Title :
Statistical analysis of steady state leakage currents in nano-CMOS devices
Author :
Singh, Jawar ; Mathew, Jimson ; Mohanty, Saraju P. ; Pradhan, Dhiraj K.
Author_Institution :
Univ. of Bristol, Bristol
Abstract :
Motivated by the problem of process variation in nano-scale CMOS, in this paper, we propose a multivariate statistical technique that uses the well known approach of principal component analysis (PCA), a technique extensively used in statistical modeling, to analyse the process variations. We use this approach to extract significant statistical information from the simulated data. We also propose a statistical model to characterize nano-scale CMOS device characteristics such as dynamic current Idyn, gate leakage Igate, and subthreshold leakage Isub considering the effects of random variations in the process and design parameters such as gate oxide thickness Tox, supply voltage Vdd and gate length L. These models can be used at higher level of circuit abstraction to study the design issues under process variation.
Keywords :
CMOS integrated circuits; leakage currents; nanotechnology; principal component analysis; random processes; dynamic current; gate leakage; gate length; gate oxide thickness; multivariate statistical technique; nanoscale CMOS device; principal component analysis; process variation; random variation; statistical analysis; statistical modeling; steady state leakage current; subthreshold leakage; supply voltage; CMOS process; Data mining; Gate leakage; Leakage current; Nanoscale devices; Principal component analysis; Process design; Semiconductor device modeling; Statistical analysis; Steady-state;
Conference_Titel :
Norchip, 2007
Conference_Location :
Aalborg
Print_ISBN :
978-1-4244-1516-8
Electronic_ISBN :
978-1-4244-1517-5
DOI :
10.1109/NORCHP.2007.4481069
