Challenges of e-Science Development in Asiaevent.twgrid.org/isgc2004/presentation/0727/Simon...
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Challenges of e-Science Development in Asia
Simon C. LinAcademia Sinica Computing Centre
andInstitute of [email protected]
27 July 2004
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An Exponential World
• Network vs. computer performance– Computer speed doubles every 18 months
– Network speed doubles every 9 months
– Difference = order of magnitude per 5 years
• 1986 to 2000– Computers: x 500
– Networks: x 340,000
• 2001 to 2010– Computers: x 60
– Networks: x 4000––Moore’s Law vs. storage improvements vs. optical improvements. Graph from Scientific American (Jan
-2001) by Cleo Vilett, source Vined Khoslan, Kleiner, Caufield and Perkins. Source: Ian Foster
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The Unprecedented Ten Years
• Networking from 100Kbps to Gbps• Computing from 100MFLOPS to TeraFLOPS• Storage from 100GigaBytes to PetaBytes
• We are producing 3 x 1018 Bytes of data each year• Most business processes, research, learning,
commerce, socialising, etc. may be conducted on the Internet
• Internet and Digital Technology together bring in revolutionary ways to communicate, deal with information and collaborate
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• It will continue to grow until 2010, then it may slow down or even break
• By 2010, Desktop CPU will reach 30 GHz, PDA will run @ 5 GHz according to Intel
• Alternative Computing such as Quantum Computing will be far from ready by then
• We need some low-cost means to integrate global distributed computing resources to drive the economics growth and answer the R&D demand
Exponential Law continue to Grow until ...
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Actual Internet Map
• It looks amazingly similar to Neural Net in terms of Connectivity
• It’s a Scale-Free Network
• Everything over IP
• Always-On
• Everywhere
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•
• NGI, Next Generation Internet• This Internet will be so pervasive,
reliable and transparent that we'll all just take it for granted. It will be a seamless part of life--like electricity or plumbing.
• Hoping to create an Internet that’s Fast, Always On, Everywhere, Natural, Intelligent, Easy, Trusted
Vision for NGI
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Grid Concept
• Analogy with the electrical power grid– “On-demand” access to ubiquitous distributed
computing– Transparent access to multi-petabyte distributed data
bases– Easy to plug resources into– Complexity of the infrastructure is hidden
• “When the network is as fast as the computer's internal links, the machine disintegrates across the net into a set of special purpose appliances” (George Gilder) Source: Ian Foster
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• Open, Integrated, Virtualised, Autonomic• Open: Open Source model and Open
Architecture• Integrated and Virtualised: Invisible
Computing, hide all system complexities• Autonomic: Integrate redundant and
replicated commodity components to create a highly-available system instead of expensive hardware solutions
Attributes of On-demand Computing
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Elements of the Grid
• Resource sharing– Computers, storage, sensors, networks, …– Heterogeneity of device, mechanism, policy– Sharing conditional: negotiation, payment, …
• Coordinated problem solving– Integration of distributed resources– Compound quality of service requirements
• Dynamic, multi-institutional virtual orgs– Dynamic overlays on classic org structures– Map to underlying control mechanisms
Source: Ian Foster
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A 3-Point Checklist for a GRID (I. Foster)
• a GRID coordinates resources that are not subject to centralized control and live within different control domains and addresses the issues of security, policy, payment, membership… that arise in these settings. (i.e. it is no local management system.)
• uses standard, open, general-purpose protocols and interfaces (i.e. it is not an application-specific system).
• to deliver nontrivial qualities of service ... a GRID allows its constituent resources to be used in a coordinated fashion to deliver various qualities of service ( response time, throughput, availability, and security, and/or co-allocation of multiple resource types ). So the utility of the combined system is significantly greater than that of the sum of its parts to meet complex user demands.
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A brief timeline
• Interest in parallel and distributed computing in the 80s.
• Testbeds connecting American supercomputing centres in the late 90s.
• Foster, Kesselman: “The Grid: Blueprint for a New Computing Infrastructu-re”, 1998.
• Lots of software development – Globus, Legion, Condor, NWS, SRB, NetSol-ve, AppLes, Unicore – but not much actual use.
• Around 2000 grid interest starts to boom. High energy physics driving force– especially CERN. Globus toolkit becomes leading middleware.
