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CENIC2000
Internet2 and Global Development:
Institutional Impact
Michael McRobbie
Vice President for Information Technology and CIO
Indiana University
05/18/2000
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1. The Need for Global High Performance
Networks
• The tools of research and education are increasingly
based on applications of advanced information
technology which require access to distributed deep
computing and data resources.
• The outputs of advanced research and education
tools increasingly rely on advanced visualization.
• Advanced, unique scientific instruments must be
available to global research communities.
• The emergence of the global research community
requires advanced methods for supporting the
collaboration of geographically distributed
researchers.
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1.a Distributed Deep Computing and Data Resources
The GIOD Project
A Caltech, CERN and HP joint
project addressing data storage and
access problems posed by nextgen
particle collider experiments which
will start at CERN in 2005.
Data rates from online systems will
be of order 100 MBytes/sec; yearly
accumulation of several PetaBytes.
Raw data will be reconstructed for
particle tracks, energy clusters, etc.
in near-real time by large processor
farms (~107 MIPS) based on
commodity hardware.
http://pcbunn.cithep.caltech.edu/
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Distributed Deep Computing and Data Resources
Maximum Likelihood Analysis Of Phylogenetic Data
DNA data has accumulated more rapidly
than compute power so researchers
must often exclude potentially informative data to make statistical analysis
practical. Utilizing the computationally
intensive maximum-likelihood method
of phylogenetic inference in a globally
distributed collection of computational
nodes, Indiana University, National
University of Singapore and ACSys CRC
in Australia have analyzed the DNA of
cytoplasmic coat proteins, microsporidia, and cyanobacteria.
http://www.indiana.edu/~rac/hpc/cp.html
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1.b Advanced Visualization
Virtual Pelvic Floor
Supported in part by the National
Library of Medicine and developed by
researchers at University of Illinois
Chicago and Cook County Hospital, the
Virtual Pelvic Floor is a new method of
teaching the complex anatomy of the
pelvic region utilizing virtual reality and
advanced networking technology. The
stereoscopic collaborative environment
is used to teach residents and students
the highly complex anatomy and
physiology of the pelvic floor.
http://www.amia.org/pubs/symposia/D005507.PDF
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Advanced Visualization
High Brilliance X-ray Crystallography for Macromolecular
Structure Determination
Virtual
Reality
Cave
ImmersaDesk2
Advanced
Photon
Source
http://www.cs.indiana.edu/ngi
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1.c Scientific Instruments
Trans-Pacific Telemicroscopy
Scientists at the Osaka University Research
Center for Ultra High Voltage Electron Microscopy
(UHVEM) and University of California San Diego
National Center for Microscopy and Imaging
Research (NCMIR) successfully use international
advanced research networks to couple the
world's largest and most powerful (3 million volt)
transmission electron microscope at UHVEM to a
remote-use computer pavilion set up at NCMIR.
http://www.npaci.edu/online/v3.10/telemicroscopy.html
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Scientific Instruments
Advanced Photon Source
Advanced Photon Source
wide-area
dissemination
real-time
collection
archival
storage
desktop & VR clients
with shared controls
tomographic
reconstruction
http://epics.aps.anl.gov/welcome.html
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1.d Advanced Collaboration
Space Physics and Aeronomy Research Collaboratory
The Space Physics and
Aeronomy Research
Collaboratory (SPARC)
is an NSF-sponsored
community resource for
the upper atmospheric
and space sciences;
operating 24 hours a
day for scientific
collaboration and
access to real-time and
archival data.
http://sparc-1.si.umich.edu/sparc/central
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Advanced Collaboration
National Tele-immersion Initiative
A telecubicle has a
stereo-immersive desk
surface as well as at
least two stereoimmersive walls. These
three display surfaces
meet in the formation
of a desk against a
corner. When linked to
others on the net, the
telecubicle forms a
virtual collaborative
environment.
http://io.advanced.org/tele-immersion/
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Advanced Collaboration
Access Grid
The US Dept of Energy-sponsored
Access Grid supports human interaction
across the Grid. It consists of
multimedia displays, presentation and
interaction environments, interfaces to
Grid middleware and interfaces to
visualization environments. The Access
Grid supports large-scale distributed
meetings, collaborative work sessions,
seminars, lectures, tutorials and
training. The Access Grid design point
is group to group communication,
complementing the Computational
Grid.
http://www-fp.mcs.anl.gov/fl/accessgrid/
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2. Advanced Applications Require:
• High bandwidth, e.g. Trans-Pacific Telemicroscopy
requires > 35Mbps continuous for visual display.
