NESSIE is a 3-year research project (2000-2002). The goal of the project is to put forward some algorithms to ob-tain a set of the next generation of cryptographic primitives. In order to achieve this objective, the project needs to evalu-ate mathematical security levels and software/hardware im-plementations. This paper investigates the significance of an FPGA implementation of the block cipher MISTY1. Re-programmable devices such as FPGA’s are highly attrac-tive solutions for hardware implementations of encryption algorithms. A strong focus is placed on a high through-put circuit which completely unrolls all the MISTY1 rounds and pipelines them in order to increase the data rate. Our design allows us to change the plaintext and the key on...
Reconfigurable computing is gaining rising attention as an alternative to traditional processing for...
Nowadays, the information security has achieved a great importance, both when information is sent th...
In this paper we present a Field Programmable Gate Array (FPGA) implementation of the Camellia encry...
NESSIE is a 3-year research project (2000-2002). The goal of the project is to put forward some algo...
The technical analysis used in determining which of the NESSIE candidates will be selected as a stan...
Abstract. The technical analysis used in determining which of the NESSIE candidates will be selected...
1 Abstract: In this paper, we present two alternative architectures and FPGA implementations of the ...
Reprogrammable devices such as Field Programmable Gate Arrays (FPGA’s) are highly attractive options...
This paper presents field programmable gate array (FPGA) implementations of ICEBERG, a block cipher ...
In this paper we discuss hardware implementations of the two best ciphers in the AES contest – the w...
The “PYRAMIDS" Block Cipher is a symmetric encryption algorithm of a 64, 128, 256-bit length, that a...
Cryptanalysis of block ciphers involves massive computations which are independent of each other and...
SEA is a scalable encryption algorithm targeted for small embedded applications. It was initially de...
The technical analysis used in determining which ofthe potential Advanced Encryption Standard candid...
Hardware implementations of cryptographic algorithms are ubiquitous in contemporary computer systems...
Reconfigurable computing is gaining rising attention as an alternative to traditional processing for...
Nowadays, the information security has achieved a great importance, both when information is sent th...
In this paper we present a Field Programmable Gate Array (FPGA) implementation of the Camellia encry...
NESSIE is a 3-year research project (2000-2002). The goal of the project is to put forward some algo...
The technical analysis used in determining which of the NESSIE candidates will be selected as a stan...
Abstract. The technical analysis used in determining which of the NESSIE candidates will be selected...
1 Abstract: In this paper, we present two alternative architectures and FPGA implementations of the ...
Reprogrammable devices such as Field Programmable Gate Arrays (FPGA’s) are highly attractive options...
This paper presents field programmable gate array (FPGA) implementations of ICEBERG, a block cipher ...
In this paper we discuss hardware implementations of the two best ciphers in the AES contest – the w...
The “PYRAMIDS" Block Cipher is a symmetric encryption algorithm of a 64, 128, 256-bit length, that a...
Cryptanalysis of block ciphers involves massive computations which are independent of each other and...
SEA is a scalable encryption algorithm targeted for small embedded applications. It was initially de...
The technical analysis used in determining which ofthe potential Advanced Encryption Standard candid...
Hardware implementations of cryptographic algorithms are ubiquitous in contemporary computer systems...
Reconfigurable computing is gaining rising attention as an alternative to traditional processing for...
Nowadays, the information security has achieved a great importance, both when information is sent th...
In this paper we present a Field Programmable Gate Array (FPGA) implementation of the Camellia encry...