一种基于降低输出过渡率的动态降功率方法

2019 IEEE Pacific Rim Conference on Communications, Computers and Signal Processing (PACRIM) Pub Date : 2019-08-01 DOI:10.1109/PACRIM47961.2019.8985099

Moaz Mostafa, A. M. Zaki, M. El-Kharashi, M. Dessouky

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引用次数: 1

摘要

功耗是当今的主要挑战之一。对于动态逻辑来说，动态功率是一个具有挑战性的功耗来源。动态功率受输出转换速率的影响。输出转换速率越大，消耗的动态功率越大。本文提出了一种基于降低输出转换速率的动态功率降低方法。对于类似的连续输入模式，新提出的技术只允许一个输出转换。当输入模式固定为连续时钟周期数时，该技术被证明是非常有效的。隔离器用于隔离最后的有效输出，以避免由于降低输出转换率而导致的输出损坏。实验结果表明，该技术有效地降低了输出转换速率，提供了隔离的有效输出，并将动态功耗降低到原始功耗的60%。

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A Dynamic Power Reduction Methodology based on Reducing Output Transition Rate

Power consumption is one of the main challenges nowadays. Dynamic power is a challenging source of power dissipation for dynamic logic. Dynamic power is affected by output transition rate. The more the output transition rate, the more the dynamic power is consumed. This paper proposes a new technique to reduce dynamic power based on reducing output transition rate. The new proposed technique permits only one output transition for similar consecutive input patterns. The proposed technique is proved to be very effective when input patterns are fixed for consecutive number of clock cycles as in grey code. An isolator is used to isolate last valid output to avoid output corruption due to reducing output transition rate. Experimental results on TSMC 65 nm at 1 GHZ show the effectiveness of the proposed technique in reducing output transition rate, providing isolated valid output, and reducing dynamic power up to 60% of the original consumed power.

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来源期刊

2019 IEEE Pacific Rim Conference on Communications, Computers and Signal Processing (PACRIM)

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