DocumentCode
1574168
Title
Investigation of backgate-bias dependence of intrinsic variability for UTB hetero-channel MOSFETs considering quantum confinement
Author
Chang-Hung Yu ; Pin Su
Author_Institution
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
fYear
2013
Firstpage
61
Lastpage
62
Abstract
Variability of nanoscale MOSFETs has been an obstacle to CMOS scaling. For future CMOS devices, hetero-channel using Ge or III-V compounds such as InGaAs have been proposed as performance boosters [1-2]. The variability, however, is further aggravated for these high-mobility materials due to their higher permittivity. The ultra-thin body (UTB) structure has been considered as a promising solution to improve device electrostatic integrity (EI) [3-4]. Using the UTB with thin buried oxide (BOX) structure also enables efficient threshold voltage (Vth) modulation via backgate bias (Vbg) [3-4] for power-performance optimization. In addition, the adaptive body bias (ABB) technique has been widely used to compensate the die-to-die variation [5-6], whereas the within-die Vth variation also changes with Vbg. With the scaling of device dimensions, the quantum confinement (QC) effect may become significant and impact the pertinent Vbg-dependence of Vth variability for the UTB hetero-channel devices. In this work, using TCAD atomistic simulation, we investigate the impact of Vbg on the intrinsic variability of gate line-edge-roughness (LER) for UTB SOI, GeOI, and InGaAs-OI MOSFETs considering quantum confinement.
Keywords
CMOS integrated circuits; III-V semiconductors; MOSFET; gallium arsenide; indium compounds; silicon-on-insulator; technology CAD (electronics); CMOS; Ge; III-V compounds; InGaAs; SOI; TCAD; adaptive body bias; backgate-bias dependence; buried oxide structure; high-mobility materials; line-edge-roughness; power-performance optimization; quantum confinement effect; threshold voltage modulation; ultra-thin body hetero-channel MOSFET; CMOS integrated circuits; Indium gallium arsenide; Logic gates; MOSFET; Performance evaluation; Potential well; Sensitivity;
fLanguage
English
Publisher
ieee
Conference_Titel
Device Research Conference (DRC), 2013 71st Annual
Conference_Location
Notre Dame, IN
ISSN
1548-3770
Print_ISBN
978-1-4799-0811-0
Type
conf
DOI
10.1109/DRC.2013.6633793
Filename
6633793
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