Interplay Between Statistical Variability and Reliability in Contemporary pMOSFETs: Measurements Versus Simulations

Author

Hussin, R. ; Amoroso, Salvatore Maria ; Gerrer, Louis ; Kaczer, Ben ; Weckx, Pieter ; Franco, Jacopo ; Vanderheyden, A. ; Vanhaeren, D. ; Horiguchi, Naoto ; Asenov, Asen

Author_Institution

Device Modeling Group, Univ. of Glasgow, Glasgow, UK

Volume

61

Issue

9

fYear

2014

fDate

Sept. 2014

Firstpage

3265

Lastpage

3273

Abstract

This paper presents an extensive study of the interplay between as-fabricated (time-zero) variability and gate oxide reliability (time-dependent variability) in contemporary pMOSFETs. We compare physical simulation results using the atomistic simulator GARAND with experimental measurements. The TCAD simulations are accurately calibrated to reproduce the average transistor behavior. When random discrete dopants, line edge roughness, and gate polysilicon granularity are considered, the simulations accurately reproduce time-zero (as-fabricated) statistical variability, as well as time-dependent variability data, represented by threshold voltage shift distributions. The calibrated simulations are then used to predict the reliability behavior at different bias conditions and for different device dimensions.

Keywords

MOSFET; semiconductor device manufacture; semiconductor device measurement; semiconductor device reliability; technology CAD (electronics); GARAND; TCAD simulations; atomistic simulator; gate oxide reliability; gate polysilicon; line edge roughness; pMOSFET; statistical reliability; statistical variability; threshold voltage shift distributions; time-dependent variability; transistor; Doping; Integrated circuit reliability; MOSFET; Semiconductor process modeling; Threshold voltage; Atomistic doping; random telegraph noise (RTN); reliability; statistical simulations;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2014.2336698

Filename

6861994