A Code Rate-Compatible High-Throughput Hardware Implementation Scheme for QKD Information Reconciliation.
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| Název: | A Code Rate-Compatible High-Throughput Hardware Implementation Scheme for QKD Information Reconciliation. |
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| Autoři: | Zhu, Ming, Cui, Ke, Li, Simeng, Kong, Lei, Tang, Shibiao, Sun, Jian |
| Zdroj: | Journal of Lightwave Technology; 6/15/2022, Vol. 40 Issue 12, p3786-3793, 8p |
| Abstrakt: | For high-speed quantum key distribution (QKD) post processing, information reconciliation is the most computational step, which usually acts as the system speed bottleneck. Reconciliation efficiency and operation throughput are the two most important performance parameters, but they are often compromised to each other in actual realization due to the available hardware resources. Another characteristic of the information reconciliation is that its channel is time-varying, and in order to guarantee high efficiency, some rate-compatible error correction scheme should be adopted. To cope with the above problems, this paper proposes a rate-compatible high-efficiency reconciliation algorithm based on quasi-cyclic (QC) low-density parity-check (LDPC) codes and puncturing algorithms. On the other hand, in order to obtain high throughput while maintaining low implementation complexity, the normalized min-sum algorithm (NMSA) is realized and optimized by using the fast prototyping tool of high-level synthesis (HLS). The proposed information reconciliation module was implemented on the Xilinx Zynq Ultrascale+ ZCU102 development board. Experimental results show that the maximum throughput rate of the implemented reconciliation module in this paper can reach 136 Mbps, while the efficiency factor is kept lower than 1.32 across the error rate range of 1.7%∼10.6% under the remaining frame error rate level of 10−3. The comprehensive good performance obtained by our design can strongly support the development of modern high-speed QKD systems. [ABSTRACT FROM AUTHOR] |
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| Databáze: | Complementary Index |
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