Post on 13-Nov-2014
description
European TestbedPII, OneLab, and Federica
2008. 11. 03Presented by Jaeryong Hwang
Outline
Pan-European Laboratory Infrastructure Implementation(PII)
OneLab
Federated E-infrastructure Dedicated to European Researchers Innovating in Computing network Architectures(FEDERICA)
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PIIPan-European Laboratory
Infrastructure Implementation
http://www.panlab.netAnastasius GavrasEurescom GmbH
Approach Create a large scale testing and experimentation
facility by integrating existing and emerging testbeds
Rationale for federating testbeds Large-scale testbeds are needed for integrating and
validating next-generation network technologies.
The federation of distributed test laboratories and testbeds enables end-to-end interoperability testing of platforms, networks and services.
The federation of laboratories and testbeds helps to reduce the risks and costs of large-scale network infrastructure testing.
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The Panlab project
Main goal: Develop a vision, roadmap, and legal/administrative
framework for the Pan-European Laboratory
Background: The idea for the Pan-European Laboratory was born
in the context of Eureka Cluster Celticas a way for effective pre-commercial end-to-end testing of services and products
European competitiveness in ICT is at stake, as the US (FIND/GENI) and others are developing large testing facilities for the future Internet respectively next-generation networks
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Panlab project details
Panlabconsortium-11 organisations: Eurescom (coordinator -supported by Eureka Cluster Celtic), France
Telecom, Telefónica, Italtel, Thomson, Alcatel-Lucent, Nokia, Fraunhofer Fokus, DIMES, RAD, University of Quebec
Supported by the EC as a Specific Support Action under FP6: Budget:1.3 million euro Effort:134 person months Start:June 2006 Duration:24 months
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Building the Pan-European Laboratory
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Implementation phases
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Discover, compose, provision testing services
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• TEAGLE •a dedicated web-based tool for federated testing• operated by the organisation’s office(Responsible for the testbed resource coordination and the long term evolution of the federation)
• using Teagle, customers can define and locate specific testbed facilities suitable to their testing needs
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Octopus Network is a combination of pioneering wireless testbeds based in Oulu
With world-class partners like Nokia, Intel and Alcatel-Lucent, Octopus Network is a global wireless hotspot
Testing will be a globally increasing business area in the future. We want to provide our customers cost effective access to the latest wireless technologies in closed testing environments
The core of the Octopus service is a closed operator environment Remote secure access: VPN,IPSec,SSH
Octopus services A real, operator-level IMS infrastructure for third party testers (max. 500 000
subscribers simultaneously) Development and testing Application testing Interoperability testing in an authentic operator environment Technology consultation
Octopus Network
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Beta platform provide support and infrastructure for the
interconnection of testbeds and demonstrators
This project is an outcome of the first "IT-summit" ("IT-Gipfel") held end of 2006. Since then, mainly driven by Deutsche Telekom Laboratories
The Beta Platform is targeted at creating a marketplace for service development and testing
In contrast to other distributed labs like PlanetLab or EmuLab, the distributed testbeds created by way of interconnecting existing labs are not open to the Internet
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Open IMS(IP Multimedia Subsystem) Playground Open testbeds have ever since played a major role for our research
activities in terms of result validation and prototype development It is OPEN in a sense that it is in a constant process of evolving. It is open to
new partners, new components, new technologies, as well as new concepts and paradigms.
