Title :
A New Design-Centering Methodology for VLSI Device Development
Author :
Y. Aoki;H. Masuda;S. Shimada;S. Sato
Author_Institution :
Central Research Laboratory, Hitachi Ltd., Tokyo, Japan
Abstract :
VLSI yield optimization and design centering are two key interests in the development of submicron VLSI´s. Accordingly, we have developed a new design automation technique based on simulation CAD tools. The features of this methodology are great reduction of simulation time in device optimization, and accurate prediction of process sensitivity in device performance. The approach we used was basically a modification of the "design of experiment" method. This approach makes it possible to obtain an optimum design with a large number of design parameters. The methodology was successfully applied to the optimization of a 0.5-μm MOSFET structure based on only a one-day computation by a supercomputer (S-810) using a two-dimensional device simulator. In the design centering, we assumed five objective device performances, that is, threshold voltage V/sub TH/, output conductance G/sub D/, drain current I/sub D/, V/sub TH/ dependence on gate length ΔV/sub TH/ / ΔL/sub G/, and maximum substrate current I/ sub submax/. The use of the device design centering system predicted an optimized nMOSFET with 0.52-μm gate length, 9.4-nm gate oxide thickness, and 1.6 x 10/sup 16/cm/sup-3/ substrate concentration for a given set of objective performances. Statistical variations of device characteristics were also calculated.
Keywords :
"Design methodology","Very large scale integration","Design optimization","Design automation","Optimization methods","MOSFET circuits","Predictive models","Supercomputers","Computational modeling","Threshold voltage"
Journal_Title :
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
DOI :
10.1109/TCAD.1987.1270292