以太网时钟同步的非对称时延补偿

Natasa Simanic, R. Exel, P. Loschmidt, Thomas Bigler, N. Kero
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引用次数: 13

摘要

时钟同步已成为大多数分布式系统中不可或缺的服务,因为它允许在公共时间尺度上对事件进行排序并协调协作操作。随着对更高同步精度的要求,必须解决新的挑战和障碍才能满足这些要求。其中之一,设备之间不可避免的信号传播时间,在许多最先进的同步协议中通过往返测量来补偿,忽略了通信链路的任何形式的延迟不对称。在本文中,我们分析了基于铜基以太网物理层的网络中不对称的影响,并比较了如何减轻不对称影响的不同方法。我们提出了一种非侵入性系统,在链路基础上执行不对称测量,并表明这种系统可以集成到现有的同步解决方案中。
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Compensation of asymmetrical latency for ethernet clock synchronization
Clock synchronization has become an indispensable service in most distributed systems as it allows to sort events on a common time scale and coordinate collaborative actions.With the demand for even higher synchronization accuracy, new challenges and barriers have to be tackled to fulfill these requirements. One of them, the inevitable signal propagation time between the devices, is compensated in many state-of-the-art synchronization protocols by round-trip measurements, neglecting any form of delay asymmetry of the communication link. In this paper, we analyze the impact of asymmetry in networks based on the physical layer of copper-based Ethernet and compare different approaches on how to mitigate the impact of asymmetry. We propose a non-invasive system performing asymmetry measurements on a link basis and show that such a system can integrate into existing synchronization solutions.
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