Network function virtualization: Difference between revisions

In October 2012, a group of telecom operators published a [[white paper]]<ref name="white">{{cite web |title=Network Functions Virtualization— Introductory White Paper |publisher= ETSI |date= 22 October 2012 |url= https://docbox.etsi.org/isg/nfv/open/Publications_pdf/White%20Papers/NFV_White_Paper1_2012.pdf |access-date= 20 June 2013 }}</ref> at a conference in [[Darmstadt, Germany]], on [[software-defined networking]] (SDN) and [[OpenFlow]]. The Call for Action concluding the White Paper led to the creation of the Network Functions Virtualization (NFV) Industry Specification Group (ISG) <ref>{{cite web |title = Network Functions Virtualisation |work= ETSI Standards for NFV |url= https://www.etsi.org/technologies/nfv |access-date= 30 June 2020 }}</ref> within the [[European Telecommunications Standards Institute]] (ETSI). The ISG was made up of representatives from the telecommunication industry from Europe and beyond.<ref>{{Cite news |title= Tier 1 Carriers Tackle Telco SDN |date= 22 October 2012 |first1=Ray|last1=Le Maistre |work=Light Reading |url= http://www.lightreading.com/software-defined-networking/tier-1-carriers-tackle-telco-sdn/240135217 |access-date=20 June 2013 }}</ref><ref>{{cite web |title= Latest Agenda at SDN & OpenFlow World Congress |publisher= Layer123.com |url-status=dead |url= http://www.layer123.com/sdn-agenda/ |archive-date= October 14, 2012 |archive-url= https://web.archive.org/web/20121014053339/http://www.layer123.com/sdn-agenda/ |access-date= 20 June 2013}}</ref> Since the publication of the white paper, the group has produced over 100 publications.<ref>{{cite web |title=Standards for NFV: Network Functions Virtualisation |publisher= NFV Solutions |url=https://www.etsi.org/technologies/nfv |website=ETSI |language=en-gb}}</ref> In 2016, one high performance open source version of NFV is released. openNetVM is a high performance NFV platform based on DPDK and Docker containers.<ref name="OpenNetVM">{{cite journal|url=http://faculty.cs.gwu.edu/timwood/papers/16-HotMiddlebox-onvm.pdf |title=OpenNetVM: A Platform for High Performance Network Service Chains|doi=10.1145/2940147.2940155|s2cid=13706879}}</ref>

Need an [https://networkbuilders.intel.com/docs/NP2013113597EN_NFV_Platform_StraWhitePaper.pdf NFV Platform'] {{Webarchive|url=https://web.archive.org/web/20150526045311/https://networkbuilders.intel.com/docs/NP2013113597EN_NFV_Platform_StraWhitePaper.pdf |date=2015-05-26 }}, Intel Strategic paper</ref> It is a software platform running on standard multi-core hardware and built using open source software that incorporates carrier-grade features. The NFV platform software is responsible for dynamically reassigning VNFs due to failures and changes in traffic load, and therefore plays an important role in achieving high availability. There are numerous initiatives underway to specify, align and promote NFV carrier-grade capabilities such as ETSI NFV Proof of Concept,<ref>[http://www.etsi.org/technologies-clusters/technologies/nfv/nfv-poc NFV Proof of Concept]</ref> ATIS<ref>'New [http://www.lightreading.com/nfv/nfv-strategies/new-nfv-forum-focused-on-interoperability/d/d-id/710874 NFV Forum] Focused on Interoperability', Light Reading, Carol Wilson, September 16, 2015</ref> Open Platform for NFV Project,<ref>OPNFV, Linux Foundation Collaborative Projects Foundation webpage</ref> Carrier Network Virtualization Awards<ref>[http://carriernetworkvirtualization.com/carrier-network-virtualization-awards/ Carrier Network Virtualization Awards] {{webarchive|url=https://web.archive.org/web/20150607213250/http://carriernetworkvirtualization.com/carrier-network-virtualization-awards/ |date=2015-06-07 }} 2014, December 2015</ref> and various supplier ecosystems.<ref>'{{cite web|title=Wind River’sRiver's Ecosystemic Solution to NFV and Orchestration', |url=https://blog.cimicorp.com/?p=1788|publisher=CIMI Corporation Public Blog, |first1=Tom |last1=Nolle, |date=June 2014}}</ref>

