Title :
Transport Network Function Virtualization
Author :
Vilalta, Ricard ; Munoz, Raul ; Mayoral, Arturo ; Casellas, Ramon ; Martinez, Ricardo ; Lopez, Victor ; Lopez, Diego
Author_Institution :
Centre Tecnol. de Telecomunicacions de Catalunya, Castelldefels, Spain
Abstract :
In this paper, we present a network function virtualization (NFV) architecture to deploy different virtualized network functions (VNF) on an optical transport network. NFV concepts do not only apply to data plane functions (i.e., packet processing or forwarding), but also to control plane functions, such as path computation. First, we focus on the IT and network resources that are virtualized to provide the required VNFs. Second, we provide an example of VNF on top of the virtualized infrastructure, by proposing a path computation element (PCE) architecture to deploy a PCE by means of NFV. The instances of the virtualized PCE are deployed on demand, but they are perceived as a single-network element. We present the benefits of such approach by providing experimental validation.
Keywords :
optical fibre networks; virtualisation; NFV concepts; PCE architecture; VNF; optical transport network; path computation element architecture; transport network function virtualization architecture; virtualized network functions; Computer architecture; IP networks; Optical switches; Protocols; Virtual machining; Virtualization; Cloud and Network Orchestration; Cloud and network orchestration; GMPLS; NFV Orchestration and Management; NFV orchestration and management; Network Function Virtualization; OpenDaylight; OpenStack; Path Computation Element; network function virtualization; openDaylight; openStack; path computation element;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2390655
