Independently-Controlled-Gate FinFET 6T SRAM Cell Design for Leakage Current Reduction and Enhanced Read Access Speed

2014 IEEE Computer Society Annual Symposium on VLSI Pub Date : 2014-07-09 DOI:10.1109/ISVLSI.2014.25
Kaisheng Ma, Huichu Liu, Yang Xiao, Yang Zheng, Xueqing Li, S. Gupta, Yuan Xie, N. Vijaykrishnan
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引用次数: 13

Abstract

In this paper, two novel 6T SRAM cells based on Independently-Controlled-Gate FinFETs are proposed. The new 6T cells are derived from 4T cells: by separating the read timing and read-line, the proposed new cells allow simultaneously read & write to different addresses. To overcome the traditional retention time problem in 4T cells, the proposed cells reduce leakage by changing the back-gate connection and increasing the capacitance at data storage points (Q, QB). Compared to previous 6T FinFET SRAMs, the proposed cells reduce the static leakage current, and enhance the write and read speed. In addition, this structure is scalable for multi-ports.
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独立控制栅极FinFET 6T SRAM单元设计,用于减少漏电流和提高读取访问速度
本文提出了两种基于独立控门finfet的新型6T SRAM单元。新的6T单元由4T单元衍生而来:通过分离读取时序和读取线,提出的新单元允许同时对不同地址进行读写。为了克服4T电池中传统的保留时间问题,该电池通过改变后门连接和增加数据存储点(Q, QB)的电容来减少泄漏。与以往的6T FinFET sram相比,所提出的电池减少了静态漏电流,提高了写入和读取速度。此外,这种结构对于多端口是可扩展的。
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2014 IEEE Computer Society Annual Symposium on VLSI
2014 IEEE Computer Society Annual Symposium on VLSI
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