DEEP: Developing Extremely Efficient Runtime On-Chip Power Meters

2022 IEEE/ACM International Conference On Computer Aided Design (ICCAD) Pub Date : 2022-10-29 DOI:10.1145/3508352.3549427

Zhiyao Xie, Shiyu Li, Mingyuan Ma, Chen-Chia Chang, Jingyu Pan, Yiran Chen, Jiangkun Hu

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引用次数: 5

Abstract

Accurate and efficient on-chip power modeling is crucial to runtime power, energy, and voltage management. Such power monitoring can be achieved by designing and integrating on-chip power meters (OPMs) into the target design. In this work, we propose a new method named DEEP to automatically develop extremely efficient OPM solutions for a given design. DEEP selects OPM inputs from all individual bits in RTL signals. Such bit-level selection provides an unprecedentedly large number ofinput candidates and supports lower hardware cost, compared with signal-level selection in prior works. In addition, DEEP proposes a powerful two-step OPM input selection method, and it supports reporting both total power and the power of major design components. Experiments on a commercial microprocessor demonstrate that DEEP's OPM solution achieves correlation R > 0.97 in per-cycle power prediction with an unprecedented low area overhead on hardware, i.e., < 0.1% of the microprocessor layout. This reduces the OPM hardware cost by 4 – 6× compared with the state-of-the-art solution.

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DEEP:开发极其高效的运行时芯片功率计

准确、高效的片上电源建模对于运行时电源、能量和电压管理至关重要。这种功率监测可以通过设计和集成片上功率计(opm)到目标设计中来实现。在这项工作中，我们提出了一种名为DEEP的新方法，可以为给定的设计自动开发极其高效的OPM解决方案。DEEP从RTL信号的所有单个比特中选择OPM输入。与之前的信号电平选择相比，这种位电平选择提供了前所未有的大量候选输入，并且支持更低的硬件成本。此外，DEEP还提出了一种功能强大的两步OPM输入选择方法，并支持报告总功率和主要设计组件的功率。在商用微处理器上的实验表明，DEEP的OPM解决方案在每周期功率预测中实现了相关R > 0.97，并且硬件面积开销前所未有的低，即微处理器布局的< 0.1%。与最先进的解决方案相比，这将OPM硬件成本降低了4 - 6倍。

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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2022 IEEE/ACM International Conference On Computer Aided Design (ICCAD)

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