The DRAGON Project and Application Specific Topologies

2006 3rd International Conference on Broadband Communications, Networks and Systems Pub Date : 2006-10-01 DOI:10.1109/BROADNETS.2006.4374347

Fiona Leung, J. Flidr, Chris Tracy, Xi Yang, T. Lehman, B. Jabbari, D. Riley, J. Sobieski

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引用次数: 7

Abstract

A new breed of network intensive "e-science" applications are emerging that require a new perspective on how networks provide resources to the user. These e-science applications often have large raw capacity requirements (tens of gigabits/second) and require global reach. The discipline scientists expect this type of performance to be deterministic and repeatable, and available in conjunction with other resources such as sensors, instruments, computational clusters, storage arrays, and the like. The DRAGON project, an NSF funded testbed in the Washington DC metropolitan area, has been developing open source generalized multi-protocol label swapping (GMPLS) based service concepts that provide dedicated and deterministic network resources to the e-science application. Using the GMPLS control plane and DRAGON extensions, an entire "application specific topology" can be established in an automated fashion across administrative boundaries, across heterogeneous network technologies, and can be instantiated in seconds rather than weeks or months. This paper describes the technologies being developed by the DRAGON project and some of the ways application specific topologies are being applied to advanced networked applications.

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DRAGON项目和特定于应用程序的拓扑

一种新型的网络密集型“电子科学”应用正在出现，这需要从新的角度来看待网络如何为用户提供资源。这些电子科学应用程序通常有很大的原始容量需求(每秒几十千兆比特)，并且需要全球覆盖。该学科的科学家期望这种类型的性能是确定的和可重复的，并且可以与其他资源(如传感器、仪器、计算集群、存储阵列等)结合使用。DRAGON项目是美国国家科学基金会在华盛顿特区资助的一个测试平台，一直在开发基于开源的通用多协议标签交换(GMPLS)服务概念，为电子科学应用提供专用的和确定的网络资源。使用GMPLS控制平面和DRAGON扩展，可以跨管理边界、跨异构网络技术以自动化的方式建立整个“特定于应用程序的拓扑”，并且可以在几秒钟内实例化，而不是几周或几个月。本文描述了DRAGON项目正在开发的技术，以及将特定于应用程序的拓扑应用于高级网络应用程序的一些方法。

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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2006 3rd International Conference on Broadband Communications, Networks and Systems

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