技术缩放对时钟系统功耗的影响

Proceedings IEEE Computer Society Annual Symposium on VLSI. New Paradigms for VLSI Systems Design. ISVLSI 2002 Pub Date : 2002-08-07 DOI:10.1109/ISVLSI.2002.1016875

D. Duarte, N. Vijaykrishnan, M. J. Irwin

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引用次数: 46

摘要

众所周知，时钟分配和产生电路消耗了现有微处理器功率预算的四分之一以上。简要回顾了先前导出的时钟能量模型，同时提出了一个综合框架，用于估计系统范围(芯片水平)和时钟子系统功率作为技术缩放的函数。该框架用于研究和量化与标度相关的各种强化问题(即，泄漏电流增加，线间电容增加)对时钟能量及其对整个系统能量的相对影响。所获得的结果表明，只要采用限制泄漏功耗的技术，时钟功耗将仍然是芯片总功耗的重要贡献者。

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Impact of technology scaling in the clock system power

The clock distribution and generation circuitry is known to consume more than a quarter of the power budget of existing microprocessors. A previously derived clock energy model is briefly reviewed while a comprehensive framework for the estimation of systemwide (chip level) and clock sub-system power as function of technology scaling is presented. This framework is used to study and quantify the impact that various intensifying concerns associated with scaling (i.e., increased leakage currents, increased interwire capacitance) will have on clock energy and their relative impact on the overall system energy. The results obtained indicate that clock power will remain a significant contributor to the total chip power, as long as techniques are used to limit leakage power consumption.

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Proceedings IEEE Computer Society Annual Symposium on VLSI. New Paradigms for VLSI Systems Design. ISVLSI 2002

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