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Resilience options for provisioning anycast cloud services with virtual optical networks

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Abstract
Optical networks are crucial to support increasingly demanding cloud services. Delivering the requested quality of services (in particular latency) is key to successfully provisioning end-to-end services in clouds. Therefore, as for traditional optical network services, it is of utter importance to guarantee that clouds are resilient to any failure of either network infrastructure (links and/or nodes) or data centers. A crucial concept in establishing cloud services is that of network virtualization: the physical infrastructure is logically partitioned in separate virtual networks. To guarantee end-to-end resilience for cloud services in such a set-up, we need to simultaneously route the services and map the virtual network, in such a way that an alternate routing in case of physical resource failures is always available. Note that combined control of the network and data center resources is exploited, and the anycast routing concept applies: we can choose the data center to provide server resources requested by the customer to optimize resource usage and/or resiliency. This paper investigates the design of scalable optimization models to perform the virtual network mapping resiliently. We compare various resilience options, and analyze their compromise between bandwidth requirements and resiliency quality.
Keywords
IMPACT, IBCN, GRIDS

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Citation

Please use this url to cite or link to this publication:

MLA
Bui, M, B Jaumard, and Chris Develder. “Resilience Options for Provisioning Anycast Cloud Services with Virtual Optical Networks.” IEEE International Conference on Communications. IEEE, 2014. 3462–3468. Print.
APA
Bui, M, Jaumard, B., & Develder, C. (2014). Resilience options for provisioning anycast cloud services with virtual optical networks. IEEE International Conference on Communications (pp. 3462–3468). Presented at the IEEE International Conference on Communications (ICC), IEEE.
Chicago author-date
Bui, M, B Jaumard, and Chris Develder. 2014. “Resilience Options for Provisioning Anycast Cloud Services with Virtual Optical Networks.” In IEEE International Conference on Communications, 3462–3468. IEEE.
Chicago author-date (all authors)
Bui, M, B Jaumard, and Chris Develder. 2014. “Resilience Options for Provisioning Anycast Cloud Services with Virtual Optical Networks.” In IEEE International Conference on Communications, 3462–3468. IEEE.
Vancouver
1.
Bui M, Jaumard B, Develder C. Resilience options for provisioning anycast cloud services with virtual optical networks. IEEE International Conference on Communications. IEEE; 2014. p. 3462–8.
IEEE
[1]
M. Bui, B. Jaumard, and C. Develder, “Resilience options for provisioning anycast cloud services with virtual optical networks,” in IEEE International Conference on Communications, Sydney, Australia, 2014, pp. 3462–3468.
@inproceedings{4661673,
  abstract     = {Optical networks are crucial to support increasingly demanding cloud services. Delivering the requested quality of services (in particular latency) is key to successfully provisioning end-to-end services in clouds. Therefore, as for traditional optical network services, it is of utter importance to guarantee that clouds are resilient to any failure of either network infrastructure (links and/or nodes) or data centers. A crucial concept in establishing cloud services is that of network virtualization: the physical infrastructure is logically partitioned in separate virtual networks. To guarantee end-to-end resilience for cloud services in such a set-up, we need to simultaneously route the services and map the virtual network, in such a way that an alternate routing in case of physical resource failures is always available. Note that combined control of the network and data center resources is exploited, and the anycast routing concept applies: we can choose the data center to provide server resources requested by the customer to optimize resource usage and/or resiliency. This paper investigates the design of scalable optimization models to perform the virtual network mapping resiliently. We compare various resilience options, and analyze their compromise between bandwidth requirements and resiliency quality.},
  author       = {Bui, M and Jaumard, B and Develder, Chris},
  booktitle    = {IEEE International Conference on Communications},
  isbn         = {978-1-4799-2003-7},
  issn         = {1550-3607},
  keywords     = {IMPACT,IBCN,GRIDS},
  language     = {eng},
  location     = {Sydney, Australia},
  pages        = {3462--3468},
  publisher    = {IEEE},
  title        = {Resilience options for provisioning anycast cloud services with virtual optical networks},
  year         = {2014},
}

Web of Science
Times cited: