2024, Vol. 5, Issue 1, Part A
Enhanced concurrent architectures for RSA cryptosystems with Multi-RNS support
Author(s): Marlis Diel and Roland Gerigk
Abstract: This paper introduces a ground breaking architecture for RSA cryptosystems, significantly enhanced by incorporating Multiple Residue Number Systems (Multi-RNS) to enable concurrent computational processes. The innovative use of Multi-RNS is pivotal in redefining the efficiency and speed of RSA cryptographic operations, addressing the critical demand for faster and more secure data encryption and decryption in the era of high-speed digital communications. By meticulously designing and implementing an RSA cryptosystem that leverages the parallel processing capabilities of Multi-RNS, this study demonstrates substantial improvements in encryption and decryption times, throughput, power efficiency, and latency when compared to traditional RSA implementations. The proposed architecture not only achieves a marked reduction in computational bottlenecks but also maintains the rigorous security standards required for cryptographic applications. Through a comprehensive performance evaluation, the paper quantitatively showcases the advantages of the proposed system, underlining its potential to revolutionize secure communications in various applications, from Internet of Things (IoT) devices to large-scale data centers. This study lays the groundwork for future research into scalable, energy-efficient, and high-performance cryptographic systems, paving the way for their adoption in next-generation secure communication networks.
Pages: 22-24 | Views: 477 | Downloads: 177
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How to cite this article:
Marlis Diel, Roland Gerigk. Enhanced concurrent architectures for RSA cryptosystems with Multi-RNS support. Int J Res Circuits Devices Syst 2024;5(1):22-24.
