Title: GLOBAL RING NETWORK FOR ADVANCED APPLICATIONS DEVELOPMENT RussiaChinaUSA Science
1GLOBAL RING NETWORK FOR ADVANCED APPLICATIONS
DEVELOPMENTRussia-China-USA Science Education
Network
April 14, 2003
Greg Cole, Natasha Bulashova, National Center
for Supercomputing Applications (NCSA) University
of Illinois at Urbana-Champaign (gcole_at_uiuc.edu,
natasha_at_uiuc.edu)
2Presentation Objectives
- Update on US-Russian NaukaNet Program
- Introduce Russia-China-USA GLORIAD program
3NaukaNet Overview
- 5 year 4.1 million NSF Cooperative Agreement
under HPIIS Program - Co-funded by Russian Ministry of Industry,
Science Technology - 1998-2001 MIRnet
- Univ of Tennessee
- 6 Mbps ATM Service (Moscow M9 - STARTAP)
- 2001-2002 FASTnet
- NCSA, Univ of Illinois at Urbana-Champaign
- 45 Mbps ATM Service (Moscow M9 - STARTAP)
- 2002-June, 2004 NaukaNet
- 155 Mbps POS Service (Moscow M9 - Starlight)
- Upgrade in 2003 to 2x155 Mbps POS Service
5 year goal
4NaukaNetTraffic Growth, 1999 - 2003
5NaukaNetGrowth in IP Flows gt 200 Mbytes
6Number of Unique IP Addresses Using NaukaNet,
2000-2002
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8NaukaNetTraffic to Novosibirsk, Russia
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13Top Institutional Users of NaukaNet in
RussiaNov. 2002
14Top Institutional Users of NaukaNetin U.S.,Nov.
2002
15Application Communities
- High Energy Physics
- International Thermonuclear Experimental Reactor
(ITER) - Atmospheric Sciences
- Spallation Neutron Source
- Space Sciences Cooperation
- Astronomical Sciences/IVO
- US-Russian Plutonium Disposition Project
- Non-proliferation/Arms Control Program
- US-Russia Materials Protection, Control
Accountability Program - Security Studies/Issues
- Geosciences
- Bioinformatics
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18NaukaNet Congestion ahead
19Near-Future Plans
- Add second OC3 Starlight - Moscow
- Complete European exchange for Russia-Europe
traffic - Improved (live) Monitoring System
- Access Grid Node in Moscow
- Switched Ethernet testbed project
(Moscow-Novosibirsk) - New IPv6 Services / experimentation
- June Conference in Moscow and St. Petersburg
- Russian domestic infrastructure improvement
20GLOBAL RING NETWORK FOR ADVANCED APPLICATIONS
DEVELOPMENTRussia-China-USA Science Education
Network
21Why GLORIAD?
- Time to develop follow-on to NaukaNet program
- Science applications demand it (HEP, ITER, NVO,
Atmospheric Sciences, Spallation Neutron Source,
Nanomaterials collaborations, network security,
etc.) - Desire to extend SE network in Russia to Far
East - TransTelecom network in place
- Highest level interest in US for improving
US-China SE cooperation - Highest level interest in Russia for improving
Russia-China SE cooperation - Good opportunity to develop general framework for
tri-lateral cooperation around a most advanced
SE network
22Introduction to GLORIAD
- Proposed network/program to be operational in
2004 - Co-developed (and to-be-co-funded) by U.S.,
Russia, China - Expanded capacity for science and education
collaboration (10 Gbps) - New Global Ring topology for reliability and
new applications - Essential for supporting advanced SE
applications (particularly HEP, Astronomy,
Atmospheric Sciences, optical network research,
network security research) - Follow-on to US-Russian NaukaNet Program
23Details (initial proposal)
- Layer 1 10 Gbps Lambda ring across Russia,
China, US (and the oceans between) (likely access
point in Amsterdam also) - Layer 2 Switched Ethernet
- Layer 3 IPv6
- Program to develop network management,
utilization, monitoring, resource allocation and
scheduling tools - Program to develop Cyberinfrastructure supporting
SE collaboration - Program to educate potential users and to
educate/inform continuously scientists/educators
in all 3 countries about opportunities to
collaborate
24The 4 Layer GLORIAD Model
Application Communities
Scientists, educators, policy-makers, public
organizations, students
Collaboration Framework
Middleware/grid tools, technologies tying
