Author:
Borisov Nikolay,Petrov Ivan,Tayduganov Andrey
Abstract
We develop a new approach for asymmetric LDPC-based information reconciliation in order to adapt to the current channel state and achieve better performance and scalability in practical resource-constrained QKD systems. The new scheme combines the advantages of LDPC codes, a priori error rate estimation, rate-adaptive and blind information reconciliation techniques. We compare the performance of several asymmetric and symmetric error correction schemes using a real industrial QKD setup. The proposed asymmetric algorithm achieves significantly higher throughput, providing a secret key rate that is close to the symmetric one in a wide range of error rates. Thus, our approach is found to be particularly efficient for applications with high key rates, limited classical channel capacity and asymmetric computational resource allocation.
Funder
Priority 2030 program at the National University of Science and Technology MISIS
Subject
General Physics and Astronomy
Reference38 articles.
1. Post-processing procedure for industrial quantum key distribution systems;Kiktenko;J. Phys. Conf. Ser.,2016
2. Mehic, M., Niemiec, M., Siljak, H., and Voznak, M. (2020). Reversible Computation: Extending Horizons of Computing, Springer.
3. Brassard, G., and Salvail, L. (1994). Advances in Cryptology—EUROCRYPT’93, Springer.
4. Elkouss, D., Martínez-Mateo, J., and Martín, V. (2010, January 24–27). Secure rate-adaptive reconciliation. Proceedings of the International Symposium on Information Theory and Its Applications, Kapolei, HI, USA.
5. Demystifying the Information Reconciliation Protocol Cascade;Pacher;Quantum Info. Comput.,2015
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