Title :
Monte Carlo modeling of threshold variation due to dopant fluctuations
Author :
Frank, D.J. ; Taur, Y. ; Ieong, M. ; Wong, H.-S.P.
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
This paper presents a new 3D Monte Carlo approach for modeling random dopant fluctuation effects in MOSFETs. The method takes every silicon atom in the device into account and is generally applicable to arbitrary nonuniform doping profiles. In addition to body dopant fluctuations, the effect of source-drain dopant fluctuations on short-channel threshold voltage is studied for the first time. The result clearly indicates the benefit of retrograde body doping and shallow/abrupt source-drain junctions. It also quantifies the magnitude of threshold voltage variations due to discrete dopant fluctuations in an optimally designed 25 nm MOSFET.
Keywords :
MOSFET; Monte Carlo methods; doping profiles; fluctuations; semiconductor device models; 25 nm; 3D Monte Carlo approach; MOSFETs; Monte Carlo modeling; arbitrary nonuniform doping profiles; body dopant fluctuations; discrete dopant fluctuations; dopant fluctuations; modeling; optimally designed MOSFET; random dopant fluctuation effects; retrograde body doping; shallow/abrupt source-drain junctions; short-channel threshold voltage; silicon atom; source-drain dopant fluctuations; threshold variation; threshold voltage variations; Computational modeling; Computer simulation; Doping; Finite element methods; Fluctuations; MOSFETs; Monte Carlo methods; Random number generation; Semiconductor process modeling; Threshold voltage;
Conference_Titel :
VLSI Technology, 1999. Digest of Technical Papers. 1999 Symposium on
Conference_Location :
Kyoto, Japan
Print_ISBN :
4-930813-93-X
DOI :
10.1109/VLSIT.1999.799397
