摘要
报道该课题组基于宽带混沌激光实现高速随机数产生的最新研究成果.利用外光注入反馈半导体激光器产生带宽为16.8 GHz的混沌激光作为物理熵源,经比较、触发实现对混沌信号1位模数转换,硬件产生速率达2.87 Gbit/s的随机数.实验研究了通过8位模数转换提取1 Gbit/s随机数的实现方案.为突破电子器件带宽限制,实现了与光通信网络信号直接兼容加密,提出并证实了基于宽带混沌激光实现速率高达10 Gbit/s的全光随机数产生方案.上述方案产生的随机数全部通过美国国家标准与技术研究院(NIST)及国际通用随机数检测程序(ENT)的测试.
The studies on high-speed random number generation based on wideband chaotic laser are reported in this paper.The 16.8 GHz wide bandwidth chaotic laser from an optical feedback laser diode with optical injection was employed as the physical entropy source.The chaotic signal was sampled and converted by a 1-bit analog-to-digital converter to a binary sequence with the rate of up to 2.87 Gbit/s in real time.The 1 Gbit/s random numbers generation with 8-bit analog-to-digital conversion based on wideband chaotic laser was investigated.Free from the electric-device bandwidth,a scheme of all-optical random number generator using wideband chaotic laser was proposed and demonstrated.The all-optical random numbers at the rate of 10 Gbit/s are compatible with the optical signal transmitted in optical communication networks.The above generated high-speed bit sequences can pass standard statistical tests for randomness.
出处
《深圳大学学报(理工版)》
EI
CAS
北大核心
2011年第4期316-324,共9页
Journal of Shenzhen University(Science and Engineering)
基金
国家自然科学基金资助项目(60927007)
山西省自然科学基金资助项目(2010021003-4)~~
关键词
混沌激光
随机数
模数转换
全光信号处理
半导体激光器
光通信
chaotic laser
random number
analog-to-digital conversion
all-optical signal processing
semiconductor laser
fiber communication
