An SEU-Tolerant DICE Latch Design With Feedback Transistors

Author

Wang, H.-B. ; Li, Y.-Q. ; Chen, L. ; Li, L.-X. ; Liu, R. ; Baeg, S. ; Mahatme, N. ; Bhuva, B.L. ; Wen, S.-J. ; Wong, R. ; Fung, R.

Author_Institution

Coll. of IOT Eng., Hohai Univ., Changzhou, China

Volume

62

Issue

2

fYear

2015

fDate

Apr-15

Firstpage

548

Lastpage

554

Abstract

This paper presents an SEU-tolerant Dual Interlocked Storage Cell (DICE) latch design with both PMOS and NMOS transistors in the feedback paths. The feedback transistors improve the SEU tolerance by increasing the feedback loop delay during the hold mode. The latch design was implemented in a shift register fashion at a 130-nm bulk CMOS process node. Exposures to heavy-ions exhibited a significantly higher upset LET threshold and lower cross-section compared with the traditional DICE latch design. Performance penalties in terms of write delay, power, and area are non-significant compared to traditional DICE design.

Keywords

CMOS integrated circuits; flip-flops; tolerance analysis; transistors; DICE latch design; Dual Interlocked Storage Cell; NMOS transistors; PMOS transistors; SEU tolerance; feedback path; feedback transistors; upset LET threshold; Clocks; Delays; Educational institutions; Feedback loop; Latches; Single event upsets; Transistors; Charge sharing; dual interlocked storage cell (DICE); radiation hardening; single event upset; soft error;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2015.2399019

Filename

7052424