• Low or predictable latency, e.g. remote operation of
scientific instrumentation requires bounded signaling
latency.
• Bandwidth and latency contracts provided to
applications by network QoS (quality of service)
mechanisms.
• Advanced network services, e.g. multicast-enabled
multipoint collaboration.
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Advanced Applications also Require
• Application middleware services, e.g. Globus, which
provide a basic software infrastructure that integrates
geographically distributed computational and
information resources.
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3. US High Performance Research and
Education Networks
• Government agency:
– ESNet - Department of Energy (1980s)
– NREN - NASA (1997)
– iDREN - Department of Defense (1996)
• Research and Education
– vBNS - NSF (1995)
– Abilene - Internet2 Project/UCAID (1998)
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4. The vBNS
• A high-performance research and education network
developed through cooperative agreement between
the National Science Foundation (NSF) and MCI.
• Five year program inaugurated in 1995.
• ~100 connections made as of January 2000.
• The NSF and MCIW have entered into a three-year
no-cost extension of the cooperative agreement
beginning April 1, 2000.
• Now offers commercial connections as vBNS+.
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5. Internet2 and Abilene
• Internet2 is a consortium of over 170 universities,
founded in 1996, working in partnership with industry
and government to develop and deploy advanced
network applications and technologies, accelerating
the creation of tomorrow's Internet.
• Abilene is a high-performance network for higher
education and industry collaborators within the U.S.
• Abilene and Internet2 are projects of the University
Corporation for Advanced Internet Development
(UCAID).
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Abilene
• Abilene announced in April 1998 by VP Gore at the
White House.
• Indiana University announced in July 1998 as the
Network Operations Center (NOC) for Abilene.
• Abilene became operational February 1999.
• Abilene is the world’s most advanced production
high-speed network.
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The Abilene Project
• Abilene is a high-speed network to:
– support Internet2 applications development
– provide an advanced network testbed
– demonstrate next generation operational and QoS
capabilities
– create facilities for network research
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Abilene Network Engineering Objectives
• Deploy a production network to support Internet2
applications R&D
• Establish network quality of service (QoS)
• Support native multicast
• Utilize GigaPoPs as effective service points
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Abilene Partners
• University Corporation for Advanced Internet
Development (Management)
• Qwest Inc. (Fiber)
• Cisco Inc. (Routers)
• Nortel Inc. (SONET Transmission Equipment)
• Indiana University (Network Operations Center)
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Abilene Characteristics
• 10,000 miles of national backbone operating at 2.4
Gbps (OC48) among GigaPoPs
• Connections to Abilene at 155 Mbps (OC3), 622 Mbps
(OC12), and 2.4 Gbps (OC48)
• Packet/IP over Sonet technology (PoS)
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Access to Abilene Backbone
• Access Nodes are very close to almost all of the
university GigaPoPs
• Access Nodes are located at Qwest PoPs
• Currently there are 131 Access Nodes
– will grow as Qwest SONET plant grows
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Abilene Access Nodes
Seattle
Cleveland
Sacramento
New York
Denver
Indianapolis
Kansas City
Los Angeles
Atlanta
Abilene Core Node
Houston
Abilene Access Node
Operational January 1999
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Abilene Services
• Current
– High Performance (best effort) IPv4
– Performance Measurement
– Multicast
– IPv6
• Future
– QoS via DiffServ (QBone)
– Voice over IP (VoIP)
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Networks Peering with Abilene
• National Research Networks
vBNS
ESNET
iDREN
NREN
• International Research Networks
CA*net
APAN/TransPAC
SURFnet
DANTE
RENATER
NII (SINET)
Tanet
IUCC
NORDUnet
JANET
SingAREN
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The Abilene Network Operations Center
•
•
•
•
Operated by Indiana University
Housed at IUPUI (Indianapolis)
Core engineering team from IU Bloomington & IUPUI
Co-located with the IU, TransPAC, STAR TAP and
Euro-Link NOCs
• 7 x 24 Operation
– Dedicated front-line operators
– Engineers on duty
• To be located in the new Communications Technology
Complex at IUPUI
• http://www.abilene.iu.edu
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The Abilene NOC Weather Map
http://hydra.uits.iu.edu/~abilene/traffic/abilene.html
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6. STAR TAP & HPIIS
Global High-Performance Research & Education Networking
• The growth of international scientific collaborations
leads to requirement for global data communications
infrastructure on par with what is available
domestically.
• The Science, Technology, And Research Transit
Access Point (STAR TAP) is persistent infrastructure
funded by the NSF to facilitate the interconnection
and interoperability of advanced international
networking and applications. STAR TAP anchors the
NSF international connections program (HPIIS)
networks.
