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WG-29 is a Welch-Gong (WG) stream cipher, implemented in GF (2^29) and an 11-stage LFSR, whose polynomial-basis (PB) -based architecture is utilized in diverse applications. This work, for the first time, presents low-cost normal signature, interleaved signature, and Hamming code-based error detection mechanisms for the hardware implementations of PB-based WG-29 stream cipher. The presented schemes are benchmarked on field-programmable gate array (FPGA) hardware platform using Kintex-7 and Spartan-7 FPGA families for area (, power (, and delay (overheads. Using a faulty module to inject stuck-at single bit and multiple bit upsets, the error coverage for these presented schemes is evaluated via simulations performed in Xilinx Vivado for 80 000 faults and shown to be over 99. 99%. The overhead and error simulation results for the presented schemes show that they provide high-error coverage with acceptable overheads to make hardware constructions of WG-29 more reliable. Other WG ciphers that have similar underlying primitives can also benefit from the presented work, with slight modifications, for secure hardware implementations.
Kaur et al. (Thu,) studied this question.
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