A system to optimize inline defect detection using short loop testchips leading to faster yield learning

Author

Yang, Tanya ; Lee, Hun Chow ; Lim, Victor ; Gn, Fang Hong ; Mardiyono, Tri ; Wang, Qionghan ; Nguyen, Long Phan ; Li, Fei ; Zhao, Sa ; Inani, Anand

Author_Institution

GLOBALFOUNDRIES, Singapore, Singapore

fYear

2011

Firstpage

1

Lastpage

4

Abstract

With every new manufacturing node also come new modes of failures. Being able to identify these new fail modes and solve them quickly is the key to bring a manufacturing process to mass production readiness. Inline inspection is typically used for studying defects at critical layers. However, this is often limited by the amount of defects that can be visually inspected and to be able to qualify them between killer and false defects. We describe a powerful methodology combining electrical measurements from CV® testchips and inline inspection to make efficient usage of limited inline inspection resources and be able to identify new defect types that will eventually cause yield loss. This methodology can also be used to optimize inline inspection recipes and apply to production wafers.

Keywords

integrated circuit testing; integrated circuit yield; manufacturing processes; microprocessor chips; CV testchips; electrical measurements; inline defect detection; inspection resources; manufacturing node; manufacturing process; mass production; short loop testchips; yield learning; Failure analysis; Inspection; Manuals; Manufacturing; Optimization; Systematics; Vehicles; CV® testchips; array mode inspection; defect pareto; inline inspection; short loop;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Semiconductor Manufacturing Conference (ASMC), 2011 22nd Annual IEEE/SEMI

Conference_Location

Saratoga Springs, NY

ISSN

1078-8743

Print_ISBN

978-1-61284-408-4

Electronic_ISBN

1078-8743

Type

conf

DOI

10.1109/ASMC.2011.5898214

Filename

5898214