• 2002–2003: Commitment from big players in industry. Hype levels are rising.OGSA/OGSI standards emerge.
People have been thinking of these things for a long time. Many of the problemsinvolved are non-trivial.
15/44
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What is e-Science?
• “e-Science is about global collaboration in key areas of big science and the next generation of infrastructure that will enable it”
•
by Dr John TaylorDirector General of the UK Research Councils
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http://www.rcuk.ac.uk/escience/
• What is meant by e-Science? In the future, e-Science will refer to the large scale science that will increasingly be carried out through distributed global collaborations enabled by the Internet. Typically, a feature of such collaborative scientific enterprises is that they will require access to very large data collections, very large scale computing resources and high performance visualisation back to the individual user scientists.
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e-Science Vision
• e-Science and information utilities– Science increasingly done through distributed
global collaborations between people, enabled by the Internet
– Using very large data collections, terascale computing resources, and high performance visualisation
– Derived from instruments and facilities controlled and shared via the infrastructure
– Scaling x1000 in processing power, data, bandwidth
Source: Ian Foster
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Induction: What is e-Science and Grid computing? –April 26-28, 2004 - 11
The Emergence of e-Science
• Invention and exploitation of advanced computationalmethods• To generate, curate and analyse research data
• From experiments, observations and simulations• Quality management, preservation and reliable evidence
• To develop and explore models and simulations• Computation and data at extreme scales• Trustworthy, economic, timely and relevant results
• To enable dynamic distributed virtual organisations• Facilitating collaboration with information and resource
sharing• Security, reliability, accountability, manageability and agility
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Evolution of the Scientific Process
• Pre-electronic– Theorize &/or experiment, alone or in small
teams; publish paper
• Post-electronic– Construct and mine very large databases of
observational or simulation data– Develop computer simulations & analyses– Exchange information quasi-instantaneously
within large, distributed, multidisciplinary teams
Source: Ian Foster
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Evolution of Business
• Pre-Internet– Central corporate data processing facility– Business processes not compute-oriented
• Post-Internet– Enterprise computing is highly distributed,
heterogeneous, inter-enterprise (B2B)– Outsourcing becomes feasible => service
providers of various sorts– Business processes increasingly computing- and
data-rich
Source: Ian Foster
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The LHC Data Challenge
• A particle collision = an event
• Provides trivial parallelism, hence usage of simple farms
• Physicist's goal is to count, trace and characterize all the particles produced and fully reconstruct the process.
• Among all tracks, the presence of “special shapes” is the sign for the occurrence of interesting interactions.
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The LHC Data Challenge
• Starting from this event
• You are looking for this “signature”
Selectivity: 1 in
1013
Like looking for 1 person in a thousand world populations!
Or for a needle in 20 million haystacks!
Src: CERN
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LHC Data
• 40 million collisions per second
• After filtering, 100 collisions of interest per second
• A Megabyte of digitised information for each collision = recording rate of 0.1 Gigabytes/sec
• 1011 collisions recorded each year = 10 Petabytes/year of data
• Data: ~15 Petabytes a yearProcessing: ~ 100,000 of today’s PC’s
• Networking:10 – 40 Gb/s to all big centres
• computing centres, which were isolated in the past, will now be connected, uniting the computing resources of particle physicists in the world using GRID technology!
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LHC Computing Grid Challenges
• that requires at least 200 TeraFlops, tens of PetaBytes of Data generated annually by 2007
• it may grow to the scale of ExaBytes of Data and PetaFlops Computing by 2015
• How to solve such a problem?
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Peak Speed for Supercomputing Tasks
• Automotive Development: 100 TeraFlops• Human Vision Simulation: 100 TeraFlops• Aerodynamic Analyses: 1 PetaFlops (10^15)• Laser Optics: 10 PetaFlops• Molecular Dynamics in Biology: 20 PetaFlops• Aerodynamic Design: 1 ExaFlops (10^18)• Computational Cosmology: 10 ExaFlops• Turbulence in Physics: 100 ExaFlops• Computational Chemistry: 1 ZettaFlops(10^21)
Source: BusinessWeek, 7 June 2004
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Grid Security 5
A real challenge
The scale of the problem is significant:
• a complex socio-technical system• trust is a slippery subject; multiple trust domains• valuable resources; valuable data• mobile code; mobile data; mobile users.
