Quantum-enhanced algorithms for real-time processing in cryptographic systems: A path towards post-quantum security
1 Independent Researcher, Bucharest, Romania.
2 Independent Researcher, Bucharest, Romania.
3 Independent Researcher, Bucharest, Romania.
Research Article
World Journal of Advanced Engineering Technology and Sciences, 2024, 13(02), 193-204.
Article DOI: 10.30574/wjaets.2024.13.2.0561
Publication history:
Received on 07 October 2024; revised on 12 November 2024; accepted on 15 November 2024
Abstract:
New technologies such as quantum computing present a major challenge to the current cryptographic systems; thus, quantum-resistant techniques are required. This work describes a new approach for adapting QE schemes to real-life IT security applications, giving a glimpse of the way to post-quantum security. Hence, the architecture proposed here incorporates classical and quantum methods to present a vast enhancement in speed and the stability of security. The system seeks to solve this problem using a hybrid quantum-classical computing strategy. It achieves a 470 percent performance improvement in latency while withstanding both classical and post-quantum attacks concurrently. Field experiments and numerous tests for the accuracy and practicability of the framework established its elasticity and robustness. This research suggests many directions for further research – improving the efficiency of merging quantum-classical users, studying the adaptive quantum algorithms issue, and employing machine learning technology for the identification of threats. The applicability of quantum-enhanced cryptographic processing in producing practical and commercially viable technology highlights the significant advances that have been made in guaranteeing the security of sensitive applications in the coming years, including commerce and appeals. The findings of this type of work can be helpful to the continuous process of establishing post-quantum cryptographic standards and increasing the use of quantum-safe technologies.
Keywords:
Quantum computing; Cryptography; Post-quantum security; Real-time processing; Hybrid quantum-classical architecture
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Copyright © 2024 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0