An LDPC decoding method for fault-tolerant digital logic

Author

Tang, Yangyang ; Winstead, Chris ; Boutillon, Emmanuel ; Jego, Christophe ; Jézéquel, Michel

Author_Institution

Lab.-STICC, Univ. de Bretagne Sud, Lorient, France

fYear

2012

fDate

20-23 May 2012

Firstpage

3025

Lastpage

3028

Abstract

A decoding algorithm and logic implementation is proposed for fast, low-complexity error correction in environments with a high rate of transient faults as well as hard errors. The circuit is able to correct a single error in one clock cycle, making it suitable for mitigating faults in pipelined digital logic systems. The proposed method is also resilient against internal transient gate errors that may occur within the decoder itself. In the presence of a high input error rate (0.001) and high internal gate fault rate (10^-5), the new decoding algorithm is able to reduce the error probability by two orders of magnitude. An asynchronous implementation is also presented for the new algorithm, which performs iterative error-correction with reduced latency compared to synchronous algorithms.

Keywords

computational complexity; decoding; error correction; logic circuits; parity check codes; LDPC decoding method; asynchronous implementation; decoding algorithm; error probability; fast low-complexity error correction; fault-tolerant digital logic; hard errors; high input error rate; high internal gate fault rate; internal transient gate errors; iterative error-correction; logic implementation; pipelined digital logic systems; synchronous algorithms; transient faults; Circuit faults; Computer architecture; Decoding; Iterative decoding; Logic gates; Transient analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems (ISCAS), 2012 IEEE International Symposium on

Conference_Location

Seoul

ISSN

0271-4302

Print_ISBN

978-1-4673-0218-0

Type

conf

DOI

10.1109/ISCAS.2012.6271956

Filename

6271956