A Crypto Accelerator of Binary Edward Curves for Securing Low-Resource Embedded Devices.
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Sajid, Asher
Sonbul, Omar S.
Rashid, Muhammad
Raza Jafri, Atif
Arif, Muhammad
Zia, Muhammad Yousuf Irfan
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MDPI
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Abstract
This research presents a novel binary Edwards curve (BEC) accelerator designed specifically
for resource-constrained embedded systems. The proposed accelerator incorporates the fixed window
algorithm, a two-stage pipelined architecture, and the Montgomery radix-4 multiplier. As a result,
it achieves remarkable performance improvements in throughput and resource utilization. Experimental
results, conducted on various Xilinx Field Programmable Gate Arrays (FPGAs), demonstrate
impressive throughput/area ratios observed for GF(2233). The achieved ratios for Virtex-4, Virtex-5,
Virtex-6, and Virtex-7 are 12.2, 19.07, 36.01, and 38.39, respectively. Furthermore, the processing
time for one-point multiplication on a Virtex-7 platform is 15.87 μs. These findings highlight the
effectiveness of the proposed accelerator for improved throughput and optimal resource utilization
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Sajid, A., Sonbul, O. S., Rashid, M., Jafri, A. R., Arif, M., & Zia, M. y. I. (2023). A Crypto Accelerator of Binary Edward Curves for Securing Low-Resource Embedded Devices. Applied Sciences, 13(15), 8633. https://doi.org/10.3390/app13158633
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Except where otherwised noted, this item's license is described as Atribución 4.0 Internacional