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STAR TAP & HPIIS
Global High-Performance Research & Education Networking
• The NSF HPIIS (High Performance International
Internet Services) program solicited international
connections to provide the basis for advanced
network support of international collaboration in
research and education.
• STAR TAP provides a common interconnection point,
HPIIS provides the links to global high performance
research and education networks
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International Network Operations Center
at Indiana University
http://noc.startap.net
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International Network Operations Center
at Indiana University
• IU manages the TransPAC HPIIS project
– http://www.transpac.org
• and provides centralized NOC and engineering for
STAR TAP and the Euro-Link and MIRnet HPIIS
networks
– http://noc.startap.net
• The International Networks NOC is fully integrated
with the Abilene NOC
– http://www.abilene.iu.edu
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International Network Operations Center
at Indiana University
• International and Abilene NOC services include:
– Problem management
– Network monitoring
– Change management
– Documentation
– Reports
– Security management
– Engineering
– Testing & evaluation
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STAR TAP Logical Map
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STAR TAP Physical Architecture
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HPIIS Networks – TransPAC
linking APAN (Asia Pacific Advanced Network)
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HPIIS Networks – MIRnet
linking Russia
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HPIIS Networks – Euro-Link
linking European National Research Networks
• CERN
– European Laboratory for Particle Physics
• IUCC
– Israel Inter-University Computation Center
• NORDUnet
– Nordic Countries' National Networks for Research and
Education
• RENATER2
– France Research and Education Network
• SURFnet
– The Netherlands Research and Education Network
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HPIIS Meets Internet2 –
The Distributed STAR TAP
• The original STAR TAP architecture of a single
interconnection point in Chicago is expected to evolve
to a distributed model supporting multiple
international connecting points.
• Internet2/Abilene is expected to offer transit of
international traffic to provide the underpinning of
the distributed STAR TAP.
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HPIIS Meets Internet2 –
The Old Model
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HPIIS Meets Internet2 –
The Distributed STAR TAP
STAR TAP / NGIX-NORTH
NGIX-WEST
Abilene
SingAREN
TransPAC 2001(?)
Abilene, CA*net3, TransPAC, vBNS,
CERN, SURFnet, ESnet, MIRnet, SINET,
DREN, RENATER, SingAREN, NREN,
TAnet, NORDUnet, IUCC and GEMnet
NGIX-EAST
Abilene, vBNS, DFN,
JAnet, ESnet, SURFnet,
INFN, NORDUnet,
DANTE, CA*net3
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7. Institutional Impact:
Exploiting Internet2 and HPIIS
• The development of information technology at IU is
guided by a comprehensive University-wide strategic
plan, http://www.indiana.edu/~ovpit/strategic/.
• The five-year plan commits expenditures of over
$200M.
• The plan stresses the importance of local, regional,
national and international networking.
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Institutional Impact:
Exploiting Internet2 and HPIIS
•
•
•
•
•
•
•
Switched 10/100Mbps Ethernet to every desktop
Gigabit campus backbone
Upgraded regional campus connections to 45Mbps
Robust optical fiber infrastructure within Indiana
Dark fiber connections between major campuses
Establishment of the State GigaPoP in Indianapolis
Regional Cyberbelt initiative to interconnect IU,
Purdue, the Indiana GigaPoP and potentially NCSA
via dark fiber
• Offered High Performance Network Application
Program grants
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Indiana GigaPoP
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The CyberBelt Initiative
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• IU and EVL at UIC in collaboration with University of
Tokyo and Keio University are organizing iGrid2000 a major research demonstration at the INET2000
conference, July 18-21, in Yokohama, Japan to
showcase the ongoing development of an
International Grid (iGrid) for global community
networking.
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• Over two dozen applications featuring technological
innovations and application advancements requiring
high-speed networks, with emphasis on distributed
supercomputing, tele-immersion, remote
instrumentation, large datasets, collaboration, digital
video, streaming media and high-definition television
will be demonstrated.
• http://www.startap.net/igrid2000
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8. Conclusion
• IU’s exceptional commitment to engagement in local,
regional, national and international networking makes
a major contribution at IU to:
– the development and utilization of advanced tools
for research and education
– the facilitation of global scientific collaborations
– network technology research and development
• Hence this involvement is important strategically to
the research and education missions of the University
and to the development of rich connections and
relationships in global research communities.
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URLs
• Indiana University Office of the Vice President for
Information Technology
– http://www.indiana.edu/~ovpit
• Information Technology @ Indiana University
– http://www.indiana.edu/~itiu
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