Low area and high throughput implementation of advanced encryption standard hardware accelerator on FPGA using Mux‐Demux pair

Abstract

Now‐a‐days advanced cryptographic algorithms are needed in order to improve data security and confidentiality. One such algorithm used prominently is advanced encryption standard (AES) algorithm. AES is a complex algorithm with multiple rounds of processing data and occupies more space or area when implemented on hardware. Since each sub‐step of computation has a similar structure, the proposed method employs the novel idea of using the same hardware to implement the AES functionality. Hence the number of logical units occupied are leveraged. The proposed scheme, Mux‐Demux pair method (MDP), uses a mux‐demux structure. It is implemented on Virtex‐7 and ZynQ7000 FPGAs and the code is written in Verilog HDL language in the Vivado software. The proposed work when simulated on Virtex‐7 occupies an area of 1932 slices, giving an optimized throughput of 10.167 Gbps while the work simulated on ZynQ7000 occupies an area of 3253 slices, resulting in a throughput of 23.858 Gbps.