量子电子学报

• 量子光学 • 上一篇    下一篇

基于Toeplitz矩阵的高速QKD系统认证方案研究

周雷, 程节, 唐世彪*   

  1. 科大国盾量子技术股份有限公司,安徽 合肥 230088
  • 出版日期:2019-05-28 发布日期:2019-05-14
  • 作者简介:周雷(1981-)男,吉林长春市,博士,主要从事量子保密通信系统设计研究。E-mail:lei.zhou@quantum-info.com
  • 基金资助:
    Supported by Anhui Province Science and Technology Major Project (安徽省科技重大专项, 200km远距离QKD核心技术攻关与关键器件研制项目, 合同编号:17030901013)

Research on authentication scheme based on Toeplitz matrix for high speed QKD system

ZHOU Lei, CHENG Jie, TANG Shi-Biao   

  1. QuantumCTek Co., Ltd., D3 Building, No. 800, Wangjiang Xi Road , Hefei, Anhui 230088, China
  • Published:2019-05-28 Online:2019-05-14

摘要: 量子密钥分发(QKD)技术是一种新型对称密钥分发技术,其经典信道上的交互数据要求采用安全的认证协议保护。目前高速QKD技术不断发展,对认证协议的处理带宽提出了更高的要求,本文就此详细梳理了QKD系统认证协议的设计需求,并设计实现了基于LFSR的Toeplitz矩阵高速QKD系统认证方案。该方案采用FPGA硬件平台实现,利用FPGA并行处理能力以及流水线数据处理方案,实现最高10 Gbps量级的数据处理带宽,能够为未来超高速QKD系统的研制提供帮助。

关键词: 量子信息, 认证, LFSR, Toeplitz矩阵, FPGA, 量子密钥分发

Abstract: Quantum key distribution (QKD) generates symmetric keys between two remote parties over an untrusted, authenticated public communication channel with information theoretic security. With the development of high-speed QKD technology to widen the applicable areas of the QKD technology, higher requirements for the data post-processing bandwidth of the authentication protocol are put forward. In this paper, the design requirements of QKD system authentication protocol are analyzed in detail at first, then a high-speed authentication scheme based on Toeplitz matrix using LFSR is proposed. This scheme is implemented on FPGA hardware platform using the parallel processing capability of FPGA and pipeline data processing scheme, simulation results show that this proposed scheme can achieve data post-processing bandwidth up to 10 Gbps, which is a promising candidate for ultra-high-speed QKD system implementation in the future.

Key words: Quantum Information, Authentication, LFSR, Toeplitz matrix, FPGA, Quantum key distribution;