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![Page 1: Sang Dong Lee (Dr. Jysoo Lee, Director) Supercomputing Center Korea Institute of Science & Technology Information e-R&D, Grid and e-Science May 2005.](https://reader034.fdocuments.in/reader034/viewer/2022051401/56649e675503460f94b63481/html5/thumbnails/1.jpg)
Sang Dong Lee
(Dr. Jysoo Lee, Director)
Supercomputing Center
Korea Institute of Science & Technology Information
e-R&D, Grid and e-Science
May 2005
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Changing R&D environment
High-speed Internet based Integrated R&D environment IT is recognized as today’s major creative basis for knowledge Fast advancement of the R&D productivity through integration of
traditional S&T and IT
Changing characteristics of modern Science & Technology Expansion •Integration •Complication • Intellectualization • Acceleration
of technology innovation • Reduction of the technology development cycle, and pursuit of challenging technology
IntroductionIntroduction
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IntroductionIntroduction
e-R&D, Grid and e-Science
e-R&D R&D activities on electronic platform such as digital instrument, software
and internet
Grid Integrated R&D activities and research resources for effective use of
increased and expanded R&D resources
e-Science e-R&D activities specialized in the field of Science & Technology
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ContentsContents
e-R&D Background of e-R&D Core subject of e-R&D Examples of e-R&D
Grid Technology Concept and necessity of Grid Classification of Grid Major Grid Projects Market outlook on Grid technology
e-Science Collaboration & Research Productivity Necessity & Possibility of Building Collaborative Environment e-Science Research Environment Expectations from e-Science Research Environment Domestic Status National e-Science Project Future Plans & Expected Outcome
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e-R&D
Background of Advent of e-R&D
Core Subject of e-R&D
e-R&D examples
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Advent of e-R&DAdvent of e-R&D
Necessity for Innovative System
Acceleration of Internet Use in R&D activities Requires R&D process models adequate for new environment
Need for technology innovation management due to distribution of Internet New structure for organizing and analyzing the essence of innovation
Changes in use of IT (Dong-Hyun Park 2002)
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Core subject of e-R&DCore subject of e-R&D
Recent advances in performance of computers and development of various softwares
Fast adoption of computational application in the area of material development
Changing features of R&D
Example : Bioinformatics, in Silico R&D
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Core subject of e-R&DCore subject of e-R&D
Large scale data Automated research equipments Advances in size of Data storage capacity and data production
Large number of computation The number increases by twice every year
High-Speed Network 10~100Giga of Network Capacity
Increased number of mutual processes and collaborative researches Active collaboration of scientists and computer technicians Interaction between numerical computation and data
Changing characteristics of e-R&D
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Core subject of e-R&DCore subject of e-R&D
Develop Data and models Produce data from researches using computer
Deluge of data for everybody example) The number of genetic information increases by twice the number every 9 months
Share geographically dispersed data, information and computation among scientists throughout the world
Summary:
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•Deflection capabilities•Responsiveness
Examples of e-R&DExamples of e-R&D
Whole system simulations are produced by coupling all of the sub-system simulations
Wing Models•Lift Capabilities•Drag Capabilities•Responsiveness
•Thrust performance•Reverse Thrust performance•Responsiveness•Fuel Consumption
•Braking performance•Steering capabilities•Traction•Dampening capabilities
Crew Capabilities- accuracy- perception- stamina- re-action times- SOP’s Engine Models
Airframe Models
Landing Gear Models
Stabilizer Models
Human Models
Numerical analysis of various areas (Boeing )Numerical analysis of various areas (Boeing )
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Examples of e-R&DExamples of e-R&D
ENVISATENVISAT € € 3.5 billion3.5 billion 400 terabytes/year400 terabytes/year 700 users700 users
ground deformation
prior to a volcano
ground deformation
prior to a volcano
Earth Investigation (Disaster forecast)
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Examples of e-R&DExamples of e-R&D
Bioinformatics Collaborative EngineeringMedical/Healthcare informaticsTeleMicroscopyVirtual ObservatoriesRobotic TelescopesHigh Energy Physics
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Grid Technology
(e-R&D IT Infrastructure)
Concept of Grid and its Necessity Classification of Grid Major Grid Projects Market Outlook for Grid technology
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The Concept of Grid(1/2)The Concept of Grid(1/2)
The term comes from the electricity grid: Anyone can use the electricity anytime and anywhere
On-demand creation of powerful virtual computing systems
http://
http://
Web: Uniform access to HTML documents
