In this paper we present a comprehensive comparison of all Round 3 SHA-3 candidates and the current standard SHA-2 from the point of view of hardware performance in modern FPGAs. Each algorithm is implemented using multiple architectures based on the concepts of iteration, folding, unrolling, pipelining, and circuit replication. Trade-offs between speed and area are investigated, and the best architecture from the point of view of the throughput to area ratio is identified. Finally, all algorithms are ranked based on their overall performance in FPGAs. The characteristic features of each algorithm important from the point of view of its implementation in hardware are identified
In this study, novel pipelined architectures, optimised in terms of throughput and throughput/area f...
Hashing functions play a fundamental role in modern cryptography. Such functions process data of fin...
Abstract—The SHA-3 competition organized by NIST has triggered significant efforts in performance ev...
Abstract. In this paper we present a comprehensive comparison of all Round 3 SHA-3 candidates and th...
Abstract. In this paper we present a comprehensive comparison of all Round 3 SHA-3 candidates and th...
Abstract. In this paper, we extend our evaluation of the hardware performance of 14 Round 2 SHA-3 ca...
Allowing good performances on different platforms is an important criteria for the selection of the ...
.Efficient and high-throughput designs of hash functions will be in great demand in the next few yea...
The first contribution of our paper is that we propose a platform, a design strategy, and evaluation...
The NIST competition for developing the new cryptographic hash algorithm SHA-3 has entered its third...
The NIST run SHA-3 competition is nearing completion. Currently in its final round, the five remaini...
Abstract. Performance in hardware has been demonstrated to be an important factor in the evaluation ...
In November 2007 NIST announced that it would organize the SHA-3 competition to select a new cryptog...
Secure Hash Algorithm-3 (SHA-3) is the most recent and efficient cryptography hash functions widely ...
Recent cryptanalysis on SHA-1 family has led the NIST to call for a public competition named SHA-3 C...
In this study, novel pipelined architectures, optimised in terms of throughput and throughput/area f...
Hashing functions play a fundamental role in modern cryptography. Such functions process data of fin...
Abstract—The SHA-3 competition organized by NIST has triggered significant efforts in performance ev...
Abstract. In this paper we present a comprehensive comparison of all Round 3 SHA-3 candidates and th...
Abstract. In this paper we present a comprehensive comparison of all Round 3 SHA-3 candidates and th...
Abstract. In this paper, we extend our evaluation of the hardware performance of 14 Round 2 SHA-3 ca...
Allowing good performances on different platforms is an important criteria for the selection of the ...
.Efficient and high-throughput designs of hash functions will be in great demand in the next few yea...
The first contribution of our paper is that we propose a platform, a design strategy, and evaluation...
The NIST competition for developing the new cryptographic hash algorithm SHA-3 has entered its third...
The NIST run SHA-3 competition is nearing completion. Currently in its final round, the five remaini...
Abstract. Performance in hardware has been demonstrated to be an important factor in the evaluation ...
In November 2007 NIST announced that it would organize the SHA-3 competition to select a new cryptog...
Secure Hash Algorithm-3 (SHA-3) is the most recent and efficient cryptography hash functions widely ...
Recent cryptanalysis on SHA-1 family has led the NIST to call for a public competition named SHA-3 C...
In this study, novel pipelined architectures, optimised in terms of throughput and throughput/area f...
Hashing functions play a fundamental role in modern cryptography. Such functions process data of fin...
Abstract—The SHA-3 competition organized by NIST has triggered significant efforts in performance ev...