Our aim is to facilitate the usage of latest technologies in the field of IMS, NGN, SOA, and IPTV
Type of organisation: Academic institute the services offered:
Deliver prototype component implementations Instantiation of the Open IMS Playground Interconnection of testbeds Demo development Unique offering: Open Source IMS Core and build the community around it
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Panlab assures connectivity to any possible technologyprovided by the Panlab community
OneLab
Serge FdidaUniversité Pierre et Marie Curie
Laboratoire LIP6-CNRS
An Open Networking Laboratory Supporting Communication Network Research Across Heterogeneous Environments
OneLab
An open federated laboratory, built on PlanetLab Europe, which supports network research for the future internet
Goals Extend – Extend PlanetLab into new environments, beyond
the traditional wired internet Deepen – Deepen PlanetLab’s monitoring capabilities Federate
– Provide a European administration for PlanetLab nodes in Europe
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Extend and Deepen
OneLab’s New Environments WiMAX (Université Catholique de Louvain) UMTS (Università di Napoli, Alcatel Italia) Wireless ad hoc networks (France Telecom at Lannion) Emulated (Università di Pisa) Multihomed (Universidad Carlos III de Madrid)
OneLab Monitoring Components Passive monitoring (Intel Research Cambridge)
Track packets at the routers Topology monitoring (U. P. & M. Curie)
– Provide a view of the route structure – Build on Scriptroute to provide scalable active
measurements
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Federation
Set up a functional PlanetLab Central in Europe to manage European sites
Create a federation between PlanetLab Europe and PlanetLab Central at Princeton
The federated structure will allow: – PlanetLab Europe to set policy in accordance with
European research priorities, – PlanetLab Europe to customize the platform, so long as
a common interface is preserved
Requirements Universal agreement on minimal core(narrow waist) Allow independent pieces to evolve independently
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The OneLab vision
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Building on PlanetLab Europe
64 nodes at 22 sites
Growing Join us! http://planet-lab.eu/
Part of the global PlanetLab test bed Used by thousands of researchers We co-develop the architecture We have federated with the USA. Next to federate: Japan, China, …
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OneLab : www.one-lab.org
STREP : IST-2006-034819 A STREP (Specific Targeted Research Project) funded by the
European Commission start: September 2006, duration: 2 years Funding 1.9 M€ , Total budget : 2.86 M€
Consortium Project leader: Univ. P. & M. Curie tightly with INRIA Partners:
Intel Research Cambridge Universidad Carlos III de Madrid Université Catholique de Louvain Università di Napoli France Telecom Università di Pisa Alcatel Italia Telekomunikacja Polska
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Federated E-infrastructure Dedicated toEuropean Researchers
Innovating in Computing network Architectures
Mauro Campanella – GARR
FIRE Launch Event Paris, September 10th, 2008
CONVEGNO "Incontro con l'Ingegneria delle Telecomunicazioni” Firenze, June 18th, 2008
FEDERICA at a glance
What: European Community co-funded project in its 7th Framework Program in the area “Capacities - Research Infrastructures” 3.7 MEuro EC contribution, 5.2 ME budget, 461 Man Months
When: 1st January 2008 - 30 June 2010 (30 months)
Who: 20 partners, based on stakeholders on network research and management:
11 National Research and Education Networks, DANTE (GÉANT2), TERENA, 4 Universities, Juniper Networks, 1 small enterprise (MARTEL), 1 research centre (i2CAT) - Coordinator: GARR (Italian NREN)
Where: Europe-wide e-Infrastructure, open to external connections
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FEDERICA Objectives
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FEDERICA Principles
1. Create an agnostic and neutral (transparent) infrastructure
2. Create “slices” which are a set of (virtual) network and computing resources according to user’s request and are “disruptible”
3. Provide to the user complete control within a slice down to the lowest possible layer (in particular allow any application and protocol)
4. Strive/engineer for reproducibility of experiments, i.e. given the same initial conditions, the results of an experiment are the same
5. Allow slices (if requested) to connect to the general Internet, to access external services/nodes (e.g. for content/delivery, specialized HW)
6. Ensure isolation between slices maintaining the possibility to cross- connect slides on request
7. Allow simultaneous use without conflict
8. Force/be exposed to topology changes (various level of resiliency)
9. Open to interconnect / federate with other e-Infrastructures
10. Access granted through a User Policy Board
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Access and Use Policies
Usage of a FEDERICA slice will be free of charge if no additional equipment is requested
Interconnection with other infrastructures (e.g. labs) is possible. The cost has to be defined case by case.
A User Policy Board will receive and approve projects for the use of the infrastructure
Access to the infrastructure is subject to the signature of an “Acceptable User Policy”, which includes providing feedback
The time duration of a single experiment will be in principle limited to facilitate turnover (3 months initially, extension possible)
Access is open to research groups from academia and private sector with priority to European Community funded projects.
The code and tool bench produced will be Open Source
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FEDERICA Activities
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Topology version 8.7
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Conclusion
European Testbeds for Future Internets(NGN) PII OneLab FEDERICA
Keyword: Federation!! Existing and emerging testbeds Raising the critical issue of Governance Management
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References PII
http://www.panlab.net/ Anastasius Gavras, Eurescom
The role of NGN Testbed FederationsWorkshop on IMS, Berlin, 15-16 November, 2007
Panlab - Federating European networking testbeds. Challenges and experiences3rd concertation meeting on e-Infrastructures, Helsinki, Finland, 20 November 2006Anastasius Gavras, Eurescom (presented by Yuri, Gittik, RAD)
OneLab http://www.onelab.eu/ ONELAB-Federating test beds for experimentally driven research PanLab Seminar
2008, May 13-14, 2008, Dinard, Serge Fdida FEDERICA
http://www.fp7-federica.eu http://www.geant2.net/ Federated E-infrastructure Dedicated to European Researchers Innovating in
Computing network Architectures FIRE Launch Event Paris, September 10th, 2008, Mauro Campanella –
GARR CONVEGNO "Incontro con l'Ingegneria delle Telecomunicazioni“ Firenze,
June 18th, 2008, Mauro Campanella – GARR
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