Abstract
Securing data transfer is a primary need for all embedded systems. The AES-ECC hybrid cryptosystem combines advantages of the Advanced Encryption Standard (AES) to accelerate data encryption and the Elliptic Curve Cryptography (ECC) to secure the exchange of symmetric session key. In this paper, we present an improved AES-ECC system using a co-design approach where AES runs on NIOS II softcore and ECC's scalar multiplication is implemented as a hardware accelerator. The proposed system relies on optimizations of both AES (MixColumn/InvMiColumn operation) and ECC (Point Addition/Doubling layer). The implementation on a Cyclone IV FPGA uses 11% of total logic elements, 9% of total combinatorial functions and 7% of total memory. It runs at a frequency of 157.63 MHz and consumes 166.67 mW. A comparison with similar works shows that the proposed system provides an interesting trade-off between speed and area occupation.
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