Integrated Energy Control for Hard Real-Time Networks-on-Chip

2019 IEEE Real-Time Systems Symposium (RTSS) Pub Date : 2019-12-01 DOI:10.1109/RTSS46320.2019.00012

Thawra Kadeed, Sebastian Tobuschat, R. Ernst

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引用次数: 5

Abstract

While Networks-on-Chip (NoCs) are the prevalent solution to provide a scalable interconnect for the complex multiprocessing architectures, their associated energy consumptions have immensely increased. Specifically, hard real-time Networks-on-chip must manifest limited energy consumption as reliability issues in such a shared resource jeopardize the whole system safety. In this paper, we propose a safe and efficient approach that allows global and online energy management under temporal guarantees, i.e., all deadlines of critical functions are met. The approach introduces a control-layer to save energy on the NoC data layer through multiple Power-Aware Network Controllers (PANCs). We explore through PANCs the potential efficiency of integrating multiple energy-savings schemes in the face of the diversity of energy dissipation sources. To safely apply the PANCs in hard real-time systems while meeting the deadlines, a formal worst-case timing analysis of the additional latency induced by the control layer is provided. Experimental results demonstrate the diversity of NoC energy-savings under different combinations of energy-savings schemes. Also, the scalability of the approach is provided, inducing small area overhead.

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硬实时片上网络集成能量控制

虽然片上网络(noc)是为复杂的多处理体系结构提供可扩展互连的流行解决方案，但其相关的能耗已大大增加。具体来说，硬实时片上网络必须表现出有限的能耗，因为这种共享资源中的可靠性问题会危及整个系统的安全。在本文中，我们提出了一种安全有效的方法，允许在时间保证下进行全局和在线能源管理，即满足所有关键功能的最后期限。该方法引入了一个控制层，通过多个功率感知网络控制器(PANCs)来节省NoC数据层的能量。我们通过PANCs探索在面对能量耗散源的多样性时整合多种节能方案的潜在效率。为了在满足最后期限的同时安全地将PANCs应用于硬实时系统，对控制层引起的额外延迟进行了正式的最坏情况时序分析。实验结果表明，不同节能方案组合下NoC节能效果存在差异。此外，该方法的可扩展性提供，诱导小的面积开销。

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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2019 IEEE Real-Time Systems Symposium (RTSS)

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