1. Indiana University - IBM Visit IT at IU

2. n Please cite as: Stewart, C.A. 2001. IT @ IU. Presentation. Presented at IBM T.J. Watson Research Center, Feb. 7, Hawthorne, NY. Available from: http://hdl.handle.net/2022/14005 n Except where otherwise noted, the contents of this presentation are © by the Trustees of Indiana University. This content is released under the Creative Commons Attribution 3.0 Unported license (http://creativecommons.org/licenses/by/3.0/). This license includes the following terms: You are free to share – to copy, distribute and transmit the work and to remix – to adapt the work under the following conditions: attribution – you must attribute the work in the manner specified by the author or licensor (but not in any way that suggests that they endorse you or your use of the work). For any reuse or distribution, you must make clear to others the license terms of this work.

3. Highlights of IU ’ s IT Efforts Relevant to IBM n Major presence in High Performance Computing u 2 systems in top 500 list u Important CS&E research u Interdisciplinary use of HPC resources n Mass storage systems: leader and innovator n International leader in High Performance Networking: I2, vBNS, Abilene, TransPAC n Growing Digital Libraries projects

4. Indiana University n Founded in 1820 n $2B Annual Budget n A diverse student enrollment of over 90,000 n One of the nation’s top 10 public research universities n Excellent academic preparation: 878 degree programs; > 100 majors; >60 academic programs ranked among the nation’s top 20 n 3,900 faculty

5. Indiana University Campuses

6. Information Technology @ IU n Approximately $70M annual budget n 500 information technology staff members n Academic programs in IT through computer science, library and information science, engineering and technology, programs. (Also, new IU School of Informatics) n Technology services offered university wide n All IT matters at IU are the responsibility of the Vice President for Information Technology

7. University Information Technology Services n Teaching and Learning Information Technologies n University Information Services n Telecommunications (Christopher Peebles, Acting Associate Vice President) n Research and Academic Computing (Christopher Peebles, Associate Vice President) u Computation (Craig Stewart, Director) u Data, including Digital Libraries and Massive Data Storage Project (Gerry Bernbom, Director) u High Performance Network Applications Initiative (D. F. “Rick” McMullen, Principal Scientist, Advanced Information Technology Laboratory)

8. Networks @ IU n Charter member of Internet2 n vBNS connections grant n Lead US institution in TransPAC (connection between vBNS and APAN) n Abilene NOC n High Performance Network Applications Initiative

9. Digital Libraries @ IU n Variations Project n LETRS (Library Electronic Text Services) n Hoagy Carmichael Project n DLI-2 Proposal

10. Storage @ IU n Major partnership between IU and IBM n HPSS, IBM RS/6000 SP, IBM SSA Disk n Initially 1 TB disk, 17 TB tape n Innovative Web interface using DFS and HPSS n Ongoing research partnership between IU and IBM

11. Computational Resources @ IU n 47P IBM RS/6000 SP. IU’s largest supercomputer, currently 357th on Top500 List. Primary parallel and research computing resource for IU. n 64P SGI Origin2000. Currently 385th on Top500 List n 64P Compaq PC Cluster (32 2-processor Compaq Proliants) n Significant (and growing) presence of Sun servers for interactive computing

12. IU ’ s Parallel PC cluster n 32 Compaq Proliant, dual Pentium II n Key feature: Evenhanded approach to OS issues. Key questions: Which is better under what circumstances? n Combination of computer science research, (production) scientific calculation, and artistic applications n One of three installations in US using NT and Linux interchangeably on same hardware n NSF MRI Proposal

13. IU ’ s SGI Origin 2000 n Purchased via NSF Infrastructure grant n Used primarily by an interdisciplinary team of 12 research labs, in fields ranging from Astronomy to Theatre n Used for some of the largest Radiance jobs ever rendered

14. IU ’ s IBM RS/6000 SP n Primary computational resource for IU researchers, ranging from beginning grad students to computer science researchers n Robustness and architecture of IBM RS/6000 SP provide excellent services to this great breadth of users (SPSS to MPI) n The RS/6000 SP has the Globus toolkit installed, and is a key component of our distributed computing efforts

15. IU - Key areas of intellectual leadership n HPC software technologies, esp. distributed HPC n Cosmology & astrophysics n Computational Chemistry n High Energy Physics (Quantum Chromodynamics) n HPC best practices, practical uses of distributed computing n Virtual Reality, Photorealistic rendering, virtual shopping n Broad, multidisciplinary use of HPC technology

16. Brief history of IU/IBM Collaborations n IBM 3090 in support of quantum chemistry algorithm development (Davidson) - MELD n Two SUR grants in support of VARIATIONS n SUR grant for IBM SP2, for development of HPC++ and middleware for geographically distributed computing (Gannon) - HPC++, PARDIS n SUR grant for IBM SP Upgrade for Component Technology development (Bramley) - CAT n Major partnership announcement May 25th!

