Management of Power and Performance with Stress Memorization Technique for 45nm CMOS

Authors :: Naoki Nagashima
Y. Shiozaki
M. Nakazawa
A. Eiho
K. Ota
M. Ikeda
T. Kuwata
M. Iwai
Y. Enomoto
Kitano
T. Sawada
T. Sanuki
M. Saito
Toshiyuki Iwamoto
Kiyotaka Imai
Eiji Morifuji
K. Ohno
G. Sudo
K. Nagaoka
O. Fuji
Hiroshi Naruse
K. Fukasaku
Mitsuhiro Togo
Takahiro Ito
H. Nii
H. Tsuda
Fumiyoshi Matsuoka
N. Fuji
H. Yamazaki
S. Muramatsu
K. Yoshida
S. Yamada
S. Iwasa
Source :: 2007 IEEE Symposium on VLSI Technology.
Publication Year :: 2007
Publisher :: IEEE, 2007.
Abstract: The effect of stress memorization technique (SMT) in performance and power reduction is maximized by choosing the appropriate stressor with large stress change by spike RTA. 30% mobility enhancement and 60% reduction of gate leakage have been achieved simultaneously. Stress distribution in channel region for SMT is confirmed to be uniform, hence layout dependency is minimized and performance is maximized in aggressively scaled CMOS with dense gate pitch rule (190 nm) in 45 nm technology node.

Subjects :: Power management
Stress (mechanics)
Surface-mount technology
chemistry.chemical_compound
Materials science
chemistry
CMOS
Energy management
Capacitive sensing
Hardware_INTEGRATEDCIRCUITS
Electronic engineering
Leakage (electronics)
Silicon-germanium

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