嵌入式多处理器的分布式低功耗同步体系结构

Chenjie Yu, Peter Petrov
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引用次数: 9

摘要

在本文中,我们提出了一个用于嵌入式多处理器的分布式和低成本的同步控制器和协议实现框架。提出的体系结构以完全分布式的方式有效地实现了队列锁语义。所提出的同步实现方法不仅完全消除了多核竞争同步变量时压倒性的总线争用流量,而且由于本地同步控制器可以在没有任何总线事务或本地缓存旋转的情况下有效地确定锁何时可供本地处理器使用,因此实现了非常高的能源效率。在实现分布式同步协议时,利用了本地任务中有关同步变量的特定于应用程序的信息。本地同步控制器使系统软件或线程库能够实现各种低功耗策略,例如在等待同步变量时禁用缓存访问,甚至完全关闭本地处理器的电源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distributed and low-power synchronization architecture for embedded multiprocessors
In this paper we present a framework for a distributed and very low-cost implementation of synchronization controllers and protocols for embedded multiprocessors. The proposed architecture effectively implements the queued-lock semantics in a completely distributed way. The proposed approach to synchronization implementation not only completely eliminates the overwhelming bus contention traffic when multiple cores compete for a synchronization variable, but also achieves very high energy efficiency as the local synchronization controller can efficiently determine, without any bus transactions or local cache spinning, the exact timing of when the lock is made available to the local processor. Application-specific information regarding synchronization variables in the local task is exploited in implementing the distributed synchronization protocol. The local synchronization controllers enable the system software or the thread library to implement various low-power policies, such as disabling the cache accesses or even completely powering down the local processor while waiting for a synchronization variable.
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