CORONET: Testbeds, demonstration, and lessons learned [invited]

The DARPA Core Optical Networks (CORONET) program envisions a highly dynamic network environment requiring fast provisioning and restoration for a wide variety of bandwidth-on-demand services in IP-over-optical networks. This paper builds on previously reported work on the development of fast provis...

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Veröffentlicht in:	Journal of optical communications and networking 2015-03, Vol.7 (3), p.A447-A458
Hauptverfasser:	Von Lehmen, Ann, Doverspike, Robert, Clapp, George, Freimuth, Douglas M., Gannett, Joel, Kolarov, Aleksandar, Kobrinski, Haim, Makaya, Christian, Mavrogiorgis, Emmanuil, Pastor, Jorge, Rauch, Michael, Ramakrishnan, K. K., Skoog, Ron, Wilson, Brian, Woodward, Sheryl L.
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Sprache:	eng
Schlagworte:	Dynamic networks Emulation IP networks Network control Network restoration Optical fiber networks Optical networks Optical wavelength conversion Protocols Software Wide area networks
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container_title	Journal of optical communications and networking
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creator	Von Lehmen, Ann Doverspike, Robert Clapp, George Freimuth, Douglas M. Gannett, Joel Kolarov, Aleksandar Kobrinski, Haim Makaya, Christian Mavrogiorgis, Emmanuil Pastor, Jorge Rauch, Michael Ramakrishnan, K. K. Skoog, Ron Wilson, Brian Woodward, Sheryl L.
description	The DARPA Core Optical Networks (CORONET) program envisions a highly dynamic network environment requiring fast provisioning and restoration for a wide variety of bandwidth-on-demand services in IP-over-optical networks. This paper builds on previously reported work on the development of fast provisioning and restoration protocols to meet CORONET requirements. Two separate CORONET testbed implementations are described: an emulation testbed and a cloud application testbed. The emulation testbed is a software implementation of a 100-node, global scale control plane network designed to investigate and validate the performance of CORONET provisioning and restoration protocols for the transport layer. The cloud application testbed is implemented on a four-node network in AT&T's Software Defined Network (SDN) Wide Area Network (SWAN) testbed and is designed to show the utility of CORONET fast provisioning for cloud computing applications. In particular, we demonstrate dynamic provisioning of inter-datacenter capacity for virtual machine load balancing under the control of an SDN orchestrator. "Lessons learned" and further challenges are summarized.
doi_str_mv	10.1364/JOCN.7.00A447
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The emulation testbed is a software implementation of a 100-node, global scale control plane network designed to investigate and validate the performance of CORONET provisioning and restoration protocols for the transport layer. The cloud application testbed is implemented on a four-node network in AT&T's Software Defined Network (SDN) Wide Area Network (SWAN) testbed and is designed to show the utility of CORONET fast provisioning for cloud computing applications. In particular, we demonstrate dynamic provisioning of inter-datacenter capacity for virtual machine load balancing under the control of an SDN orchestrator. 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subjects	Dynamic networks Emulation IP networks Network control Network restoration Optical fiber networks Optical networks Optical wavelength conversion Protocols Software Wide area networks
title	CORONET: Testbeds, demonstration, and lessons learned [invited]
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