Quasi-chaotic generators are used for producing a pseudorandom behaviour that can be used for encryption/decryption and secure communications, introducing an implementation of them based on quantum technology. Namely, the authors propose a quasi-chaotic generator based on quantum modular addition and quantum modular multiplication and they prove that quantum computing allows the parallel processing of data, paving the way for a fast and robust multi-channel encryption/decryption scheme. The resulting structure is validated by means of several experiments, which assessed the performance with respect to the original VLSI solution and ascertained the desired noise-like behaviour.
Modular quantum circuits for secure communication / Ceschini, A.; Rosato, A.; Panella, M.. - In: IET QUANTUM COMMUNICATION. - ISSN 2632-8925. - 4:4(2023), pp. 208-217. [10.1049/qtc2.12065]
Modular quantum circuits for secure communication
Ceschini A.;Rosato A.;Panella M.
2023
Abstract
Quasi-chaotic generators are used for producing a pseudorandom behaviour that can be used for encryption/decryption and secure communications, introducing an implementation of them based on quantum technology. Namely, the authors propose a quasi-chaotic generator based on quantum modular addition and quantum modular multiplication and they prove that quantum computing allows the parallel processing of data, paving the way for a fast and robust multi-channel encryption/decryption scheme. The resulting structure is validated by means of several experiments, which assessed the performance with respect to the original VLSI solution and ascertained the desired noise-like behaviour.| File | Dimensione | Formato | |
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