Title :
Efficient integrated AES crypto-processor architecture for 8-bit stream cipher
Author :
Ahmad, Nafees ; Rezaul Hasan, S.M.
Author_Institution :
Center for Res. in Analog & VLSI Microsyst. Design, Massey Univ., Auckland, New Zealand
Abstract :
Adoption of the Advanced Encryption Standard (AES) as a symmetric encryption algorithm for numerous applications requires a low cost and low power design. Presented is a new 8-bit stream cipher architecture core for an application specific integrated circuit AES crypto-processor. The chip area and power are optimised along with high throughput. It is implemented in a 130nm CMOS process and supports both encryption and decryption using 128-bit keys with a throughput of 0.05 Gbit/s (at 100 MHz clock). This design utilises 3152 gate equivalents including an on-the-fly key scheduling unit along with 4.23 W/MHz power consumption. Compared to other 8-bit implementations, the proposed design achieves a smaller chip size along with higher throughput and lower power dissipation.
Keywords :
CMOS integrated circuits; application specific integrated circuits; circuit optimisation; cryptography; logic gates; microprocessor chips; scheduling; Advanced Encryption Standard; CMOS; application specific integrated circuit; chip area optimisation; chip power optimisation; decryption; integrated AES crypto-processor architecture; low cost design; low power design; lower power dissipation; on-the-fly key scheduling unit; size 130 nm; stream cipher architecture core; symmetric encryption algorithm; word length 128 bit; word length 8 bit;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2012.2932
