Electrical Characteristic Fluctuations in Sub-45nm CMOS Devices

Fu-Liang Yang, Jiunn-Ren Hwang, Yiming Li
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引用次数: 33

Abstract

Random fluctuations of electrical characteristics in sub-45nm CMOS devices introduced by process-parameter variations through severe short channel effects have made the scaling of conventional planar transistors much more difficult than ever before, especially while further reduction of gate dielectric thickness is ambiguous. In this paper, the authors systematically investigate the fluctuations of threshold voltages at varied gate length, considering the effects of channel doping, gate dielectric thickness, and new transistor structures such as thin-buried-oxide SOI and FinFETs. Quantitative analysis is undertaken in terms of three major variation sources: random doping distribution, gate length deviation, and line edge roughness. The analysis also features a low Vt-fluctuation transistor for 16nm node achieved with undoped body, mid-gap metal gate, and nanowire channel
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45纳米以下CMOS器件的电特性波动
在45纳米以下的CMOS器件中,由于严重的短沟道效应引起的工艺参数变化导致电特性的随机波动,使得传统平面晶体管的缩放比以往更加困难,特别是在栅极介电厚度进一步减小的情况下。在本文中,作者系统地研究了不同栅极长度下阈值电压的波动,考虑了通道掺杂、栅极介电厚度和新型晶体管结构(如薄埋氧化物SOI和finfet)的影响。定量分析了三个主要的变化源:随机掺杂分布、栅极长度偏差和线边缘粗糙度。该分析还介绍了采用无掺杂体、中间隙金属栅极和纳米线通道实现的16nm节点低电压波动晶体管
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