17. Notable HPC Awards/Presentations n HPC Challenge - SC95 - Best Integration of Heterogeneous Applications. “Galaxies Collide on the I- WAY: An Example of Wide-Area Collaborative Supercomputing.” Team lead by Dennis Gannon n HPC Challenge - SC98 - Best Industrial Collaboration. “"Industrial Mold Filling Simulation Using an Internationally Distributed Software Component Architecture.” Team lead by Randall Bramley n CASCON ‘98: Component architecture toolkit (Bramley); Evolutionary biology and distributed computing (Stewart et al.)

18. Component Architecture Toolkit n Component architectures revolutionized desktop computing, but have so far had less impact on HPC n IU is a leader in development of component technologies for HPC, and a member of the DOE 2000 CCA group n Significant results already building upon the LSA and implementing the CAT for IBM RS/6000 SPs n The CAT is ideal as a vehicle for exploitation of high performance computing and networking resources n As hardware converges upon clusters of SMP systems, do we really expect many scientists using HPC systems to master MPI, OpenMP, and how to mix them optimally?

19. Cat Workspace and Info Browser

20. i GRID n An international collaborative demonstration project to prototype next-generation network-based research and education tools shown at SC98. Partnership between EVL and IU. n Twenty applications demonstrated projects of international collaborative research involving sites located in ten countries around the world. n Demonstrations from the fields of metacomputing (computational fluid dynamics, cosmology and biology); shared virtual workspaces; digital video; tele- manufacturing; instrument control

21. i GRID Sites vBNS ESNet NREN Teleglobe CANTAT-3 CA*Net2 TransPAC (to APAN) TANet SINGAren

22. The problem with grids... n How do you create more than a transient demonstration project? n IU is leading multinational effort to create a “free (cycle) trade zone” in support of bioinformatics and evolutionary biology computations with NUS and ACSys n IU is leading efforts to create a persistent computational grid within the CIC n IU is a key partner in the NCSA Alliance

23. QCD n Prof. Gottlieb is an internationally recognized leader in Lattice Gauge Theory and Quantum Chromodynamics n Gottlieb’s QCD code has been run on a variety of HPC hardware, including PC clusters (Gottlieb Lab, UITS, NCSA, UNM), NCSA Origin2000s n Initial tests with scaling of QCD codes on Power3 nodes yielded disappointing scalability. Investigating and correcting this would be interesting and useful

24. Evolutionary Biology n International collaboration based primarily on IBM RS/6000 SPs at IU and National University of Singapore n Leverages commonalities in HPC hardware, code, and research interests

25. IU ’ s Massive Data Storage Project n Based on IBM hardware, HPSS n Now: 1 TB spinning disk, 17 TB tape n Soon: 2 TB spinning disk, 57 TB tape n Serves both academic and business needs of IU. VTS used to automate and improve tape handling.

26. IU ’ s Massive Data Storage Project n Web-based front end to Massive Data Store - permits easy access to data without installation of additional clients via JavaScript, DFS, and HPSS n Web interface designed to handle both large files and small files (student use). Key question: how to package and manage large numbers of small files n Data management and access a key area of IU’s HPC research activities

27. Goals for this visit n Present our accomplishments stemming from our partnership with IBM and previous SUR grants. n Strengthen and deepen research relationships between Indiana University and IBM in areas of mutual interest. n Identify areas of joint interest in deep computing research; set plans for joint HPC research activities in the coming year. n Identify opportunities for collaboration in high performance networking applications and digital libraries.

28. Indiana University - IBM Visit Thank you. Any questions? Craig Stewart Director (Computation), Research & Academic Computing University Information Technology Services, IU stewart@indiana.edu www.indiana.edu/~uits/rac