Power optimization in TSPC D flip-flop based 4-bit counter

i-manager’s Journal on Electronics Engineering Pub Date : 1900-01-01 DOI:10.26634/jele.12.3.18977

Varun, Krishan Bal, Tripathi Rohit

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Abstract

In the present communication, the basic D flip flop has been considered with TSPC (True Single Phase Clock) logic for designing a novel 4-bit counter on 45 and 32nm technology. Here, it was with average power of 309 μWatts and 166.8 μWatts, which is very high on the respective technologies. The challenge is to reduce the average power and off state leakage power. To consider the challenge, two different techniques have been considered for power saving as, sleeping transistors and technique, modified TSPC D flip-flop (modified version In comparative study of simulations, it is observed that employing modified version of TSPC D flip-flop shows the most optimum results in terms of propagation delays and average power. Average power has been obtained as 260.3 μWatts which is 15.76% less than base counter on 45nm technology, and 133.2 μWatts which is 20.14 % less on 32nm technology. Moreover, Transistor sizing has also been used for separate analysis in which case the average power consumption has been found most minimum in 6/4 aspect ratio as 196.6 μWatts and 70.31 μWatts in both technologies respectively, among 6/4, 5/3 and 4/2 ratios.

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基于TSPC D触发器的4位计数器的功耗优化

在目前的通信中，基本D触发器被考虑与TSPC(真单相时钟)逻辑一起设计45和32nm技术上的新型4位计数器。其中，平均功率为309 μ瓦，平均功率为166.8 μ瓦，在各自的技术中都是很高的。目前的挑战是如何降低平均功率和关断状态漏功率。考虑到这一挑战，我们考虑了两种不同的节能技术，即休眠晶体管和改进TSPC D触发器(改进版本)。通过仿真对比研究，我们发现采用改进版本的TSPC D触发器在传输延迟和平均功耗方面表现出最优的效果。平均功耗为260.3 μWatts，比45nm工艺低15.76%;平均功耗为133.2 μWatts，比32nm工艺低20.14%。此外，晶体管尺寸也被用于单独的分析，在这种情况下，在6/4宽高比下，两种技术的平均功耗分别为196.6 μ瓦和70.31 μ瓦，分别为6/4、5/3和4/2。

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 Electronics Engineering

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