Performance Evaluation of ANU block cipher on 8-bit AVR for IoT node security

Recent advancement in IoT with next generation wireless systems produces a data security challenge due to bulky encryption standards which are not capable to provide efficient hardware performance on tiny and low-end IoT devices. Numerous lightweight ciphers are proposed to address data security in...

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Bibliographic Details
Main Authors: Sutar, Swapnil, Mekala, Priyanka
Format: Conference Proceeding
Language:English
Subjects:
ANU
AVR ATmega32
Ciphers
cycle
Data security
Hardware
Internet-of-Things (IoT)
lightweight cipher
Performance evaluation
PRESENT
RAM
Random access memory
ROM
Simulation
Telecommunications
Wireless communication
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Summary:Recent advancement in IoT with next generation wireless systems produces a data security challenge due to bulky encryption standards which are not capable to provide efficient hardware performance on tiny and low-end IoT devices. Numerous lightweight ciphers are proposed to address data security in constrained IoT environment. It is essential to evaluate the hardware performance of these designed ciphers which are proved their robustness against various cryptanalysis technique. This paper implements and analyses the new block cipher ANU on tiny and low-end device with the aim of secured IoT node development. Additionally, we implement popular block cipher PRESENT which was designed with consideration of constrained IoT applications such as Radio Frequency Identification (RFID). Finally, we compare our achieved results of ANU with PRESENT for performance metrics including flash memory, code size, machine cycle and execution time. Both designs are evaluated and analysed on 8-bit \mu -controller (AVR ATmega32) simulation platform.
ISSN:2153-1684
DOI:10.1109/ANTS52808.2021.9936950