伯爵

Q2 Computer Science ACM SIGBED Review Pub Date : 2020-07-27 DOI:10.1145/3412821.3412825

Stefan Reif, Phillip Raffeck, Heiko Janker, Luis Gerhorst, T. Hönig, Wolfgang Schröder-Preikschat

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引用次数: 8

摘要

随着系统复杂性的增长，嵌入式操作系统越来越多地面临着遵守各种非功能约束的挑战，例如响应时间和功率限制。这些要求有时相互矛盾，而且通常没有解决方案满足所有条件下的所有约束。环境条件、应用程序级需求和用户响应时间期望的变化，因此需要对资源管理进行系统范围的调整。我们发现，过程同步构成了一个简单而有效的杠杆点，以平衡时间相关约束和能量相关约束。本文介绍了Earl，它是Linux中可重构锁的一种实现，可以在高性能和低功耗操作模式之间无缝转换。

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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Earl

As system complexity grows, embedded operating systems increasingly face the challenge to adhere to various non-functional constraints, such as response times and power limits. These requirements sometimes contradict and, often, no solution satisfies all constraints under all conditions. Changes in environmental conditions, application-level requirements, and user response time expectation hence demand for system-wide adaptions to resource management. We find that process synchronization constitutes a simple yet effective leverage point to balance between timing-related and energy-related constraints. This paper presents Earl, an implementation of reconfigurable locks in Linux that enables seamless transitions between high-performance and low-power operating modes.

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ACM SIGBED Review Computer Science-Computer Science (miscellaneous)

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