Title :
An efficient BER-based reliability method for SRAM-based FPGA
Author :
Sahraoui, Fouad ; Ghaffari, Fakhreddine ; El Amine Benkhelifa, Mohamed ; Granado, Bertrand
Author_Institution :
ETIS, Cergy-Pontoise Univ., Cergy-Pontoise, France
Abstract :
Single Event Upset (SEU) is a major concern for SRAM-based FPGAs where a simple bit-flip can lead to an abnormal execution. We present in this paper, a new fault tolerance method based on hardware BER (Backward Error Recovery) to protect/correct system against the occurrence of transient faults. We use the partial dynamic reconfiguration offered by Xilinx Virtex-5 FPGAs to ensure hardware checkpoint and upon detection of fault we use recovery. Our method has several advantages: first it is non-intrusive (no internal modification of hardware modules of the system), second it is not based on redundant hardware resources (like most methods in the literature), and finally it has a static area overhead ratio when applied to a system. To validate our approach, we implemented it on a Xilinx platform based on a Partial Reconfigurable Region (PRR).
Keywords :
SRAM chips; fault tolerance; field programmable gate arrays; integrated circuit reliability; radiation hardening (electronics); PRR; SEU; SRAM-based FPGA; Xilinx Virtex-5 FPGA; Xilinx platform; backward error recovery; bit-flip; efficient BER-based reliability method; fault detection; fault tolerance method; hardware BER; hardware checkpoint; nonintrusive method; partial dynamic reconfiguration; partial reconfigurable region; single event upset; static area overhead ratio; system protection-correction; transient fault occurrence; Decision support systems; Checkpoint; Fault tolerance; Recovery; SRAM-based FPGAs; partial dynamic reconfiguration; readback;
Conference_Titel :
Design and Test Symposium (IDT), 2013 8th International
Conference_Location :
Marrakesh
DOI :
10.1109/IDT.2013.6727129
