Dual-Edge Triggered Lightweight Implementation of AES for IoT Security

Abstract

Internet of Things (IoT) is now a growing part of our life. More than 10 billion devices are already connected, and more are expected to be deployed in the next coming years. To provide a practical solution for security, privacy and trust is the main concern for deploying IoT in such a large scale. For security and privacy in IoT, cryptography is the required solutions. AES algorithm is a well known, highly secure and symmetric key algorithm, but the area and power budget of AES makes it unsuitable for IoT Security. In this paper, we have presented a lightweight implementation of AES, with dual-edge triggered S-box. The proposed architecture has been implemented on FPGA as well as in ASIC on 180 nm technology. The proposed architecture uses a 32-bit data path to encrypt 128-bit plain-text with 128-bit cipher-key. ASIC implementation of the proposed architecture results in low-power (122.7 µW at 1 V) consumption with a reduction in the hardware overhead by 30% and a throughput of 23 Mbps at 10 MHz clock frequency. © 2019, Springer Nature Singapore Pte Ltd.