Title :
SETTOFF: A fault tolerant flip-flop for building Cost-efficient Reliable Systems
Author :
Lin, Yang ; Zwolinski, Mark
Author_Institution :
Electron. & Comput. Sci., Univ. of Southampton, Southampton, UK
Abstract :
Conventional fault tolerance techniques either require big overheads or have limited reliability. We propose a novel fault tolerant flip-flop (SETTOFF) that addresses timing errors and soft errors in one cost-efficient architecture. In SETTOFF, most SEUs are detected by monitoring the illegal transitions at the output of a flip-flop and recovered by inverting the cell state. SETs, timing errors and the other SEUs are detected by a time redundancy-based architecture. For a 10% activity rate, SETTOFF consumes 35.8% and 39.7% more power than a library flip-flop in 120nm and 65nm technologies, respectively. It only consumes about 5.7% more power than the detection based RazorII flip-flop [1]. SETTOFF therefore provides an increased coverage of fault tolerance with only moderate increase in overhead, hence it is suitable for building highly reliable systems at lower cost than the traditional techniques.
Keywords :
fault tolerance; flip-flops; redundancy; SET; SETTOFF; SEU; cell state; cost-efficient architecture; cost-efficient reliable systems; detection-based RazorII flip-flop; fault tolerant flip-flop; illegal transitions; library flip-flop; soft errors; time redundancy-based architecture; timing errors; Clocks; Computer architecture; Delay; Fault tolerant systems; Latches; Logic gates; Fault tolerance; single-event transient; single-event upset; timing error;
Conference_Titel :
On-Line Testing Symposium (IOLTS), 2012 IEEE 18th International
Conference_Location :
Sitges
Print_ISBN :
978-1-4673-2082-5
DOI :
10.1109/IOLTS.2012.6313833
