Design of ultra-low power AES encryption cores with silicon demonstration in SOTB CMOS process

The design of ultra-low power advanced encryption standard (AES) encryption cores for emerging wireless networks and Internet of things systems by combining optimised architectures, a simple clock gating technique and an advanced 65 nm silicon on thin buried oxide (SOTB) CMOS process is presented. The implementation results show that the proposed 2-Sbox AES encryption core requires the smallest number of clock cycles and achieves the lowest power consumption of 0.4 µW/MHz which is 3.3× lower than that of the best previous presented AES encryption core, with a very small area overhead. Moreover, the proposed 1-Sbox AES encryption core consumes very low hardware resources of 2.4 kgates gate equivalent. © The Institution of Engineering and Technology 2017.