Grid: Flexible, high-perf access to all significant resources
Sensor nets
Data archives
Computers
Softwarecatalogs
Colleagues
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InstrumentsComputing Resources
Database
Knowledge Human resources
Solve problems
Challenging problems
GRIDGRID
The Concept of Grid(2/2)The Concept of Grid(2/2)
Core technology and management system for sharing high-performance computers, large scale database, various high-end IT facilities connected through network
Experimental equipments
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Grid in MoviesGrid in Movies
MATRIX2
Directed by : Larry Wachowski, Andy WachowskiStarring : Keanu Reeves, Carrie Ann-Moss, Hugo Weaving, Joe Pantoliano, Gloria Foster Genre : Action, SFRun time : 138minYear : 2003Country : USA
(( 영화속의 장면영화속의 장면 : 49:34): 49:34)
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Computational Grid Distributed collaborative computation resources (metacomput
ing resources) Enables ultra large scale, high-speed computation and remote control
Data Grid Analysis and management of geographically distributed large-scale data International collaboration using high-speed Internet Examples of areas) High-energe physics, Bioinformatics, Earth observation
Access Grid Human interface for supporting collaborative activities Real-time remote conference and collaborative researches on Grid infrastructu
re
Classification of Classification of GridGrid
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Major Grid ProjectsMajor Grid Projects
Major Grid Projects in IT Advanced CountriesMajor Grid Projects in IT Advanced Countries
Tera Grid ProjectTera Grid Project(US)(US) Connecting supercomputing resources in major 4 sites in USConnecting supercomputing resources in major 4 sites in US 153 M USD (2000~2007)
Data Grid ProjectData Grid Project(EU)(EU) Building Grid for data processing in the areas of High-energyBuilding Grid for data processing in the areas of High-energy, environmental science, bioinformatics 183 M EURO (1998~2007)
NAREGI ProjectNAREGI Project(Japan)(Japan) Building Grid infrastructure for national R&D activities 360 M USD (2003~2007)
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Major Grid ProjectsMajor Grid Projects
National Grid Project in KoreaNational Grid Project in Korea
Under the ‘Under the ‘National Basic Plan for GridNational Basic Plan for Grid’’ Supervised by: Ministry of Information & Communication
Managed by: Korea Institute of Science & Technology Information
Budget: 43.5Billion(2002~2006)
Activities: Construction of Grid infrastructure, Grid middleware develo
pment, Grid standardization, Grid Forum Korea(GFK)
International Grid ActivitiesInternational Grid Activities
Invited the 13Invited the 13thth Global Grid Forum (GGF13) in Seoul, March 2005 Global Grid Forum (GGF13) in Seoul, March 2005
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Market OutlookMarket Outlook
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Market OutlookMarket Outlook
Grid is the next generation computing resources for enterprises: The global population
will be connected to Grid and the large population will become their customers.
Therefore, industry sees the potential of Grid and is devoting full efforts on researches,
standardization of Grid and its business.• Report on Grid Computing Technology and Market Investigation (2002)--
0
1000
2000
3000
4000
5000
6000
7000
8000
2002 2003 2004 2005
$ M
illio
ns Services
Software
Storage
Server
Market SizeMarket Size
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e-Sciencee-Science
Collaboration & Research Productivity
Necessity & Possibility of Building Collaborative Environment
e-Science Research Environment
Expectations from e-Science Research Environment
Domestic Status
National e-Science Project
Future Plans & Expected
Promoting National Science & Technology Innovation
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Source: 'Researcher's Productivity chart', Prototyping an Earth System Grid, DOE
Collaboration & Research ProductivityCollaboration & Research Productivity
In an era of digital economy, collaboration can decrease cost as well the complexity of an organization
- “Coase’s Law”
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Collaboration & Research ProductivityCollaboration & Research Productivity
Current research environment
Limited collaboration and resource sharing due to restricted research activities and information exchanges
Difficult to connect and use distributed S&T resources due to time and space limit
Ineffective R&D, low productivity
Needs for geographically-dispersed collaborative research environment arises
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Collaboration & Research ProductivityCollaboration & Research Productivity
Present Research Environment
Faster advancement of networking technology (double in speed every 9
months) than that of computers (doubling every 18 months)
Development of Grid technology to integrate geographically distributed
research equipments Overcome time & space limits for research
Advent of very large scale scientific problems in such areas as High-energy
physics and Space Science requires ultra-large experimental equipment and
sharing of data analysis
Requires distributed collaborative research environment
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e-Science R&D Environmente-Science R&D Environment
What is e-Science R&D environment?
