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引用次数: 27
摘要
本文讨论了问题、挑战和进一步扩展和性能提升超过0.1 /spl μ m CMOS的可能方向。栅极氧化物,已经下降到几个原子层的厚度,很快将被隧道电流限制到15-20 /spl /。基于mosfet中的二维效应,给出了高k栅极介电体长度缩放的一般准则。一种可行的25 mm块体CMOS设计是使用高度突兀、垂直和横向不均匀的掺杂轮廓来控制短通道效应。研究了多晶硅栅极损耗对25nm CMOS性能的影响。除了传统的CMOS之外,是否有任何探索性器件结构,包括超薄SOI和双栅MOSFET,可以将CMOS扩展到10nm通道长度的问题也得到了解决。
CMOS scaling beyond 0.1 /spl mu/m: how far can it go?
This paper discusses the issues, challenges, and possible directions for further scaling and performance gains beyond 0.1 /spl mu/m CMOS. Gate oxides, already down to a few atomic layers thick, will soon be limited by tunneling currents to a thickness of 15-20 /spl Aring/. A general guideline, based on 2-D effects in MOSFETs, is given for the length scaling of high-k gate dielectrics. A feasible design for 25 mm bulk CMOS is to use a highly abrupt, vertically and laterally nonuniform doping profile to control the short-channel effect. The effect of polysilicon-gate depletion on the performance of 25 nm CMOS is examined and quantified. Beyond conventional CMOS, the question whether any of the exploratory device structures, including ultra-thin SOI and double-gate MOSFET, can extend CMOS scaling to 10 nm channel length is addressed.
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