Title :
Simulation and optimization of Tri-Gates in a 22 nm hybrid Tri-Gate/planar process
Author :
T. Baldauf;A. Wei;R. Illgen;S. Flachowsky;T. Herrmann;T. Feudel;J. Höntschel;M. Horstmann;W. Klix;R. Stenzel
Author_Institution :
Department of Electrical Engineering, University of Applied Sciences Dresden, Friedrich-List-Platz 1, 01069 Dresden, Germany
fDate :
3/1/2011 12:00:00 AM
Abstract :
A Tri-Gate structure built into a planar 22 nm bulk process was investigated by 3-D device simulations (Sentaurus D-2010). The planar process flow sequence was extended with extra Tri-Gate patterning, but otherwise all implants were shared, as could be done in simultaneous processing of planar and Tri-Gate CMOS. A comparison of planar and Tri-Gate transistors with the same planar dopant profiles shows a substantial improvement of subthreshold slope, DIBL, and VT-rolloff for Tri-Gates. The electrical behavior of the Tri-Gate transistor has been studied for various Tri-Gate heights and widths. A large space of Tri-Gate dimensions outperformed planar in terms of electrostatics and ION-IOFF characteristics.
Keywords :
"Logic gates","Implants","FinFETs","Electrostatics","Metals"
Conference_Titel :
Ultimate Integration on Silicon (ULIS), 2011 12th International Conference on
Print_ISBN :
978-1-4577-0090-3
DOI :
10.1109/ULIS.2011.5757974
