Power-aware 65 nm node CMOS technology using variable V/sub DD/ and back-bias control with reliability consideration for back-bias mode

Digest of Technical Papers. 2004 Symposium on VLSI Technology, 2004. Pub Date : 2004-06-15 DOI:10.1109/VLSIT.2004.1345409

M. Togo, T. Fukai, Y. Nakahara, S. Koyama, M. Makabe, E. Hasegawa, M. Nagase, T. Matsuda, K. Sakamoto, S. Fujiwara, Y. Goto, T. Yamamoto, T. Mogami, M. Ikeda, Y. Yamagata, K. Imai

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引用次数: 22

Abstract

We have developed a power-aware CMOS technology featuring variable V/sub DD/ and back-bias control. Three typical operation modes are defined: high-speed mode (V/sub DD/ = 1.2V, V/sub B/ = 0V), nominal mode (V/sub DD/ = 0.9V, V/sub B/ = -0.5V) and power-save mode (V/sub DD/ = 0.6V, V/sub B/ = -2.0V). Compared with nominal mode, one and a half order of magnitude reduction of standby leakage current is achieved with power-save mode, while 75% higher drivability is achieved with high-speed mode. Device reliability for back-bias condition was also investigated. With higher back-bias, NBT (Negative Bias Temperature) degradation for pFET is enhanced especially in the case of thinner gate oxide. From activation energy, we believe the dominant mechanism is SHH (Substrate Hot-Hole) injection. Reduced V/sub DD/ at standby mode drastically alleviates this degradation caused by NBT stress and SHH injection. With appropriate V/sub DD/ and V/sub B/ combination, power-aware 65nm CMOS with sufficient reliability can be achieved.

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功率感知的65纳米节点CMOS技术，采用可变V/sub DD/和反向偏置控制，并考虑反向偏置模式的可靠性

我们开发了一种功率感知CMOS技术，具有可变V/sub DD/和反向偏置控制。定义了三种典型的工作模式:高速模式(V/sub DD/ = 1.2V, V/sub B/ = 0V)，标称模式(V/sub DD/ = 0.9V, V/sub B/ = -0.5V)和省电模式(V/sub DD/ = 0.6V, V/sub B/ = -2.0V)。与标称模式相比，省电模式可将待机泄漏电流降低1.5个数量级，而高速模式可将驾驶性能提高75%。此外，还研究了反向偏压条件下器件的可靠性。随着背偏置的增加，pet的负偏置温度(NBT)降解增强，特别是在栅极氧化物更薄的情况下。从活化能来看，我们认为主要的机制是SHH (Substrate Hot-Hole)注入。在待机模式下，降低V/sub DD/大大减轻了NBT应激和SHH注射引起的这种退化。通过适当的V/sub DD/和V/sub B/组合，可以实现具有足够可靠性的功率感知65nm CMOS。

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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Digest of Technical Papers. 2004 Symposium on VLSI Technology, 2004.

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