Leakage power optimization using sleeping approaches in TSPC D flip-flop

i-manager's Journal on Circuits and Systems Pub Date : 1900-01-01 DOI:10.26634/jcir.10.2.18978
Varun, Krishan Bal, Tripathi Rohit
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Abstract

In this paper, the basic D flip-flop has been considered with TSPC (True Single-Phase Clock) logic. Here, the leakage power of 1031 pW fell to the power for the operation of the memory elements, which is a lot compared to other triggers. The challenge is to reduce the optimal power off to conserve idle power. To solve this problem, three different powersaving techniques were considered, such as Technique 1: sleeping transistors, Technique 2: sleepy stack, and Technique 3: sleepy keeper. In a comparative study, it was observed that Technique 1 is the most optimal method for delays (falling and rising) and off-state leakage power compared to the other methods considered. The off-state leakage power was 1.753 pW, which is 93.07% and 76.90% less than by Techniques 2 and 3, respectively.
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基于睡眠方法的TSPC D触发器漏功率优化
本文采用TSPC(真单相时钟)逻辑来考虑基本D触发器。在这里,1031 pW的漏功率落到了存储元件运行的功率上,这与其他触发器相比是很多的。我们面临的挑战是如何减少最优断电以节省闲置电力。为了解决这个问题,我们考虑了三种不同的节能技术,如技术1:休眠晶体管,技术2:休眠堆栈和技术3:休眠守护器。在一项对比研究中发现,与其他考虑的方法相比,技术1是延迟(下降和上升)和脱态泄漏功率最优的方法。失态泄漏功率为1.753 pW,比技术2和技术3分别降低了93.07%和76.90%。
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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i-manager's Journal on Circuits and Systems
i-manager's Journal on Circuits and Systems
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