together networks, computers and communities
Sculpted Network Platform
Ethernet (layer 2) switching, IPv6 migration,
Network monitoring and management (scheduling,
allocation) tools
Lightwave/Lambda Network
Lambda-based network optical switching
25Goal Applications
- Network will carry the full mix of SE traffic
- Emphasis, however, on supporting single
applications that need Gbps capacity - ITER-Grid (US, China have just (re-) joined)
- HEP LHC data distribution
- National Astronomy Virtual Observatory
- Climate change / atmospheric sciences
- Digital Sky
- Digital Earth
- Wavelength Disk Drive (based on Canadian efforts)
- Data mining, security monitoring and
visualization - Large scale digital video services
26Serving Major Science/Education Application Areas
- GLORIAD is being developed to serve global SE
collaborations. The following lists a few
typical programs or program areas in which at
least two (and in many cases, all three) of the
countries jointly participate. - USA International Space Station Alpha DOE Arms
Control Policy Studies National Nanotechnology
Initiative Human Genomics Nuclear Threat
Initiative (NTI) Grid Physics Network
Cooperative Threat Reduction Program MPCA
Antarctic Research Programs Earth Observation
The Globe Program - Russia ITER Large Hadron Collider (LHC)
U.S.-Russia Joint Commission on Economic
Technological Cooperation Seismic / Geological
Research Programs HERA-B (proton-electron
accelerator) Forest and Wildfire Research
Controlled Thermonuclear Fusion Irkutsk Project
Junior Achievement Simple Words Childrens
Program Neurosurgery International Plasma
Physics - ChinaYangtze River / Three Gorges Space
Telescope Program Large Radio Telescope (FAST /
KARST) U.S.-China National Laboratory
Interactions in Arms Control / Nonproliferation
China Biodiversity Network U.S.-China Joint ST
Commission Russia-China Oil Pipeline Project
Shanghai Cooperation Organization
27Technical Details (initial proposal)
- Initial capability to switch multiple ethernet
segments - Later capability to switch multiple lambdas (year
3) - Optical (initially, Ethernet) switches in Chicago
(Starlight), Amsterdam (NetherLight), Moscow
(RusLight), Novosibirsk (SiberLight), Beijing
(ChinaLight), Hong Kong (HKLight) - Self-healing ring topology (ex if network outage
across Atlantic, US traffic to Moscow transits
Pacific/China/Siberia) - IPv6 proposed for advanced applications,
security, future of IP networking
28A series of Starlight type facilities providing
services for lambda-switching, ethernet-switching
, IPv6 routing, IPv4 routing. Also, a testbed
for advanced network research.
29Russian Backbone Network (RBnet)
30China CSTNet (800 research facilities/institutions
)
31US High Performance Network (Abilene, pictured
here, is one of several US networks others
include DOEs Esnet, NASAs NREN, US Govt
network, etc.)
32Financing
- Proposed 5 year Project (2003-2008)
- Backbone cooperatively managed by US, China,
Russia partners - Project cooperatively funded by US, China,
Russia. - US commitment anticipated at 2.5M annually
- Proposal each country funds transit across its
territory. - US funds 1/2 circuit to Russia and 1/2 circuit to
China. - Russia funds 1/2 circuit to US.
- China funds 1/2 circuit to US.
- Each country funds personnel, equipment,
operations necessary for full program operation
(i.e., distributed 24/7 NOC, training/support,
security services, grid development, etc.)
33Organizational Details
- Russian Federation Kurchatov Institute (Dr.
Velikhov), Russian Academy of Science (Dr.
Velikhov), Joint Supercomputing Center (RAS),
Ministry of Industry, Science Technology,
Ministry of Communications, Ministry of
Education, Ministry of Atomic Energy.
(TransTelecom likely network provider) - Peoples Republic of China CSTnet/CNIC, Chinese
Academy of Science. (Dr. Jiang) - U.S.A. University of Illinois National Center
for Supercomputing Applications (lead
university), National Computational Science
Alliance, U.S. National Science Foundation, U.S.
