基于价格理论的异构多核电源管理

Proceedings of the 19th international conference on Architectural support for programming languages and operating systems Pub Date : 2014-02-24 DOI:10.1145/2541940.2541974

Thannirmalai Somu Muthukaruppan, A. Pathania, T. Mitra

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引用次数: 93

摘要

异构多核集成了具有不同功率性能特征的核，在能量和热受限的环境中是同质系统的有希望的替代品。然而，这种异构性给功率感知调度带来了巨大的挑战。我们提出了一个基于价格理论的异构多核动态电源管理框架，该框架协调了各种节能机会，例如动态电压/频率缩放，负载平衡和任务迁移，以实现最佳的功率性能特征。与现有的集中式电源管理框架不同，我们的框架是分布式的，因此可以在最小的运行时开销下进行扩展。我们在ARM的Linux操作系统上设计并实现了该框架。LITTLE异构多核平台。实验评估证实了我们的方法与异构多核电源管理的最先进技术相比的优势。

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Price theory based power management for heterogeneous multi-cores

Heterogeneous multi-cores that integrate cores with different power performance characteristics are promising alternatives to homogeneous systems in energy- and thermally constrained environments. However, the heterogeneity imposes significant challenges to power-aware scheduling. We present a price theory-based dynamic power management framework for heterogeneous multi-cores that co-ordinates various energy savings opportunities, such as dynamic voltage/frequency scaling, load balancing, and task migration in tandem, to achieve the best power-performance characteristics. Unlike existing centralized power management frameworks, ours is distributed and hence scalable with minimal runtime overhead. We design and implement the framework within Linux operating system on ARM big.LITTLE heterogeneous multi-core platform. Experimentalevaluation confirms the advantages of our approach compared to the state-of-the-art techniques for power management in heterogeneous multi-cores.

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

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