%A Duy Hieu Bui
%A Diego Puschini
%A Simone Bacles-Min
%A Edith Beigne
%A Xuan Tu Tran
%T Ultra Low-Power and Low-Energy 32-bit Datapath AES Architecture for IoT Applications
%X In this paper, we propose a novel AES microarchitecture with 32-bit datapath optimized for low-power and low-energy consumption targeting IoT applications. The proposed design uses simple shift registers for key/data storage and permutation to minimize the area, and the power/energy consumption. These shift registers also minimize the control logics in the key expansion and the encryption path. The proposed architecture is further optimized for area and/or power/energy consumption by selecting a suitable implementation of S-boxes and applying the clock gating technique. The implementation results in TSMC 65nm technology show that our design can save 20% of area or 20% of energy per bit at the same area when compared with the current 32-bit datapath designs. Our design also occupies smaller core area with lower energy per bit and at least 4 times higher in throughput in comparison with other 8-bit designs in the same technology node.
%C Ho Chi Minh city, Vietnam
%D 2016
%L SisLab1511