Virtual R&D environment for distributed collaborative researches by
using Grid, the next-generation internet service, as a core infrastructure for
integrating and coordinating geographically distributed high-performance
computers, large-scale data storages, high-end database and high-end
experimental equipments through high-speed network
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Changes in Research Environment
Current & past R&D environment(Serial)
Next-generation R&D environmentNext-generation R&D environment(Collaborative & integrated)(Collaborative & integrated)
e-Science R&D Environmente-Science R&D Environment
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Collaboration of High-end R&D resources
Build huge virtual resource by connecting geographically distributed high-end
R&D resources
Able to run grand-challenge research projects
Automatic connection to heterogeneous resources
Example) Remote science, Digital climate forecasting system
Environment for sharing data from observation & experiment
Example) Protein data bank, Image information from climate satellites
Environment for remote collaboration
Telecommunication & information sharing through Access Grid
Maximize the use of S&T resources
Expected results of e-Science R&D EnvironmentExpected results of e-Science R&D Environment
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Domestic EnvironmentDomestic Environment
World-class IT & “S&T” Infrastructure
Supercomputer(NEC SX-5/6)
Large-scale Research Equipment(UHV- TEM)
Large-scale Research Equipment(Pohang Synchrotron
Lightsource Accelerator)
Tera Cluster(Domestic technology)Supercomputer(IBM p690)
Large-scale Research Equipment(Neutron Application Reactor-Hanaro)
Top 7
World
’s Top
Class
Network Infrastructure(Minimum 2.5GBps )
Currently carrying out the project “National Grid Infrastructure Development” for integrating and coordinating Supercomputers, Data Storage, Visualization System, Research Equipments 2002-2006 /43.5Billion
Domestic infrastructure & Role of KISTI
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Domestic EnvironmentDomestic Environment
Area : High-speed Research Network (KREONET) Giga backbone deployment and services
Characteristic: Seoul-Daejeon(10Gbps), 12 local network centers (2.5Gbps)
- Integrated monitoring system service (24 hours), Apply next-generation technology (IPv6, QoS, Multicast)
Results: High-end application (e-Science, Grid) needs based InfrastructureSingaporeSingapore(APII)(APII)JapanJapan(APII)(APII)EuropeEurope(TEIN)(TEIN)
SuwonSuwon SeoulSeoul IncheonIncheon
DaejeonChonaChonann
GwangjuGwangju
JeonjuJeonjuChangwonChangwon
BusanBusan
PohangPohang
DaeguDaegu2.52.5GG
2.52.5GG
10G10G2.52.5GG
2.52.5GG
12 Area Backbone12 Area Backbone★★200 R&D Organizations200 R&D Organizations
SuperSIReNSuperSIReNDaedeok Science TownDaedeok Science Town
KKAAIISSTT
KKRRIIBBBB
KKBBSSII
2G2G
2G2G
1G1G IX/DacomIX/Dacom
EP-NetEP-Net
STAR TAPSTAR TAP*S*StartarLLighigh
ttAbileneAbilene
6TAP6TAP
1G 1G (Daejeon)(Daejeon)
KOREKORENN
KOREKORENN
SURFNetSURFNetSURFNetSURFNet
CA*netIIICA*netIIICA*netIIICA*netIII vBNSvBNS vBNSvBNS
155M155M
6M
1G
17M
2.52.5GG
2.52.5GG 2.52.5
GG 2.52.5GG
5G5GIX/KTIX/KT1G1G
KKIIGGAAMM
CCNNUU
KKAARRII
☆
155M155M
6NGIX6NGIX
InternInternetet
USAUSA
InternInternetet
USAUSA
KIXKIXR&D UsersR&D Users
R&D UsersR&D Users
1010GG
1G1G1010GG
1G1G
1010GG
1010GG
1010GG
IPv6 UsersIPv6 Users
155M 155M (Seoul)(Seoul)
R&D UsersR&D Users
R&D UsersR&D Users
APII Test- bed
Advancing High-speed Research Network
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USA
155Mbps
1Gbps
APII8Mbps
Japan
Singapore
Malaysia34Mbps
TEIN
France(Renater/GEANT)Chicago
Seattle
1Gbps
1Gbps
Toronto
To StarLight
Moscow
Novosibirsk
Hong Kong
Amsterdam
GLORIAD(USA-Russia-China-Korea)
10GbpsBeijingCNIC/CAS
Kurchatov Inst./MISTNCSA/NSF
BusanKISTI/MOST
155Mbps
GLORIAD (GLObal RIng network for Advanced application Development)
Definition : The world’s first global science & technology network connecting the continents with 10Gbps ring-type lambda network (Funded by Korea, US, Russia, and China)
Application : Serve as international collaborative network for high-end science and technology areas such as high-energy physics, bioscience and nuclear fusion that require real-time large scale data transfers
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National e-Science ProjectNational e-Science Project
What is National e-Science Project What is National e-Science Project ??
