Title of article
Design and Implementation of Standby Leakage Power Reduction Technique for Nano scale CMOS VLSI Systems
Author/Authors
Srinivasulu.، P. نويسنده ,
Issue Information
روزنامه با شماره پیاپی 4 سال 2012
Pages
8
From page
857
To page
864
Abstract
Abstract – In this paper, a novel low-power design
technique is proposed to minimize the standby leakage power
in nanoscale CMOS very large scale integration (VLSI)
systems by generating the adaptive optimal reverse body-bias
voltage. The adaptive optimal body-bias voltage is generated
from the proposed leakage monitoring circuit, which
compares the subthreshold current (ISUB) and the band-toband
tunneling (BTBT) current (IBTBT). The proposed circuit
was simulated in HSPICE using 32-nm bulk CMOS
technology and evaluated using ISCAS85 benchmark circuits
at different operating temperatures (ranging from 25 ?C to
100 ?C). Analysis of the results shows a maximum of 551 and
1491 times leakage power reduction at 25 ?C and 100 ?C,
respectively, on a circuit with 546 gates. The proposed
approach demonstrates that the optimal body bias reduces a
considerable amount of standby leakage power dissipation in
nanoscale CMOS integrated circuits. In this approach, the
temperature and supply voltage variations are compensated
by the proposed feedback loop.
Journal title
International Journal of Electronics Communication and Computer Engineering
Serial Year
2012
Journal title
International Journal of Electronics Communication and Computer Engineering
Record number
882813
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