Highly Resilient Network Elements

2008 International Conference on Signal Processing, Communications and Networking Pub Date : 2008-02-07 DOI:10.1109/ICSCN.2008.4447200

Pathangi N, Janardhanan Gnana, Hari Sekar

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Abstract

Current network traffic comprises of operations-critical data from diverse applications like SAP, multimedia over IP, collaboration, and storage. Current network interface speeds are at multiple Gigabits per second. For networks operating at this speed, operation resiliency is very important Disturbances as little as a few seconds can cause significant packet drops, which can lead to lost time and productivity for users. Network operators and administrators are constantly challenged with ensuring high availability of the network, and in the event of a failure, minimizing its impact and restoring services quickly. This is achieved by network planning/design and by using hardened and resilient networking elements. The key principles of resiliency are the (1) elimination of single points of failures, (2) early detection and failover around defective parts, (3) localization of failures and containment of their impact, and (4) restoration of failed components without impacting other subsystems. This paper addresses the architecture and design principles in building next-generation highly resilient networking equipment.

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高弹性网元

当前的网络流量包括来自SAP、IP多媒体、协作和存储等不同应用程序的关键操作数据。目前的网络接口速度是每秒数千兆比特。对于以这种速度运行的网络，操作弹性非常重要，即使是几秒钟的干扰也可能导致大量数据包丢失，从而导致用户损失时间和生产力。网络运营商和管理员不断面临着确保网络的高可用性，以及在发生故障时，将其影响降到最低并快速恢复服务的挑战。这是通过网络规划/设计和使用加固和弹性网络元素来实现的。弹性的关键原则是(1)消除单点故障，(2)早期检测和故障转移，(3)故障定位和控制其影响，以及(4)在不影响其他子系统的情况下恢复故障组件。本文讨论了构建下一代高弹性网络设备的体系结构和设计原则。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 International Conference on Signal Processing, Communications and Networking

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