Overview of the ProjectOverview of the Project
Objective: To deploy world’s top-class e-Science environment by 2010 Project period: 2005 ~ 2007 (Phase I: Build foundation for e-Science) 2008 ~ 2010 (Phase II: Completion of e-Science environment) Total budget: 102.7 Billion KRW (Phase I&II, 6 years) Supervisor: Ministry of Science and Technology Manager: Korea Institute of Science & Technology Information
The National e-Science Project is a The National e-Science Project is a national R&D project for developing technologiesnational R&D project for developing technologies to to bring about e-Science environment and activities by coordinating and integrating bring about e-Science environment and activities by coordinating and integrating geographically distributed researchers, research equipments and information.geographically distributed researchers, research equipments and information.
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National e-Science ProjectNational e-Science Project
Goals of the National e-Science Project
Goals
Develop & Deploy top-level (US, UK, EU) e-Science Infrastructure
“Anytime, anywhere, anyone” can access High-end research environment
2010
2007
Build full-scale e-Science environment2006
Preparation for e-Science environment deployment2005
e-Science Model R&D
e-Science R&D
Advance research productivity through e-Science
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Strategies & Goals of e-ScienceStrategies & Goals of e-Science
Maximize use of domestic research results
Focused development of founding technology, core technology
Focused development of highly effective Killer Application(Core applicati
on)
Collaboration of industry, university and institutes
MOST : “National e-Science” MIC : “National Grid” MOCIE: “National e-Business” MOHW : “National e-Health” NSTC : Mediation & evaluation of the roles of each Ministry
Early Deployment
Collaboration ofMinistries
SuccessModel
National e-Science Strategic Plan
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Deploy national e-Science R&D environment by
expanding the National Grid infrastructure
Future OutlookFuture Outlook
National e-Science R&D EnvironmentNational e-Science R&D Environment
e-Science R&D environment will
bring innovation to the national
science and technology R&D by
integrating distributed high-end
S&T infrastructure (Computing
resources, network resources, data
resources, experimental equipment
and human resources)
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High-end science and technology infrastructure will merge into e-Science environment,
which will provide the vision for the 21st century with high-end application technology(6T)
and open up a bright future with science and technology
Portal for international collaborationPortal for international collaboration
Web serviceWeb service
High-performance cluster computers, high-end research equipments over the High-performance cluster computers, high-end research equipments over the worldworldSupercomputer
and Large-Scale Storage
High-High-performance performance
Engine Engine DesignDesign
Climate forecastClimate forecast
Future OutlookFuture Outlook
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ConclusionConclusion
In the 21st century the value of knowledge and information will decide the future of individuals and nations
Requires effort on the development of next-generation, promising new integrated technology based on information technology
Requires Grid technology based e-Science environment applicable to the areas of welfare, industry, science, education, health
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The world is going through a rapid change into e- R&D based science and technology environment
Requires active response to the changes from provider-centric to customer-centric environment, and from infrastructure to application
We shall be the leader of the innovation and promote the national knowledge & information society of the 21st Century
ConclusionConclusion
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Thank you!Thank you!
“e-Science is about global collaboration in key areas of science, and the next generation of infrastructure that will enable it.” John Taylor