Seif Shawkat, G. Alkady, H. Amer, R. Daoud, I. Adly
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Extensible Fault Secure Sift-Out Technique for FPGA-based Applications
This paper describes a fault secure Restoring Organ (RO) for a fault-tolerant Sift-Out architecture with n identical modules. All n modules as well as the RO are implemented on a SRAM-based FPGA. Whether a module is affected by a temporary (Single Event Upset) or a permanent fault, it is proven that the RO can detect and recover from this fault. Furthermore, the RO is fault secure; when it is itself affected by a temporary or a permanent fault, its output indicates that it is erroneous to prevent the propagation of incorrect data. Finally, the RO is extensible; it is shown how it can accommodate n modules for n≥4. The design is successfully synthesized and implemented on a Xilinx XC7VX485TFFG1157-1 device.
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