1. e-IRG meeting March 18 2005, The Hague The Hague, March 18. 2005 Michiel Leenaars Netherlands National Computing Facilities foundation e- Infrastructure.

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Presentation transcript:

1. e-IRG meeting March , The Hague The Hague, March Michiel Leenaars Netherlands National Computing Facilities foundation e- Infrastructure opportunities list

2. e-IRG meeting March , The Hague e-Infrastructure opportunities list Three main categories: I. Grid infrastructure II. Advanced Network infrastructure III. Supercomputer infrastructure

3. e-IRG meeting March , The Hague Grid infrastructure ● Populate the Europe Research Grid with pre- funded shared large scale facilities (very top end capability computing, extreme storage and data redundancy/back-up) in order to allow researchers from all disciplines to do the most demanding research, improve the scientific competitiveness in Europe and lower the reaction time to actual technical developments.

4. e-IRG meeting March , The Hague Grid infrastructure ● Provide a funding scheme to grid-enable the wide diversity of special scientific measuring equipment (large and small), sensor networks (such as seismic measurement points, radar equipment, weather stations, air traffic control data), satellites, telescopes and especially databases (from GIS to chemistry, from biochemical to linguistic); ● Europe can become the data hub of the world.

5. e-IRG meeting March , The Hague Grid infrastructure ● Create a European centre of expertise for reprogrammable logic (e.g. FPGA's) and other dedicated hardware, as these will play an important role in the grid as targeted coprocessors capable of delivering extreme performance in selected tasks.

6. e-IRG meeting March , The Hague Grid infrastucture ● Facilitate the creation of competing open (potentially global) exchanges and/or marketplaces for grid resources. Thus, the European economy will have incentives for privately-owned resource providers.

7. e-IRG meeting March , The Hague Grid infrastructure ● A European broker platform to rent Grid services, based on a functional accounting layer, is the next step to achieve this. The organisation for allocation of resources should be decentralised and self-organised. In parallel, look into pre-funding models for shared production facilities.

8. e-IRG meeting March , The Hague Grid infrastructure ● Support federations such as a network of Certification Authorities for authentication and organisational identity providers, creating the open trust hub that allows the influx of large amounts of scientists and SMEs

9. e-IRG meeting March , The Hague Grid infrastructure ● Support the creation of a mature and open grid protocol stack for grid-like functionality by supporting the relevant standards bodies GGF, W3C, IETF and WS-I; Europe does not want a commercial monopolist hijacking the grid with proprietary exchange protocols, as this will stifle innovation and competition.

10. e-IRG meeting March , The Hague Grid infrastructure ● Provide reflectors and buffers/storage for useful data streams from satellites, sensor networks and other data sources currently left unguarded

11. e-IRG meeting March , The Hague Grid infrastructure ● Create a normalisation institute that will contribute to standardised access, validated aggregation processes and good interoperability of distributed scientific data.

12. e-IRG meeting March , The Hague Grid infrastructure ● Create a body overseeing Quality Assurance activities allowing to identify different levels of reliability for grid service providers – for instance for user communities with sensitive data or real-time requirements (e.g. medical use).

13. e-IRG meeting March , The Hague Grid infrastructure ● Initiate an organisation to register parameters and formats in scope and activities similar to the functions that IANA performs for the internet (a bookkeeper for grid parameters). This organisation should operate on a global scale, and not exclude commercial parameters.

14. e-IRG meeting March , The Hague Grid infrastructure ● Provide high grade real-time collaboration environments to research communities working together in grid environments.

15. e-IRG meeting March , The Hague Networking infrastructure ● A next generation optical pan-European network platform needs to be deployed integrating advanced IP-based routed services with lower layer manageable end-to-end optical connections for the support of e-Science initiatives (e.g. Grids, collaborative research etc.) These parallel networking flows will better serve the diverse requirements of the European Research and Academic community.

16. e-IRG meeting March , The Hague Networking infrastructure ● The European Research Networking community is gradually adopting the wide usage of dark fibre (DF) infrastructure with long leasing terms. Several DF national infrastructures have been deployed, while currently the corresponding integration effort is developed as part of the trans-European GÉANT2 network.

17. e-IRG meeting March , The Hague Networking infrastructure ● It is further expected that DF provision will be available in all European regions by 2010, thus the near-term vision of the NREN community is the deployment of ubiquitous end-to-end services. This vision includes areas of South-Eastern European countries (SEEREN) along with Belarus, the Ukraine and Moldova, in an effort to ease the “digital divide” in Europe.

18. e-IRG meeting March , The Hague Networking infrastructure ● However, the users' needs for dynamic bandwidth have not been justified up to now, and it might be the case that in GÉANT3 dynamic bandwidth gives its position to fully meshed-type permanent bandwidth.

19. e-IRG meeting March , The Hague Networking infrastructure ● The Research Networking community should work closely with industry in order to define and develop standard protocols and interfaces for network control and management planes coping with a multi- administrative, multi-technology and multi- equipment domain environment.

20. e-IRG meeting March , The Hague Networking infrastructure ● In addition, in developing a European Science Grid the ability to provide interoperability of the grid middleware with the above network control and management planes is of key importance.

21. e-IRG meeting March , The Hague Supercomputing infrastructure ● The ever-increasing computing requirements of numerical science enforce the establishment of supercomputers of the highest performance class in Europe, comparable to the leading sites in Japan and the USA, in order to provide an adequate supply of computing power. Computers of this kind cannot be funded by one country alone; they have to be financed on a European level.

22. e-IRG meeting March , The Hague Supercomputing infrastructure ● Capacity computing typically fills the needs of scientific disciplines which do not need a low-latency, high-bandwidth interconnect architecture between processors. It is not expected that combining these national resources into a few capacity superclusters in Europe will benefit from the economy of scale.

23. e-IRG meeting March , The Hague Supercomputing infrastructure ● Capability computing, on the other hand, in general requires access to many processors in parallel, large memory, and low-latency, high-bandwidth interconnects. The availability of significantly larger capability systems than available now is urgently required for increasing the scientific opportunities for many application areas, since more processors and memory will be available in a low-latency, high-bandwidth interconnect architecture.

24. e-IRG meeting March , The Hague Supercomputing infrastructure ● Hence, the availability of a number of capability systems will facilitate economically important fields of science and research in Europe in their efforts of running increasingly accurate simulations.

25. e-IRG meeting March , The Hague Supercomputing infrastructure ● Within the class of capability systems, there are still trade-offs to be made. Actual architectures range from purely shared memory vectorcomputers, through clusters of SMP systems (connected by state-of-the-art interconnects, like Infiniband) to NUMA systems, with a large amount of processors with direct access to a single address space.

26. e-IRG meeting March , The Hague Supercomputing infrastructure ● Since specific application areas run more efficiently on specific capability architectures, it may be desirable to represent these types of systems in a European Supercomputer infrastructure.

27. e-IRG meeting March , The Hague Supercomputing infrastructure ● History has shown that the rate at which the peak performance requirements grow, is more than Moore’s law. If one estimates this rate conservatively (disregarding potentially demanding new research areas) at a factor of 2 annually, one would see the the following peak performance requirements:

28. e-IRG meeting March , The Hague Supercomputing infrastructure ● With respect to data storage, there is a growing amount of disciplines which develop into data-intensive sciences. Examples are high-energy physics, astronomy, bio- informatics and genomics, and medical imaging. If we estimate 250 Petabyte for 2008 (10 x LHC) and consider a growth rate of again a factor of 2 annually, this would lead to:

29. e-IRG meeting March , The Hague The End