991026-ORAP-GHW

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Transcript 991026-ORAP-GHW 

Abilene: An Internet2
Backbone Network
Greg Wood
Director of Communications
Internet2
ORAP Workshop
26 October 1999
Paris, France
Internet Development Spiral
Commercialization
Privatization
Today’s Internet
Research and
Development
Source: Ivan Moura Campos
Internet2
Partnerships
Internet2 Goals
 Enable new generation of
applications
 Re-create leading edge R&E network
capability
 Transfer technology and experience
to the global production Internet
Internet2 Universities
163 Members as of September 1999
Internet2 Corporate Partners
 3Com
 ITC^Deltacom
 Advanced Network &
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Services
 Alcatel
 Ameritech
 AT&T
 Cabletron Systems
 Cisco Systems
 FORE Systems
 IBM
Lucent Technologies
MCI Worldcom
Microsoft
Newbridge Networks
Nortel Networks
Qwest
Communications
 StarBurst
 WCI Cable
Enabling advanced
applications...
Advanced Applications
 Distributed computing
 Collaboration
 Virtual laboratories
 Digital libraries
 Visualization and virtual reality
 All of the above in combination
Many Disciplines and Contexts
 Sciences
 Instruction
 Arts
 Collaboration
 Humanities
 Streaming video
 Health care
 Distributed
 Business/Law
computation
 Data mining
 Virtual reality
 Digital libraries
…
 Administration
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Re-creating leading edge
networking capabilities...
Applications and Engineering
Applications
Motivate
Enables
Engineering
Internet2 Engineering
Objectives
 Deploy a production network to
support applications R&D
 Establish quality of service (QBone)
 Support native multicast
 Establish gigaPoPs as effective
service points
Network Architecture
GigaPoP
One
GigaPoP
Two
Internet2 Interconnect
Cloud
GigaPoP
Three
GigaPoP
Four
“Gigabit capacity Point of Presence” an
aggregation point for regional connectivity
Network Architecture
Internet2 Interconnect
Cloud
University A
GigaPoP
One
Regional Network
University B
University C
Commercial
Internet
Connections
GigaPoPs
 Variety of services and styles
• Technical and organizational
differences
• Mixture of technologies
 Common approaches to:
• IP as common bearer service
• Inter-gigaPoP routing policy and design
• Measurement
• Trouble tickets among network
operations centers
Internet2 GigaPoPs
The Abilene Network
Abilene Timeline
 Announced: April 1998
 First demonstration: September 1998
 Operations officially begin: February
1999
 50+ connected institutions:
September 1999
Abilene Goals
 Support Internet2 applications
development
 Demonstrate next generation
networking capabilities
 Create facilities for network
research
Abilene Goals, continued
Support Internet2 multicast
Support Internet2 QoS
architecture as it evolves
Support other advanced
functionality as it evolves
Maximize robustness
Minimize latency
Abilene Project Partners
 UCAID
 Qwest Communications
 Cisco Systems
 Nortel Networks
 Indiana University
Key Attributes
 Benefit from Qwest OC-48 Sonet
capacity and collocation sites
 Benefit from Nortel OC-192 Sonet kit
and Lucent fiber
 Benefit from Cisco GSR 12000 series
routers in support of QoS and native
multicast
 NOC Provided by Indiana University
Architecture
 10 core nodes
• Each located at a Qwest PoP
• Each with a Cisco 12008 router
• Rack also contains measurements/
management computers
 Interior lines connect core nodes
• OC-48 Sonet
• IP-over-Sonet interfaces
 Access lines connect from core node to
gigaPoP
• IP-over-Sonet or IP-over-ATM possible
• OC-3 and OC-12 typical
Abilene Characteristics
 2.4 Gbps (OC48) among gigaPoPs,
increasing to 9.6 Gbps (OC192)
 Connections at 622 Mbps (OC12) or
155 Mbps (OC3)
 IP over Sonet technology
 Access PoPs very close to university
gigaPoPs
Abilene Network
Seattle
New York
Sacramento
Denver
Indianapolis
Kansas City
Los Angeles
Atlanta
Abilene Router Node
Abilene Access Node
Operational January 1999
Planned 1999
Houston
Abilene Participants
Abilene Weather Map
http://www.abilene.iu.edu/
Abilene Peer Networks
 APAN/Transpac
 CA*net-2
 DANTE
 DREN
 ESnet
 Israel Inter-
University
 NORDUnet
 NISN
 NREN
 RENATER
 SingAREN
 SURFnet
 vBNS
Soon to peer
 JANET/UKERNA
 CUDI
 DFN
 INFN
Internet2 International
Activities
 Ensure global interoperability of
advanced networking technologies
and applications
 Enable collaboration between US
researchers at Internet2 institutions
and their non-US counterparts
Internet2 International
Activities
 Building peer to peer relationships
 Looking for similar goals/objectives and
similar constituencies
 Mechanism: Memoranda of Understanding
 Implementation: Peering and Connection
Agreements
 Collaboration: Projects and Applications
Internet2 International Partners
 CANARIE (Canada)
 Stichting SURF
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(Netherlands)
NORDUnet (Nordic
countries)
TERENA (pan-European
association)
UKERNA (UK)
INFN-GARR (Italy)
DFN-Verein (Germany)
GIP RENATER (France)
JAIRC (Japan)
 SingAREN (Singapore)
 CUDI (Mexico)
 APAN (Asia-Pacific
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region)
Israel-IUCC (Israel)
DANTE (European
network)
AAIREP (Australia)
HEAnet (Ireland)
CESnet (Czech Republic)
SWITCH (Switzerland)
Advanced Research and
Education Network Atlas (ARENA)
 An on-line atlas containing descriptions
and maps of research and education
networks
 Content will be provided by participating
networks
 Provides a well known URL for sometimes
hard to find information
 Users: Research and education network
engineers and application users
 http://www.internet2.edu/arena/
For More Information
 On the Web
• www.internet2.edu/abilene/
• www.abilene.iu.edu
• www.internet2.edu
 Email
• [email protected][email protected]
TM
www.internet2.edu