Department of Energy. (several telecomm companies
being evaluated as possible network providers)
Also, National Academy of Engineering, San Diego
Supercomputing Center, Argonne National
Laboratory, Oak Ridge National Laboratory, Sandia
National Laboratory, International Center for
Advanced Internet Research (ICAIR) at
Northwestern University, others. (Challenge must
present a nation-wide consortium of U.S. SE
community to match interest/level of commitment
in Russia and China)
34Academician Evgeny Velikhov
- Academician, Russian Academy of Science
- Academician-Secretary, Info. Computing
Division, RAS - President, RRC Kurchatov Institute
- Science Advisor, President, Russian Federation
- Leader, ITER
- Leader, Russian NaukaNet (GLORIAD)
- Founder and Director, Russian Junior Achievement
35Mianheng Jiang
- Vice President, China Academy of Sciences
(Computing and IT Division) - Telecommunications/IT developer in China
- Leader, China GLORIAD program
36Baoping Yan
- Director, Computer Network Information Center,
China Academy of Sciences
37Organizing Trip to BeijingDecember 7-16, 2002
38GLOBAL RING NETWORK FOR ADVANCED APPLICATIONS
DEVELOPMENTRussia-China-USA Science Education
NetworkOrganizing Tripwith Chinese Academy of
SciencesComputer Network Information Center
(CNIC) December 7 - 16, 2002Beijing, Peoples
Republic of ChinaVisitorsAcad. Evgeny
Velikhov, Kurchatov InstituteNatasha Bulashova,
NCSA, University of IllinoisGreg Cole, NCSA,
University of Illinois
39Trip Purpose
- Explore Opportunities to Expand the US-Russian
NaukaNet SE Program with partners from Chinese
Academy of Science (CAS), with CAS CSTnet and
with a global ring network based on lightwave
technology
40Trip Results
- December 14, 2002
- Memorandum of Understanding Signed by China
(Jiang Mianheng), Russia (E. Velikhov), and US
(G. Cole) to develop GLORIAD
41Trip Results
Consensus Reached on GLORIAD program With Plans
for Program Development, Program Management,
Network Topology, Technology, Science
Collaborations
42The Memorandum of Understanding
The Chinese Academy of Sciences represented by
the Computer Network Information Center (CNIC),
the Russian Research Center Kurchatov Institute
and the US National Center for Supercomputing
Applications (NCSA) of the University of Illinois
jointly propose a new strategic framework for
advancing SE cooperation among the three
countries and across the myriad disciplines
comprising current and future collaborative
research. Linking their scientific communities
with an advanced SE network and Grid-based
services, the multi-national GLORIAD program will
actively encourage and coordinate applications
across multiple disciplines and provide for
sharing such scientific resources as databases,
instrumentation, computational services,
software, etc. In addition to supporting active
scientific exchange with network services, the
program will provide a test bed for advancing the
state-of-the-art in collaborative and network
technologies including Grid-based applications,
optical network switching, an IPv6 backbone,
network traffic engineering and network security.
Supporting the increasing growth in global SE
cooperation, GLORIAD will cooperate with other
national SE networks and scientific resources as
required.
43Lightwave/Lambda Network
- 10 Gbps Lambda Continuous Ring (segmented into
multiple GigE ethernets) - Need to decide carrier issues, meet points, etc.
- Russias network will be ready (to Russia-China
border) in late 2003 - Chinas network will be ready (to Russia-China
border) in early 2004 - Important in later phase of project (year 3) that
we have multiple lambdas (at least, when needed)
and capability to switch lambdas on demand
44Action Items
- Determine carrier issues for trans-Atlantic and
trans-Pacific links. Must choose carrier with
stable financial base, excess lambda capacity,
eagerness to work on large RD project. - Finalize arrangements with Russian company
TransTelecom - Finalize transit issues within and to/from China
- Finalize network topology (optical nodes,
facilities, equipment)
45Resource Access/Scheduling System
- Provide for ability to advance-schedule resource
allocation requests end-to-end - Software system to automatically update network
devices - Must handle Level 2 switching for end-to-end VLAN
provisioning - Must handle Level 3 routing for providing
improved QoS through core network (for example,
using MPLS or other service) - Must by year 3 provide for scheduling/switching
(at optical level) lightwaves - Must provide back-end reporting and surveying to
determine how well network met customers needs
46Collaboration Framework
- Middleware/grid tools, technologies
(Cyberinfrastructure) - Collaboration
- Sharing of computational resources
- Sharing of storage/data resources
- Sharing of expensive/scarce instrumentation,
sensor data, etc.
47Global Grid Development
- GLORIAD will provide the network linking GRID
communities in US, Russia and China (and, via
Starlight and Netherlight, other countries) - Will support the general US-Russian NaukaGrid
program and other focused Grid communities
48ITER-Grid Development
- Dr. Velikhovs goal Virtual ITER sites with
ready, immediate access to conferencing
facilities, live data streams generated by
experiments/operations, distributed access to
computational resources, remote instrumentation,
monitoring and control applications. - Need conferencing/lecture capabilities
immediately (AG?) - Network needs will eventually exceed 10 Gbps
- Preparing concept paper on what the ITER-Grid
will be - Would like to propose joint development effort
NCSA, Argonne, ORNL, others?
