Proceedings ArticleDOI
Bandwidth Isolation Guarantee for SDN Virtual Networks
Gyeongsik Yang,Yeonho Yoo,Minkoo Kang,Heesang Jin,Chuck Yoo +4 more
- pp 1-10
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TLDR
In this paper, the authors proposed a bandwidth isolation guarantee for software-defined networking (SDN)-based network virtualization (NV), which provides topology and address virtualization while allowing flexible resource provisioning, control, and monitoring of virtual networks.Abstract:Â
We introduce TeaVisor, which provides bandwidth isolation guarantee for software-defined networking (SDN)-based network virtualization (NV). SDN-NV provides topology and address virtualization while allowing flexible resource provisioning, control, and monitoring of virtual networks. However, to the best of our knowledge, the bandwidth isolation guarantee, which is essential for providing stable and reliable throughput on network services, is missing in SDN-NV. Without bandwidth isolation guarantee, tenants suffer degraded service quality and significant revenue loss. In fact, we find that the existing studies on bandwidth isolation guarantees are insufficient for SDN-NV. With SDN-NV, routing is performed by tenants, and existing studies have not addressed the overloaded link problem. To solve this problem, TeaVisor designs three components: path virtualization, bandwidth reservation, and path establishment, which utilize multipath routing. With these, TeaVisor achieves the bandwidth isolation guarantee while preserving the routing of the tenants. In addition, TeaVisor guarantees the minimum and maximum amounts of bandwidth simultaneously. We fully implement TeaVisor, and the comprehensive evaluation results show that near-zero error rates on achieving the bandwidth isolation guarantee. We also present an overhead analysis of control traffic and memory consumption.read more
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Network Slicing for mMTC and URLLC Using Software-Defined Networking with P4 Switches
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References
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Proceedings ArticleDOI
Hedera: dynamic flow scheduling for data center networks
TL;DR: Hedera is presented, a scalable, dynamic flow scheduling system that adaptively schedules a multi-stage switching fabric to efficiently utilize aggregate network resources and delivers bisection bandwidth that is 96% of optimal and up to 113% better than static load-balancing methods.
Journal ArticleDOI
Virtual Network Embedding: A Survey
TL;DR: A survey of current research in the Virtual Network Embedding (VNE) area is presented and a taxonomy of current approaches to the VNE problem is provided and opportunities for further research are discussed.
Proceedings ArticleDOI
ONOS: towards an open, distributed SDN OS
Pankaj Vishwanath Berde,Matteo Gerola,Jonathan Hart,Yuta Higuchi,Masayoshi Kobayashi,Toshio Koide,Bob Lantz,Brian O'Connor,Pavlin Radoslavov,William Snow,Guru Parulkar +10 more
TL;DR: This work identifies additional steps that will be required for ONOS to support use cases such as core network traffic engineering and scheduling, and to become a usable open source, distributed network OS platform that the SDN community can build upon.
Proceedings Article
The design and implementation of open vSwitch
Ben Pfaff,Justin Pettit,Teemu Koponen,Ethan J. Jackson,Andy Zhou,Jarno Rajahalme,Jesse E. Gross,Alex Wang,Jonathan Stringer,Pravin Shelar,Keith E. Amidon,Martin Casado +11 more
TL;DR: The design and implementation of Open vSwitch is described, a multi-layer, open source virtual switch for all major hypervisor platforms, and the advanced flow classification and caching techniques that Open v switch uses to optimize its operations and conserve hypervisor resources are detailed.
Proceedings ArticleDOI
CONGA: distributed congestion-aware load balancing for datacenters
Mohammad Alizadeh,Tom Edsall,Sarang Dharmapurikar,Ramanan Vaidyanathan,Kevin Chu,Andy Fingerhut,Francis Matus,Rong Pan,Navindra Yadav,George Varghese +9 more
TL;DR: It is argued that datacenter fabric load balancing is best done in the network, and requires global schemes such as CONGA to handle asymmetry, and CONGA is nearly as effective as a centralized scheduler while being able to react to congestion in microseconds.