A Compact Test Structure for Characterizing Transistor Variability Beyond $3\\sigma$

Author

Chen, Christopher S. ; Liping Li ; Lim, Queennie ; Hong HaiTeh ; Binti Omar, Noor Fadillah ; Chun-Lee Ler ; Watt, Jeffrey T.

Author_Institution

Dept. of Process Technol. Dev., Altera Corp., San Jose, CA, USA

Volume

28

Issue

3

fYear

2015

fDate

Aug. 2015

Firstpage

329

Lastpage

336

Abstract

An addressable array test structure is proposed for characterization of transistor variability beyond 3σ away from the mean. The design of the array is based on very compact basic cells which enable a highly efficient layout which has over three times higher normalized device density than similar arrays. Implementations of a 32k array are demonstrated for placement in a standard wafer scribe lane module. Characterization results based on an advanced high-k/metal gate process show that transistor threshold voltages follow a Gaussian distribution at current levels typically used in digital circuits. Analysis of random and systematic components of variability confirms that there are no systematic spatial gradients across the array and that random variations account for 99% of total variability.

Keywords

Gaussian distribution; MOSFET; modules; semiconductor device testing; semiconductor technology; Gaussian distribution; addressable array test structure; compact test structure; device density; digital circuit; high-k/metal gate process; threshold voltage; transistor variability; wafer scribe lane module; Arrays; Current measurement; Decoding; Logic gates; Semiconductor device measurement; Transistors; Voltage measurement; MOSFETs; measurement; statistics; statistics.; variability;

fLanguage

English

Journal_Title

Semiconductor Manufacturing, IEEE Transactions on

Publisher

ieee

ISSN

0894-6507

Type

jour

DOI

10.1109/TSM.2015.2439275

Filename

7115177