采用双栅器件降低纳米级CMOS电路漏功率

Proceedings of the 2004 International Symposium on Low Power Electronics and Design (IEEE Cat. No.04TH8758) Pub Date : 2004-08-09 DOI:10.1145/1013235.1013267

Keunwoo Kim, K. Das, R. Joshi, C. Chuang

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引用次数: 21

摘要

研究了极尺度(L/sub / = 25nm)双栅器件的泄漏功率。从物理原理出发，给出了双栅CMOS器件/电路电源的二维数值仿真结果，表明双栅技术是低功耗应用的理想选择。讨论了由栅-栅耦合引起的独特的双栅器件特性，并有效地利用其进行了低漏器件的优化设计。针对低功耗和高性能应用，提出了双栅CMOS功耗和性能的设计折衷方案。考虑状态依赖性，分析了双栅器件的静态和动态电路及锁存器的总功耗，结果表明，与传统的体硅器件相比，泄漏电流减少了10倍以上。

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Nanoscale CMOS circuit leakage power reduction by double-gate device

Leakage power for extremely scaled (L/sub eff/ = 25 nm) double-gate devices is examined. Numerical two-dimensional simulation results for double-gate CMOS device/circuit power are presented from physics principle, identifying that double-gate technology is an ideal candidate for low-power applications. Unique double-gate device features resulting from gate-gate coupling are discussed and effectively exploited for optimal low-leakage device design. Design tradeoffs for double-gate CMOS power and performance are suggested for low-power and high-performance applications. Total power consumptions of static and dynamic circuits and latches for double-gate device are analyzed considering state dependency, showing that leakage current is reduced by a factor of over 10X, compared with conventional bulk-Si counterpart.

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Proceedings of the 2004 International Symposium on Low Power Electronics and Design (IEEE Cat. No.04TH8758)

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