Towards the methodology of on-line diagnosis

Author

Rajsuman, Rochit

Author_Institution

Advantest America Corp., Santa Clara, CA

fYear

0

fDate

0-0 0

Abstract

Summary form only given. Memories are the highest volume ICs. With production of 30K wafers/month, i.e., production of NAND flash memories with 800 chips/wafer, a single fab today produces more than 250M chips per year. In such a high volume manufacturing (HVM) environment, identification of recurring faults, determination and elimination of the root cause in real-time is paramount to un-interrupted operation. In this presentation, a methodology was presented that creates a close-loop environment from ATE to EDA. Porting and analyzing tester data into EDA design environment drastically reduces fault identification time and the time to determine the cause of fault. Because diagnosis is performed within the EDA environment, diagnostic results become available at every level of the design hierarchy; thus, engineers can modify the design to eliminate the root cause

Keywords

closed loop systems; fault simulation; integrated circuit manufacture; integrated circuit testing; integrated memory circuits; real-time systems; ATE; EDA; NAND flash memories; close-loop environment; fault identification time; high volume manufacturing; integrated circuit; online diagnosis; recurring faults identification; Data analysis; Design engineering; Electronic design automation and methodology; Fault diagnosis; Manufacturing; Production; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

On-Line Testing Symposium, 2006. IOLTS 2006. 12th IEEE International

Conference_Location

Lake Como

Print_ISBN

0-7695-2620-9

Type

conf

DOI

10.1109/IOLTS.2006.62

Filename

1655519