量子电子学报2025,Vol.42Issue(3):354-360,7.DOI:10.3969/j.issn.1007-5461.2025.03.007
基于极化码的低复杂度星地量子密钥分发实验密钥纠错方法
Key error correction method with low complexity for satellite-to-ground quantum key distribution experiment based on polar codes
摘要
Abstract
Error correction is crucial for satellite-to-ground quantum key distribution(QKD).Among many error correction algorithms,polar codes have higher coding efficiency and error correction speed.In the satellite-to-ground QKD system based on polar codes,not only satellites face the problems such as volume,quality and power consumption,but also ground stations is constantly pursuing the integration of equipment.Therefore,in order to realize low-cost satellite-to-ground QKD equipment,a field programmable gate array(FPGA)based on successive cancellation(SC)decoder with low hardware complexity is proposed.The anaylsis shows that the decoder can achieve a throughput of 29.7 Mbit/s when the code length N is 1024,and the consumption numbers of the hardware resource indicator lookup table(LUT)and flip-flops(FF)are 5.7%and 10%of that of the linear structure decoder,respectively.Further satellite-to-ground QKD data reconciliation simulation experiments show that under the conditions of typical system parameters,when the code length is 64 K,the security rate of the decoder can reach 27.9 kbit/s.关键词
量子光学/低硬件复杂度/现场可编程门阵列/极化码/误码纠错/成码率Key words
quantum optics/low hardware complexity/field-programmable gate array/polar codes/data reconciliation/bit rate分类
电子信息工程引用本文复制引用
尹子欣,刘尉悦..基于极化码的低复杂度星地量子密钥分发实验密钥纠错方法[J].量子电子学报,2025,42(3):354-360,7.基金项目
浙江省自然科学基金(LY21F050003) (LY21F050003)