49Kurchatov Institute Conferencing Facilities
- Currently based on several H.323 (polycom)
devices - Would like to add Access Grid node
- Useful for KI collaborations with NCSA, ORNL,
Argonne, Sandia, ITER/fusion community - Useful model for other Russian sites (implement
multicast network across Russian SE network) - NaukaNet network capable
50Application Communities
- GLORIAD is to focus on application communities -
especially those with needs which could not be
met without such an advanced network - First, need to identify and document needs of
these communities - Second, need to educate/inform scientists,
educators, students about potential services,
capabilities - Third, need to continually inform/update broad
community about opportunities of collaboration
51Active interest in GLORIAD program
- Signed Statement of the US-Russian Joint
Committee for Science and Technology (J.
Marburger, M.P. Kirpichnikov) - Presentation to Presidents Science Advisory
Council, Russian Federation - Signed Agreement (March 12, 2003) between 7
Russian Ministries, Russian Academy of Science
RRC Kurchatov Institute
52Signed Statement of US-Russian ST Commission
Informational and Telecommunication Technologies
in Science and Education The Committee gave a
favorable appraisal of the results achieved
through cooperation between the Russian Ministry
of Industry, Science, and Technology (MIST) and
the Russian Academy of Sciences (RAS) and the
U.S. National Science Foundation (NSF) on high
capacity computing and new generation computer
networks, including under the NaukaNet (FASTnet)
Project, carried out by the Interagency
Supercomputer Center, the Russian Science Center
Kurchatov Institute, the National Center for
Supercomputing Applications (University of
Illinois, Urbana-Champaign), and the
Supercomputer Center at the University of
California, San Diego. The Committee recommended
that U.S. and Russian cooperation partners
continue their active cooperation and discussions
of the potential of next-generation computing and
networking projects, such as those envisioned as
the "TERRA GRID" network and the Global Network
For Advanced Application Development (GLORIAD).
53Presentation to Russian ST Council
January 2003 The forum was the President's
Science Technology Council and the participants
included -- in addition to the President (who
presides over this council) -- the nation's most
senior science officials (including the Minister
of Science, Industry Technology, the President
of the Russian Academy of Science and the
President of the Kurchatov Institute (Dr.
Velikhov)), and also the Finance Minister (and
Vice Premier), the Minister of Commerce, the
Minister of Atomic Energy and the head of the
National Security Council. Where the
Kurchatov Institute leads, Russia follows
(Russian President)
54Signed Russian Agreement
- On Wednesday, March 12, 2003, Dr. Velikhov placed
the final signature on a document developed by 7
senior organizations in Russia indicating support
and intention to pursue implementation of
GLORIAD. - It was signed at the Minister level by Ministry
of Industry, Science Technology, Ministry of
Communications, Ministry of Atomic Energy and
Ministry of Education. Also, the President of the
Russian Academy of Sciences signed on behalf of
the Academy and Dr. Velikhov on behalf of
Kurchatov Institute (and as project
organizer/lead). - The agreement is to not only fund the
international and networking parts of GLORIAD but
also domestic infrastructure and programs to
enable the science and education communities to
utilize GLORIAD. - Finally, we understand that Russian federal funds
are now obligated for GLORIAD -- from the above
organizations -- the Ministry of Industry,
Science Technology will be the financially
responsible organization.
55GLORIAD Proposal
- Ready in summer, 2003
- Joint proposal preparation so that document is
useful in US, Russia and China - Primary focus on applications served by unique
network services as well as advanced network
research development test bed - Beginning to coordinate closely with other HPIIS
teams TransPAC (J. Williams), EuroLink (T.
DeFanti), Starlight (T. DeFanti, J. Mambretti)
(next meetings May 2003)
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60GLORIAD Management Team Issues
- Science and Network Policy
- Cybersecurity
- Export Control Issues
- Technical Network Engineering
- Grid Development
- Corporate Relations
- Government Relations
- Cultural Affairs
- Youth Programs/Applications
- Evaluation and Audit
61Other Events/Project Ideas/Plans
- April 14 discussions with Russian/Chinese
partners (Washington) - Workshop in June (ship, St. Petersburg Russia)
- International Simple Words program (global
essay contest for children) - Program to encourage science/education
collaboration among young people (School-Grid) - US-Russia-China Edu-Cultural Channel
62 the end (thank you!)