• Conceptually, the network becomes one big computer— compare with decades of operating system research
• Concerns chase down to classical notions of confidentiality, integrity,availability.
Andrew Martin, Oxford e-Science Centre
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San Diego Supercomputer Center National Partnership for Advanced Computational Infrastructure
Information Technologies• Data collecting
– Sensor systems, object ring buffers and portals• Data organization
– Collections, manage data context• Data sharing
– Data grids, manage heterogeneity• Data publication
– Digital libraries, support discovery• Data preservation
– Persistent archives, manage technology evolution• Data analysis
– Processing pipelines, manage knowledge extraction
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San Diego Supercomputer Center National Partnership for Advanced Computational Infrastructure
Data Management Concepts(Elements)
• Collection– The organization of digital entities to simplify
management and access.
• Context– The information that describes the digital
entities in a collection.
• Content– The digital entities in a collection
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San Diego Supercomputer Center National Partnership for Advanced Computational Infrastructure
Data Management Challenges
• Distributed data sources– Management across administrative domains
• Heterogeneity– Multiple types of storage repositories
• Scalability– Support for billions of digital entities, PBs of data
• Preservation– Management of technology evolution
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The Challenge for Research Libraries
• Quantity: ‘The Data Deluge’• Quality: raw data galore• Formats: an infinite variety• Metadata: the ‘control’ challenge• Search & delivery: the infrastructure
issue• Curation: the archiving enormity
Source: Reg CarrCURL Members’ Meeting
Dublin, 26 March 2004
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Legal Context of Collaborative Activities
• Legal relationship among the parties to an e-Science collaboration, particularly, in different jurisdiction
• materials that each party brings to a collaboration
• resources to which the collaborative project will give rise
• apportionment of liability for potential harms
Source: Paul David, Oxford
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Specific Challenges in Asia
• US-centric Network connectivity deficiency
• Weaker collaborative scientific tradition, thus, the culture for collaboration to be built
• Legal context of collaboration to be drafted
• Insights in scientific and technological policy to address its particular circumstances still to be developed
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Potential Asia Network for e-Science
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Potential e-Sciences to focus in Asia
• Bio- and medical applications• Digital Collections ( Library/ Museum/
Archives)• e-Learning• Social Sciences (?)• Fundamental scientists, such as HEP,
should work much closer across traditional country barriers!
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Social Scientists as Grid Users
• Social science in the future might become a more globally collaborative activity
• Social science can be a data intensive science• Social science may develop towards
conducting experiments and studies across the grid
• Social scientists may benefit from future visualisation techniques
Anderson’s Report:www.esrc.ac.uk/esrccontent/ DownloadDocs/Andersonsreport.doc
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Social Scientists in Grid Development
• Understanding users and their needs• Understanding the role of visualisation• Understanding collaboration• Understanding drivers and barriers to
adoption• Usability of facilities
Anderson’s Report:www.esrc.ac.uk/esrccontent/ DownloadDocs/Andersonsreport.doc
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Key Factors for Alliance to Succeed
• Complimentary• Goal alliance• Risk sharing• Long term• Trust
Dick Cheney,Keynote in Global Telecom Summit,September 1997, Hong Kong
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Who invented WWW?
• Tim Berners-Lee of CERN proposed the idea of WWW in 1989, a revisedversion with Robert Cailliau next year
• WWW is to solve the difficulty of academic information sharing, you don’t have to login to separate accounts to get informtion
• “The philosophy that academic information is for all, and it is our duty to make information available. WWW... ” --- Tim Berners-Lee, 1991
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WWW Concept, CERN 1989, 1990
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First WWW Browser, Dec 1990
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The Rest is History
• 1991, CERN distributed the first WWWsystem to High Energy Physics circle, followup by universities and research institutes
• Dec 1991, SLAC built the first Web Serverin US
• 1993, NCSA developed an easier to useMosaic Browser
• 1994, “Year of the Web”. 10,000 servers, 2,000 commercial, 10 Million users
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Conclusion
• Critical mass decides which Grid technology/system to prevail
• Grid as an enabler for Virtual Organisations actually depends on proper collaboration
• If we could not collaborate, no Grid system will ever reach that criticality
• In some sense, Grid computing may be more important than HPC in Asia!