This paper describes a compact 32-bit architecture developed for the Rijndael ciphering/decyphering system. The implementation is complied with NIST Advanced Encryption Standard (AES). The design processes any 128-bit block data with 128-bit key. For the compact hardware, the field inversion circuit and the key scheduling circuits are shared by both the encryption and decryption process. The on-the-fly KeyScheduling implementation offers fast processing speed but with core size trade-off. According to the evaluation made on the targeted FPGA, the design can offer the throughput of 768 mbps at 264 MH
The increasing application of cryptographic algorithms to ensure secure communications across virtua...
This paper presents a combined architecture of Advanced Encryption Standard-128 encryption and decry...
This thesis study presents a high speed VLSI implementation of the Rijndael Encryption Algorithm, wh...
This paper describes a compact 32-bit architecture developed for the Rijndael ciphering/decyphering ...
A public domain encryption standard is subject to continuous, vigilant, expert cryptanalysis. AES is...
Abstract AES has been used in many applications to provide the data confidentiality. A new 32-bit re...
as Rijndael, is a block cipher algorithm that has been analyzed extensively and is now used widely. ...
Hardware implementations of the Advanced Encryption Standard (AES) Rijndael algorithm have recently ...
This paper describes an efficient hardware realization of the Advanced Encryption Standard (AES) alg...
Abstract. In this paper a compact FPGA architecture for the AES algorithm with 128-bit key targeted ...
Hardware implementations of the Advanced Encryption Standard (AES) Rijndael algorithm have recently ...
This work presents a soft IP description of Rijndael, the Advanced Encryption Standard (AES) of Nati...
[[abstract]]Advance Encryption Standard (AES) hardware implementation in FPGA as well as in ASIC has...
This paper presents architecture of the Advanced Encryption Standard (AES-Rijndael) cryptosystem. Th...
n October 2000 the National Institute of Standards and Technology chose Rijndael algorithm as the ne...
The increasing application of cryptographic algorithms to ensure secure communications across virtua...
This paper presents a combined architecture of Advanced Encryption Standard-128 encryption and decry...
This thesis study presents a high speed VLSI implementation of the Rijndael Encryption Algorithm, wh...
This paper describes a compact 32-bit architecture developed for the Rijndael ciphering/decyphering ...
A public domain encryption standard is subject to continuous, vigilant, expert cryptanalysis. AES is...
Abstract AES has been used in many applications to provide the data confidentiality. A new 32-bit re...
as Rijndael, is a block cipher algorithm that has been analyzed extensively and is now used widely. ...
Hardware implementations of the Advanced Encryption Standard (AES) Rijndael algorithm have recently ...
This paper describes an efficient hardware realization of the Advanced Encryption Standard (AES) alg...
Abstract. In this paper a compact FPGA architecture for the AES algorithm with 128-bit key targeted ...
Hardware implementations of the Advanced Encryption Standard (AES) Rijndael algorithm have recently ...
This work presents a soft IP description of Rijndael, the Advanced Encryption Standard (AES) of Nati...
[[abstract]]Advance Encryption Standard (AES) hardware implementation in FPGA as well as in ASIC has...
This paper presents architecture of the Advanced Encryption Standard (AES-Rijndael) cryptosystem. Th...
n October 2000 the National Institute of Standards and Technology chose Rijndael algorithm as the ne...
The increasing application of cryptographic algorithms to ensure secure communications across virtua...
This paper presents a combined architecture of Advanced Encryption Standard-128 encryption and decry...
This thesis study presents a high speed VLSI implementation of the Rijndael Encryption Algorithm, wh...