Abstract
Advanced Encryption Standard (AES), is an
advancement of Federal Information Processing Standard
(FIPS) which is an initiated Process Standard of NIST. The
AES specifies the Rijndael algorithm, in which a symmetric
block cipher that processes fixed 128 bit data blocks using
cipher keys with different lengths of 128, 192 and 256 bits.
The earliest Rijndael algorithm had the advantage of
combining both data block sizes of 128, 192 and 256 bits with
any key lengths. AES can be programmed in pure hardware
Verilog HDL, Which includes Multiplexer to enhance more
secure to Cipher text. The results indicate that the hardware
implementation proposed in this project is Decrementing
Utilization of resource and power consumption of 113 mW
than other implementation. Using FPGA lead to reliability on
source modulations. This project presents the AES algorithm
with regard to FPGA and Verilog HDL. The software used for
Simulation is ModelSim-Altera 6.3g_p1 (Quartus II 8.1).
Synthesis and implementation of the code is carried out on
Xilinx ISE 13.4 (XC6VCX240T) device is used for hardware
evaluation.
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