This article presents an architecture that encrypts data with the AES algorithm. This architecture can be implemented on the Xilinx Virtex II FPGA family, by applying pipelining and dynamic total reconfiguration (DTR). The originality of our implementation is that it computes sequentially in the FPGA the Key and Cipher part of the AES algorithm. This dynamic reconfiguration implementation allows a good optimization of logic resources with a high throughput. This architecture employs only 11619 slices allowing a considerable economy of the resources and reaching a maximum throughput of 44 Gbps
AbstractOver the past few years, cryptographic algorithms have become increasingly important. Advanc...
n October 2000 the National Institute of Standards and Technology chose Rijndael algorithm as the ne...
We consider the AES encryption/decryption algorithm and propose a memory based hardware design to su...
Nowadays, the security of data is playing an increasingly important role in the data transfer. The e...
Abstract: The Advanced Encryption Standard (AES) is a specification for the encryption of electronic...
This work reports Partial Reconfiguration (PR) by which selected areas of an FPGA can be reconfigure...
Now a day digital information is very easy to process, but it allows unauthorized users to access th...
ABSTRACT The Advanced Encryption Standard (AES) is a specification for the encryption of electronic ...
We propose an efficient hardware architecture design & implementation of Advanced Encryption Standar...
Performance evaluation of the Advanced Encryption Standard candidates has led to intensive study of ...
This paper describes an efficient hardware realization of the Advanced Encryption Standard (AES) alg...
An AES algorithm is implemented on FPGA platform to improve the safety of data in transmission. AES ...
This paper presents an efficient hardware realization of Rijndael Advanced Encryption Standard (AES)...
FPGA implementation of Advanced Encryption Algorithm for 128 bits is presented in this paper for hig...
International audienceOver the past few years, cryptographic algorithms have become increasingly imp...
AbstractOver the past few years, cryptographic algorithms have become increasingly important. Advanc...
n October 2000 the National Institute of Standards and Technology chose Rijndael algorithm as the ne...
We consider the AES encryption/decryption algorithm and propose a memory based hardware design to su...
Nowadays, the security of data is playing an increasingly important role in the data transfer. The e...
Abstract: The Advanced Encryption Standard (AES) is a specification for the encryption of electronic...
This work reports Partial Reconfiguration (PR) by which selected areas of an FPGA can be reconfigure...
Now a day digital information is very easy to process, but it allows unauthorized users to access th...
ABSTRACT The Advanced Encryption Standard (AES) is a specification for the encryption of electronic ...
We propose an efficient hardware architecture design & implementation of Advanced Encryption Standar...
Performance evaluation of the Advanced Encryption Standard candidates has led to intensive study of ...
This paper describes an efficient hardware realization of the Advanced Encryption Standard (AES) alg...
An AES algorithm is implemented on FPGA platform to improve the safety of data in transmission. AES ...
This paper presents an efficient hardware realization of Rijndael Advanced Encryption Standard (AES)...
FPGA implementation of Advanced Encryption Algorithm for 128 bits is presented in this paper for hig...
International audienceOver the past few years, cryptographic algorithms have become increasingly imp...
AbstractOver the past few years, cryptographic algorithms have become increasingly important. Advanc...
n October 2000 the National Institute of Standards and Technology chose Rijndael algorithm as the ne...
We consider the AES encryption/decryption algorithm and propose a memory based hardware design to su...