满足用户指定的能量约束的同时最大限度地提高质量。在双插座8核服务器上进行的评估表明,所提出的框架能够高精度地预测最佳配置,与循环穿孔(一种编译器近似技术)相比,能够实现能量受限的执行,从而显著提高质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A significance-driven programming framework for energy-constrained approximate computing
Approximate execution is a viable technique for energy-constrained environments, provided that applications have the mechanisms to produce outputs of the highest possible quality within the given energy budget. We introduce a framework for energy-constrained execution with controlled and graceful quality loss. A simple programming model allows users to express the relative importance of computations for the quality of the end result, as well as minimum quality requirements. The significance-aware runtime system uses an application-specific analytical energy model to identify the degree of concurrency and approximation that maximizes quality while meeting user-specified energy constraints. Evaluation on a dual-socket 8-core server shows that the proposed framework predicts the optimal configuration with high accuracy, enabling energy-constrained executions that result in significantly higher quality compared to loop perforation, a compiler approximation technique.
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