用于瞬态供电系统的新型超低功耗双边触发保持触发器

2017 IEEE 7th International Advance Computing Conference (IACC) Pub Date : 1900-01-01 DOI:10.1109/IACC.2017.0109

Madhavi Dasari, R. Nikhil, A. Chavan

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引用次数: 4

摘要

新兴的基于传感器的电子产品希望通过采用极低功耗技术与传统技术相结合来寻求高水平的节能。在本研究中，作者研究了在能量延迟空间中具有数据保留能力的存储单元，用于新兴应用即瞬态供电系统的三个级别的功率和性能优化。该研究提出了一种具有保留锁存器的新型双边缘触发触发器(DETRFF)，适用于超低功耗应用，在超阈值和亚阈值水平之间进行动态电压切换。采用Cadence在45nm NCSU CMOS技术上对DETRFF设计进行了仿真。与现有的DETFF设计相比，拟议的设计在EDP和泄漏能量指标方面表现出色。

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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Novel Ultra Low Power Dual Edge Triggered Retention Flip-Flop for Transiently Powered Systems

Emerging sensor based electronic gadgets desire to seek high levels of energy conservation by adopting extreme low power techniques in combination with traditional techniques. In this study the authors examine memory units with data retention capability in the Energy-Delay space for an emerging application namely Transiently Powered System for three levels of power and performance optimization. The study presents a novel Dual Edge Triggered Flip-Flop (DETRFF) with retention latch that is suitable for ultra low power application with dynamic voltage switch between super and sub threshold levels. The DETRFF designs are simulated in 45nm NCSU CMOS technology using Cadence. The proposed design excels in the EDP and Leakage Energy metrics as compared to the existing DETFF designs.

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2017 IEEE 7th International Advance Computing Conference (IACC)

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