混合相干协议的线程进程感知相干自适应

2012 IEEE 10th Symposium on Embedded Systems for Real-time Multimedia Pub Date : 2012-10-01 DOI:10.1109/ESTIMedia.2012.6507024

Jianhua Li, Liang Shi, Qing'an Li, C. Xue, Yinlong Xu

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引用次数: 2

摘要

混合相干协议可以同时提供目录协议的可扩展性和低延迟的共享缺失处理。不幸的是，如何在运行时适应混合协议还没有得到很好的研究。提出了线程进度感知相干自适应(TEACA)方法，该方法利用线程进度信息作为提示来适应混合相干协议。具体来说，TEACA融合了内存系统的统计信息来估计线程的进程。TEACA根据预估的线程进度信息，动态地将线程划分为领先线程和落后线程。然后利用线程分类决策在混合一致性协议中实现高效的一致性适应。最近提出的一种混合协议(PATCH[29])的案例研究表明，在TEACA的提示下，增强的混合协议在应用程序执行时间和能量消耗方面都优于其基线。

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TEACA: Thread ProgrEss Aware Coherence Adaption for hybrid coherence protocols

Hybrid coherence protocols can provide the scalability of directory protocols and low latency sharing miss handling in snooping protocols simultaneously. Unfortunately, how to adapt the hybrid protocols at runtime is not well studied. This paper proposes Thread ProgrEss Aware Coherence Adaption (TEACA) which utilizes the thread progress information as the hints to adapt hybrid coherence protocols. Specifically, TEACA fuses the memory system statistics to estimate the progress of threads. Based on the estimated thread progress information, TEACA dynamically categorizes threads into leader threads and laggard threads. The thread categorization decisions are then leveraged for efficient coherence adaption in hybrid coherence protocols. A case study on a recently proposed hybrid protocol (PATCH [29]) shows that, with the hints from TEACA, the enhanced hybrid protocol outperforms its baseline in both application execution time and energy dissipation.

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2012 IEEE 10th Symposium on Embedded Systems for Real-time Multimedia

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