Due to its potential to greatly accelerate a wide variety of applications, reconfigurable computing has gained importance in the industrial development of digital signal processing systems. This chapter discusses how the specificities of Field Programmable Gate Arrays (FPGAs) can be exploited for the secure and efficient implementation of symmetric cryptographic algorithms and protocols
Securing data in the evermore networked world of today, is a profound necessity that is embraced by ...
NESSIE is a 3-year research project (2000-2002). The goal of the project is to put forward some algo...
This paper describes the synthesis of dynamic differential logic to increase the resistance of FPGAs...
The use of FPGAs for cryptographic applications is highly attractive for a variety of reasons but a...
Abstract. The use of FPGAs for cryptographic applications is highly attractive for a variety of reas...
International audienceIn data security systems, general purpose processors (GPPs) are often extended...
Communication Security Group (COSY)- Ruhr-Universität Bochum In the last decade, it has become apar...
Abstract. Although SRAM programmed Field Programmable Gate Arrays (FPGA's) have come to dominat...
In this paper we discuss hardware implementations of the two best ciphers in the AES contest – the w...
Field Programmable Gate Arrays (FPGAs) are reconfigurable devices which have emerged as an interesti...
The job of cryptographers is quite crucial as they are responsible to keep privacy of personal infor...
Abstract. The technical analysis used in determining which of the NESSIE candidates will be selected...
Abstract—This paper uses advanced encryption standard (AES) to implement encryption algorithm and FP...
The technical analysis used in determining which of the NESSIE candidates will be selected as a stan...
Information security systems must provide high levels of correctness, and reliability. The presented...
Securing data in the evermore networked world of today, is a profound necessity that is embraced by ...
NESSIE is a 3-year research project (2000-2002). The goal of the project is to put forward some algo...
This paper describes the synthesis of dynamic differential logic to increase the resistance of FPGAs...
The use of FPGAs for cryptographic applications is highly attractive for a variety of reasons but a...
Abstract. The use of FPGAs for cryptographic applications is highly attractive for a variety of reas...
International audienceIn data security systems, general purpose processors (GPPs) are often extended...
Communication Security Group (COSY)- Ruhr-Universität Bochum In the last decade, it has become apar...
Abstract. Although SRAM programmed Field Programmable Gate Arrays (FPGA's) have come to dominat...
In this paper we discuss hardware implementations of the two best ciphers in the AES contest – the w...
Field Programmable Gate Arrays (FPGAs) are reconfigurable devices which have emerged as an interesti...
The job of cryptographers is quite crucial as they are responsible to keep privacy of personal infor...
Abstract. The technical analysis used in determining which of the NESSIE candidates will be selected...
Abstract—This paper uses advanced encryption standard (AES) to implement encryption algorithm and FP...
The technical analysis used in determining which of the NESSIE candidates will be selected as a stan...
Information security systems must provide high levels of correctness, and reliability. The presented...
Securing data in the evermore networked world of today, is a profound necessity that is embraced by ...
NESSIE is a 3-year research project (2000-2002). The goal of the project is to put forward some algo...
This paper describes the synthesis of dynamic differential logic to increase the resistance of FPGAs...