Title :
Hardware Realization of the AES Algorithm S-Block Functions in the Current-Mode Gate Technology
Author :
Maslennikow, Oleg ; Rajewska, Magdalena ; Berezowski, Robert
Author_Institution :
Dept. of Electron., Tech. Univ. of Koszalin, Koszalin
Abstract :
In this paper, the new approach to minimization of logic functions in the current-mode gate algebra is proposed. The main purpose is reduction of the current-mode circuit hardware overhead in such a way, that chip area needed for realization of the current-mode circuits will not greater than the chip area needed for realization of similar circuits with the classical CMOS. The approach is based on the analysis of the given truth table of the target function for searching the fragments, which correspond to selected types of sub-functions, which are hardly minimized in the Boolean algebra, but are simpler minimized in the current-mode gate algebra. The correctness and efficiency of the proposed approach are proved during design of the current- mode circuits destined for realization of several functions of the S-blocks in the AES cryptographic algorithm.
Keywords :
Boolean algebra; CMOS digital integrated circuits; cryptography; current-mode circuits; current-mode logic; integrated circuit design; logic design; logic gates; AES cryptographic algorithm; Boolean algebra; S-block functions; classical CMOS; current- mode circuits design; current-mode circuit hardware; current-mode gate algebra; hardware realization; logic function minimization; truth tables; Algebra; Circuit noise; Cryptography; Current mode circuits; Hardware; Inverters; Logic functions; Minimization methods; Noise level; Voltage; AES cryptographic algorithm; Current-mode gate; Logic function; Minimization method; Switching noise;
Conference_Titel :
CAD Systems in Microelectronics, 2007. CADSM '07. 9th International Conference - The Experience of Designing and Applications of
Conference_Location :
Lviv-Polyana
Print_ISBN :
966-533-587-0
DOI :
10.1109/CADSM.2007.4297528
