Litcius/Paper detail

Design and Implementation of Advanced Encryption Standard Algorithm on 7th Series Field Programmable Gate Array

Poonam Jindal, Aryan Kaushik, Keshav Kumar

20202020 7th International Conference on Smart Structures and Systems (ICSSS)29 citationsDOI

Abstract

Transmission of data digitally is always susceptible to attacks. Analysis of cipher strength is a necessary part of the protection assessment of either corporate or academic institutions. So, a strong encryption method is required to secure data. Therefore, in 2001 United States National Institute of Standards and Technology i.e. (NIST) amended (AES) Advanced Encryption Standard, a specification for the encryption which was better than encoding Standard (DES). The AES Algorithm is purely based upon the design principle of substitution-permutation network and it is efficient in both software as well as hardware for encryption. The algorithm described is a symmetric-key algorithm, i.e. for encryption and decryption, a single identical secret key is used. It's absolved to use by public or private, commercial, etc. programs. So far, extensive research is being currently administered to spot techniques to further secure the AES algorithm. This research proposes the architecture as well as the execution of the AES i.e. Advanced Encryption Standard simulation, on two 7th series capital to investigate the comparison of cost and performance.

Topics & Concepts

EncryptionAdvanced Encryption StandardEncryption softwareComputer scienceAES implementations40-bit encryptionDisk encryption hardware56-bit encryptionAlgorithmNISTProbabilistic encryptionDisk encryption theoryMultiple encryptionDisk encryptionKey (lock)CryptographyEmbedded systemPublic-key cryptographyComputer securityAttribute-based encryptionNatural language processingCryptographic Implementations and SecurityChaos-based Image/Signal EncryptionCoding theory and cryptography