DocumentCode
2857314
Title
Evaluating large grain TMR and selective partial reconfiguration for soft error mitigation in SRAM-based FPGAs
Author
Azambuja, José Rodrigo ; Sousa, Fernando ; Rosa, Lucas ; Kastensmidt, Fernanda Lima
Author_Institution
Inst. de Inf., Univ. Fed. do Rio Grande do Sul (UFRGS), Porto Alegre, Brazil
fYear
2009
fDate
24-26 June 2009
Firstpage
101
Lastpage
106
Abstract
This paper presents an innovative method that allows the use of dynamic partial reconfiguration combined with triple modular redundancy (TMR) in SRAM-based FPGAs fault-tolerant designs. The method combines large grain TMR with special voters capable of signalizing the faulty module and check point states that allow the sequential synchronization of the recovered module with the Xilinx TMR (XTMR) approach. As a result, only the faulty domain is reconfigured, minimizing time and energy spent in the process. In addition, the use of checkpoint states avoids system downtime, since the synchronization of the recovered module is performed while the others are kept running. Experimental results show that the method has a reduced fault recovery time compared to the standard TMR implementation, maintaining the compatible area overhead and performance.
Keywords
SRAM chips; checkpointing; fault tolerance; field programmable gate arrays; finite state machines; reconfigurable architectures; synchronisation; SRAM-based FPGAs; Xilinx TMR approach; check point states; fault-tolerant designs; faulty module; finite state machines; large grain TMR; selective partial reconfiguration; sequential synchronization; soft error mitigation; triple modular redundancy; Circuit faults; Electronics industry; Field programmable gate arrays; Frequency synchronization; Helium; Integrated circuit reliability; Protection; Redundancy; Routing; Voltage;
fLanguage
English
Publisher
ieee
Conference_Titel
On-Line Testing Symposium, 2009. IOLTS 2009. 15th IEEE International
Conference_Location
Sesimbra, Lisbon
Print_ISBN
978-1-4244-4596-7
Electronic_ISBN
978-1-4244-4595-0
Type
conf
DOI
10.1109/IOLTS.2009.5195990
Filename
5195990
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