一种用于70nm以下存储电路的栅极泄漏减少策略

Proceedings of the 2004 IEEE Dallas/CAS Workshop Implementation of High Performance Circuits Pub Date : 2004-11-30 DOI:10.1109/DCAS.2004.1360446

P. Elakkumanan, Charan Thondapu, R. Sridhar

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引用次数: 29

摘要

在sub-70 nm制程技术中，栅极氧化物厚度接近于直接栅极隧道电流开始在开关态和开关态晶体管工作模式中发挥重要作用的极限。这种栅极泄漏电流，加上亚阈值泄漏，导致总泄漏功率急剧增加。因此，解决不同主要泄漏成分的有效减少泄漏策略是必要的。本文分析了NC-SRAM存储单元在减少栅极泄漏方面的有效性。与传统SRAM相比，该技术在65nm技术中节省了约60%的栅极泄漏，对面积的影响最小。

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A gate leakage reduction strategy for sub-70 nm memory circuits

The gate oxide thickness in sub-70 nm process technologies approaches the limit where direct gate tunneling current starts to play a significant role in both off-state and on-state transistor operating modes. This gate leakage current, in addition to sub-threshold leakage, results in dramatic increase in total leakage power. Hence, efficient leakage reduction strategies that address the different dominant leakage components are necessary. In this paper, we analyze the use of NC-SRAM memory cell for its effectiveness in gate leakage reduction. The technique provided around 60% gate leakage savings in 65 nm technology with minimal impact on area, as compared to a conventional SRAM.

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Proceedings of the 2004 IEEE Dallas/CAS Workshop Implementation of High Performance Circuits

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