ErBo-2007-08-28-Hybrid_networking

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Transcript ErBo-2007-08-28-Hybrid_networking

Hybrid Networking
What’s in GLIF for you?
APAN 24th Meeting, Xi’an, China – August 28, 2007
Erik-Jan Bos, SURFnet,
The Netherlands
NREN Challenge
- How to accommodate needs of scientific users for
higher speed, higher quality networking, e.g.:
- Astronomy: eVLBI and LOFAR
- Particle Physics: Large Hadron Collider
- Medical imaging & research
- Media streaming, such as HDTV and 4K
- While protecting the performance of the network
for current users
- And keeping the successful end-to-end model of
the internet
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Photo section
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LHC high-level network
architecture
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We realized that…
- Counting on bigger routers and fatter pipes was no
longer a realistic option.
- And introducing QoS was not a viable alternative of
course.
- Next Generation Research Networks would not be a
simple extrapolation of the current Internet
evolution anymore.
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Hybrid networking
- Hybrid Networking concept has evolved since 2001
in a global context, with yearly LambdaGrid
Workshops.
IP + lambdas
- Packet switched internet for regular many-to-many
usage
- Light Paths for new high speed few-to-few usage
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Lightpaths and OPNs
- Lightpath: high quality and high capacity optical
network connection
- Lightpaths provide applications with dedicated
bandwidth with fixed characteristics at relatively
low costs and with added security
- Optical Private Network: system of permanent
lightpaths to interconnect multiple locations
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GLIF, Global Lambda
Integrated Facility
- In 2003 it was agreed to continue the international
cooperation for lambda networking under the name
GLIF.
- GLIF is an international virtual organization
managed as a cooperative activity with
‘participants’ rather than ‘members’ under a
lightweight governance structure.
- Open to anybody sharing the vision of optical
interconnection of different facilities, who
voluntarily contributes network resources (e.g.
equipment, lambdas) or actively participates in
relevant activities.
- Secretariat functions provided by TERENA with
voluntary contributions from participants.
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GLIF Vision
Linking the World with Light
- Optical networks are the central architectural
element in support of this decade’s most
demanding e-science applications.
- A research world without geographical boundaries.
- Hybrid research networks worldwide connected by
lambdas and GLIF Open Lightpath Exchanges
(GOLEs)
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GLIF Working Groups (1)
- Governance and Growth (GOV) Working Group
Chair: Kees Neggers (SURFnet)
Goals: To identify future goals in terms of lambdas,
connections and applications support, and to decide what
cross-domain policies need to be put in place.
- Research and Applications (RAP) Working Group
Chair: Maxine Brown (UIC) & Larry Smarr (UCSD)
Goals: To train a new generation of scientists on the use of
super-networks.
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GLIF Working Groups (2)
- Technical Issues (Tech) Working Group
Co-Chairs: Erik-Jan Bos (SURFnet) & René Hatem (CANARIE)
Goals: The goals of the working group are to design and
implement an international LambdaGrid infrastructure, identify
which equipment is being used, what connection requirements
are required, and which functions and services should be
provided.
- Control Plane and Grid Integration Middleware Working Group
Chair: Gigi Karmous-Edwards (MCNC)
Goals: To agree on the interfaces and protocols that talk to
each other on the control planes of the contributed Lambda
resources.
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GLIF Tech and Ctrl
Working Groups
- GLIF Tech: Facilitate manual use of the GLIF
resources today
- GLIF Ctrl: Towards automated use of the GLIF
resources tomorrow
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GLIF resources: lambdas
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GLIF resources: GOLEs
- GLIF lambdas are interconnected through
established lightpath exchange points known as
GOLEs: GLIF Open Lightpath Exchanges
- GOLEs are comprised of equipment capable of
terminating lambdas and performing lightpath
switching, allowing end-to-end connections
- GOLEs have an open connection policy
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GOLEs around the world
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AMPATH – Miami, FL, USA
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NorthernLight – Stockholm, SE
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CERN – Geneva, CH
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Pacific Wave (LAX) - Los Angeles,
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CzechLight – Praha, CZ
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HKOEP - Hong Kong, CN
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KRLight – Daejoen, KR
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MAN LAN - New York, NY, USA
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MoscowLight – Moscow, RU
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NetherLight – Amsterdam, NL
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StarLight – Chicago, IL, USA
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NGIX-East – Washington, DC,
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T-LEX – Tokyo, JP
USA
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UKLight – London, UK
CA, USA
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Pacific Wave (SEA) – Seattle, WA,
USA
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Pacific Wave (JSV) – Sunnyvale, CA,
USA
http://www.glif.is/resources/
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NetherLight: The GOLE
in Amsterdam, NL
• GLIF Open Lightpath Exchange, located in
the Science Park Amsterdam
- Operational since January 2002
- Built and operated by SURFnet
• Nortel HDXc Optical Cross Connect at the
centre (full duplex 640G non-blocking)
• Nortel OME6500, Nortel ERS8600, and Cisco
ONS15454 at the edges for grooming
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NetherLight Topology
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GLIF Tech recent work
- GLIF Resources:
- GOLEs (GLIF Open Lightpath Exchanges)
- Lambdas
- GOLE coordination (calls and updates)
- Inventory of resources:
- Manual
- Automated (TL1 Toolkit & Network Description
Language)
- Documents:
- Process for lightpath set-up and trouble shooting
- Issue analysis
- Monitoring in the hybrid network
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Network Description
Language (NDL)
- Project of the University of Amsterdam
- Aim: Develop language to describe computer
networks meaningfully, and build easy to use tools
- Work uses RDF (Resource Description Framework)
- Tools:
- Generator
- Validator
- Visualization
- Pathfinding
- Use of Google Maps
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NDL on Google Maps
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Important topics for
next GLIF Tech & Ctrl
-
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Control plane interworking
Advances in the TL1 Toolkit tools and NDL
Technical challenges in VLAN-based “lightpaths”
Enlighten your research (SURFnet) experiences
SURFnet, Pioneering Network for Higher Education and Research
7th Annual Global
LambdaGrid Workshop
- The 2007 GLIF Workshop will be held on September
17-18, 2007 in Prague, Czech Republic
- Host: CESNET, Czech NREN
- Location: Charles University, Prague
- Followed by: 4th Customer Empowered Fiber
Workshop (September 19-20, 2007)
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Questions?
- More information:
http://www.netherlight.net/
http://www.glif.is/
http://www.surfnet.nl/info/en/
Erik-Jan Bos <[email protected]>
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Enlighten Your Research
- 18 high-quality proposals received
- 5 winners of lightpath(s) and funding:
- Distribution of radiology images in the NELSON lung cancer
screening study – UMCG & UMCU
- High-throughput genome-wide analyses in Amyotrophic
Lateral Sclerosis (ALS) – UMCU & UCLA
- Intelligent CCTV monitoring at Arke Stadium –TI e.a.
- Electron microscopy using lightpaths – LUMC, TUE & SARA
- Remote High-Resolution Visualisation of Climate Data using
Pixel Streaming – UU & SARA
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eEVN: European VLBI Network
Data processing
centre:
16 Gbps (2005)
1 Tbps (2010)
Russia
China
USA
1-30
Gbps
asymmetric
star topology
South
Africa
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This slide courtesy of Richard Schilizzi [email protected], from 2003…