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引用次数: 25
摘要
IEEE 1588 Version 2的各个方面,特别是对单播和更快同步速率的规定,当与硬件时间戳和精确定时参考(如GPS)相结合时,为在实验室和现场生产网络中研究数据包延迟和数据包延迟变化提供了强大的工具。电信网络中的许多设备,如路由器、多层交换机和DSL接入多路复用器,以及复杂的网络,都不适合专门使用原始IEEE 1588定义的多播进行研究。此外,对分组延迟变化的时间特性的研究得益于IEEE 1588v2中可用的增加的同步速率。本文介绍了在世界各地的实验室网络和生产网络中进行的测量结果和分析。研究了从局域网(LANs)到广域网(wan)的各种类型的网络。
Precision Packet Delay Measurements Using IEEE 1588v2
Aspects of IEEE 1588 Version 2, in particular the provisions for unicast and for faster sync rates, when combined with hardware timestamping and a precision timing reference such as GPS, provide a powerful tool for studying packet latency and packet delay variation, both in the laboratory and in live production networks. Many devices found in telecom networks such as routers, multilayer switches, and DSL access multiplexers, as well as complex networks, do not lend themselves to study using exclusively the multicast of the original IEEE 1588 definition. Further, investigation of the temporal characteristics of packet delay variation benefits from the increased sync rates available in IEEE 1588v2. This paper presents results and analysis of measurements taken in laboratory networks and production networks in various locations throughout the world. Networks of various types ranging from Local Area Networks (LANs) to Wide Area Networks (WANs) are studied.
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