A robust and low power dual data rate (DDR) flip-flop using c-elements

2010 11th International Symposium on Quality Electronic Design (ISQED) Pub Date : 2010-03-22 DOI:10.1109/ISQED.2010.5450403

Srikanth V. Devarapalli, P. Zarkesh-Ha, S. Suddarth

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引用次数: 28

Abstract

To maintain the performance of digital systems, while reducing the energy consumption, implementation of dual edge flip flops has recently become the focus of many researchers. This paper presents a new robust and low power dual edge flip-flop using c-elements. Unlike the existing dual data rate (DDR) flip flops [1–4], the proposed circuit uses the direct clock pulses to latch the data, without a need for additional pulse generator circuitry for the clock signal, which lowers the clock dynamic power consumption by factor of 2x. Moreover, because of its simplicity with very low transistor count, it provides a more robust solution for DDR flip-flops. In comparison with ep-DSFF (explicit-pulsed static hybrid flop) [1] at 45nm CMOS process, the proposed DDR-FF consumes 32% less power, with 12% less C2Q delay. The power-delay product of the proposed DDR-FF is 41% better than its counterpart, ep-DSFF. The proposed DDR-FF uses only 24 transistors and can easily be implemented into the cell libraries for high performance and low power ASIC design flow.

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一个鲁棒和低功耗双数据速率(DDR)触发器使用c-元素

为了保持数字系统的性能，同时降低能耗，双边触发器的实现成为近年来许多研究人员关注的焦点。本文提出了一种新型的鲁棒低功耗双棱触发器。与现有的双数据速率(DDR)触发器[1-4]不同，所提出的电路使用直接时钟脉冲锁存数据，而不需要额外的时钟信号脉冲发生器电路，从而将时钟动态功耗降低了2倍。此外，由于其简单性和极低的晶体管数量，它为DDR触发器提供了更强大的解决方案。与45纳米CMOS工艺的ep-DSFF(显式脉冲静态混合开关)[1]相比，所提出的DDR-FF功耗降低32%，C2Q延迟降低12%。DDR-FF的功率延迟积比ep-DSFF高41%。所提出的DDR-FF仅使用24个晶体管，可以很容易地实现到单元库中，用于高性能和低功耗的ASIC设计流程。

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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2010 11th International Symposium on Quality Electronic Design (ISQED)

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