The vSwitch, a key component of NFV platforms, is responsible for providing connectivity both VM-to-VM (between VMs) and between VMs and the outside network. Its performance determines both the bandwidth of the VNFs and the cost-efficiency of NFV solutions. The standard [[Open vSwitch]]'s (OVS) performance has shortcomings that must be resolved to meet the needs of NFVI solutions.<ref>[{{cite web|url=http://networkheresy.com/2014/11/13/accelerating-open-vswitch-to-ludicrous-speed/ '|title=Accelerating Open vSwitch] to "Ludicruos Speed", |work=Network Heresy: Tales of the network reformation, |first1=Justin D |last1=Pettit,|date=11 November 13, 2014}}</ref> Significant performance improvements are being reported by NFV suppliers for both OVS and Accelerated Open vSwitch (AVS) versions.<ref>'{{cite web|title=Wind River Delivers Breakthrough Performance for [Accelerated vSwitch Optimized for NFV|url=http://www.windriver.com/news/press/pr.html?ID=12801 Accelerated vSwitch] Optimized for NFV' |publisher=Wind River News Room, |date=May, 2014}}</ref><ref>'{{cite web|title=6WIND Announces [http://www.prweb.com/releases/2014/04/prweb11768622.htm Open vSwitch Acceleration] for Red Hat Enterprise Linux OpenStack Platform', |url=http://www.prweb.com/releases/2014/04/prweb11768622.htm|publisher=PRweb, |date=April, 2014}}</ref>

Virtualization is also changing the way [[availability]] is specified, measured and achieved in NFV solutions. As VNFs replace traditional function-dedicated equipment, there is a shift from equipment-based availability to a service-based, end-to-end, layered approach.<ref>'NETWORK{{cite FUNCTIONSweb|title=Network [Functions Virtualization Challenges and Solutions|url=http://www.tmcnet.com/tmc/whitepapers/documents/whitepapers/2013/9377-network-functions-virtualization-challenges-solutions.pdf VIRTUALIZATION] CHALLENGES AND SOLUTIONS', TMCNET webpage, |publisher=Alcatel-Lucent Strategic paper, |year=2013}}</ref><ref>'{{cite web|title=NFV: The Myth of Application-Level High [Availability|url=http://www.windriver.com/whitepapers/nfv-myth-app/ Availability] {{Webarchive|archive-url=https://web.archive.org/web/20151005122643/http://www.windriver.com/whitepapers/nfv-myth-app/ |archive-date=2015-10-05 }}', |publisher=Wind River White Paper, |date=May 2015}}</ref> Virtualizing network functions breaks the explicit coupling with specific equipment, therefore availability is defined by the availability of VNF services. Because NFV technology can virtualize a wide range of network function types, each with their own service availability expectations, NFV platforms should support a wide range of fault tolerance options. This flexibility enables CSPs to optimize their NFV solutions to meet any VNF availability requirement.

[[ETSI]] has already indicated that an important part of controlling the NFV environment be done through automation and orchestration. There is a separate stream MANO within NFV outlining how flexibility should be controlled.<ref>[{{cite web|url=http://network-functions-virtualization.com/mano.html |title=Mano at |publisher=network-functions-virtualization.com ]}}</ref>

Recent performance study on NFV focused on the throughput, latency and jitter of virtualized network functions (VNFs), as well as NFV scalability in terms of the number of VNFs a single physical server can support.<ref>[{{cite journal|url=https://ieeexplore.ieee.org/abstract/document/7781548/?reload|title=true Toward High-Performance and Scalable Network Functions Virtualization]|year=2016|doi=10.1109/MIC.2016.111|last1=Wang|first1=Chengwei|last2=Spatscheck|first2=Oliver|last3=Gopalakrishnan|first3=Vijay|last4=Xu|first4=Yang|last5=Applegate|first5=David|journal=IEEE Internet Computing|volume=20|issue=6|pages=10–20|s2cid=15518060}}</ref>

Open source NFV platforms are available, one representative is openNetVM.<ref>http: name="OpenNetVM" //faculty.cs.gwu.edu/timwood/papers/16-HotMiddlebox-onvm.pdf</ref> openNetVM is a high performance NFV platform based on DPDK and Docker containers. openNetVM provides a flexible framework for deploying network functions and interconnecting them to build service chains. openNetVM is an open source version of the NetVM platform described in NSDI 2014 and HotMiddlebox 2016 papers, released under the BSD license. The source code can be found at github:openNetVM<ref>{{cite web|url=https://github.com/sdnfv/openNetVM|title=GitHub- OpenNetVM}}</ref>