Adopting distributed control planes is critical towards ensuring high availability and fault-tolerance of dependable Software-Defined Networks (SDNs). However, designing and bootstrapping a distributed SDN control plane is a challenging task, especially if to be done in-band, without a dedicated control network, and without relying on legacy networking protocols. One of the most appealing and powerful notions of fault-tolerance is self-organization and this paper discusses the possibility of selforganizing algorithms for in-band control planes
Software-defined networking (SDN) is a novel paradigm that outsources the control of programmable ne...
The software-defined network (SDN) advocates a centralized network control, where a controller manag...
International audienceThe decoupling of control and data planes in Software-Defined Networking (SDN)...
Adopting distributed control planes is critical towards ensuring high availability and fault-toleran...
By introducing programmability, automated verification, and innovative debugging tools, Software-Def...
Control planes of forthcoming Software-Defined Networks (SDNs) will be distributed: to ensure availa...
By introducing programmability, automated verification, and innovative debugging tools, Software-Def...
International audienceTo improve reliability and performance of Software Defined Networking (SDN) ar...
Unlike traditional networking structures, the new-generation software-defined network (SDN) separate...
In this paper we take a closer look at the operationof software defined networking (SDN) in intra-do...
Previous years have seen increased interest in a new network paradigm, Software defined networking (...
de Louvain To provide high availability and fault-tolerance, SDN control planes should be distribute...
Control planes of Software-defined Networks consist of multiple interconnected controllers to provid...
Control plane scalability is one of the major concerns in Software Defined Networking (SDN) deployme...
Achieving high programmability has become an essential aim of network research due to the ever-incre...
Software-defined networking (SDN) is a novel paradigm that outsources the control of programmable ne...
The software-defined network (SDN) advocates a centralized network control, where a controller manag...
International audienceThe decoupling of control and data planes in Software-Defined Networking (SDN)...
Adopting distributed control planes is critical towards ensuring high availability and fault-toleran...
By introducing programmability, automated verification, and innovative debugging tools, Software-Def...
Control planes of forthcoming Software-Defined Networks (SDNs) will be distributed: to ensure availa...
By introducing programmability, automated verification, and innovative debugging tools, Software-Def...
International audienceTo improve reliability and performance of Software Defined Networking (SDN) ar...
Unlike traditional networking structures, the new-generation software-defined network (SDN) separate...
In this paper we take a closer look at the operationof software defined networking (SDN) in intra-do...
Previous years have seen increased interest in a new network paradigm, Software defined networking (...
de Louvain To provide high availability and fault-tolerance, SDN control planes should be distribute...
Control planes of Software-defined Networks consist of multiple interconnected controllers to provid...
Control plane scalability is one of the major concerns in Software Defined Networking (SDN) deployme...
Achieving high programmability has become an essential aim of network research due to the ever-incre...
Software-defined networking (SDN) is a novel paradigm that outsources the control of programmable ne...
The software-defined network (SDN) advocates a centralized network control, where a controller manag...
International audienceThe decoupling of control and data planes in Software-Defined Networking (SDN)...