High speed authenticated encryption for slow changing key applications using reconfigurable devices

Author

Abdellatif, Karim M. ; Chotin-Avot, Roselyne ; Mehrez, H.

Author_Institution

LIP6-SoC Lab., Univ. of Paris VI, Paris, France

fYear

2013

fDate

13-15 Nov. 2013

Firstpage

1

Lastpage

6

Abstract

Since its acceptance as the adopted authenticated encryption algorithm, AES-GCM has been utilized in various security-constrained applications. This paper describes the benefits of adding key-synthesized property to AES-GCM using FPGAs. Presented architectures can be used for applications which require encryption and authentication with slow changing keys like Virtual Private Networks (VPNs). Three methods are selected to implement the SubBytes of AES to increase the flexibility of the presented work. Furthermore, we propose a protocol to protect the bitstream of the proposed architectures. Our architectures were evaluated using Virtex5 and Virtex4 FPGAs. It is shown that the performance of the presented AES-GCM architectures outperforms the previously reported ones.

Keywords

cryptographic protocols; field programmable gate arrays; virtual private networks; AES-GCM architectures; FPGA; Galois counter mode; SubBytes implementation; VPN; Virtex4 FPGA; Virtex5 FPGA; high speed authenticated encryption algorithm; key-synthesized property; reconfigurable devices; security-constrained applications; slow changing key applications; virtual private networks; Encryption; Field programmable gate arrays; Hardware; Servers; Table lookup; Virtual private networks; AES-GCM; FPGAs; VPNs;

fLanguage

English

Publisher

ieee

Conference_Titel

Wireless Days (WD), 2013 IFIP

Conference_Location

Valencia

ISSN

2156-9711

Type

conf

DOI

10.1109/WD.2013.6686460

Filename

6686460