1. Riding the Crest: High-End Cyberinfrastructure Experiences and Opportunities on the NSF TeraGrid A Panel Presentation by Laura M c GinnisRadha Nandkumar Katie VargoNancy Wilkins-Diehr

2. What is the TeraGrid? Technology + Support = Science

3. TeraGrid Vision TeraGrid creates integrated, persistent, and pioneering computational resources that significantly improve our nation’s ability and capacity to gain new insights into our most challenging research questions and societal problems. This integrated approach to the scientific workflow includes –Access –Application Development and Execution –Data Analysis –Collaboration –Data Management

4. TeraGrid Objectives DEEP Science pushing the petascale level –Make science more productive through an integrated set of very-high capability resources which address key challenges prioritized by users WIDE Impact to empower communities –Bring TeraGrid capabilities to the broad science community by partnering with science community leaders to build “Science Gateways” OPEN Infrastructure and OPEN Partnerships –Provide a coordinated, general purpose, reliable set of services and resources leveraging partnership with campuses and other high performance computing facilities

5. TeraGrid Technology Data 18.8 Petabytes Storage Memory Intensive Resources Computation Visualization 100+ Teraflops Computation 40gigabit/second cross-country network

6. Technology Katie – add your slides here

7. Support Nancy – add your slides here

8. I hope you are enjoying your time in our beautiful city

9. A Little Bit About Me Currently –Area director for TeraGrid Science Gateways program –Director for consulting, documentation and training at the San Diego Supercomputer Center Background –At SDSC since 1993, involved in user support and project management during that time Prior to that, engineering work for General Dynamics and General Atomics in San Diego –Many changes since 1993! –M.S. Aerospace Engineering, San Diego State, 1992 –B.A. Mathematics and Philosopy, Boston College, 1984

10. A Little Bit About the TeraGrid NSF-funded program to offer high end compute, data and visualization resources to the nation’s academic researchers Proposal-based, researchers can use resources at no cost Variety of disciplines

11. TeraGrid PI’s By Institution as of May 2006 TeraGrid PI’s Blue: 10 or more PI’s Red: 5-9 PI’s Yellow: 2-4 PI’s Green: 1 PI

12. Gateways are part of TeraGrid’s 3- pronged strategy to further science DEEP Science: Enabling Terascale Science –Make science more productive through an integrated set of very- high capability resources ASTA projects WIDE Impact: Empowering Communities –Bring TeraGrid capabilities to the broad science community Science Gateways OPEN Infrastructure, OPEN Partnership –Provide a coordinated, general purpose, reliable set of services and resources Grid interoperability working group

13. Science Gateways A new initiative for the TeraGrid Increasing investment by communities in their own cyberinfrastructure, but heterogeneous: Resources Users – from expert to K-12 Software stacks, policies Science Gateways –Provide “TeraGrid Inside” capabilities –Leverage community investment Three common forms: –Web-based Portals –Application programs running on users' machines but accessing services in TeraGrid –Coordinated access points enabling users to move seamlessly between TeraGrid and other grids. Workflow Composer

14. Gateways are growing in numbers 10 initial projects as part of TG proposal >20 Gateway projects today No limit on how many gateways can use TG resources –Prepare services and documentation so developers can work independently Open Science Grid (OSG) Special PRiority and Urgent Computing Environment (SPRUCE) National Virtual Observatory (NVO) Linked Environments for Atmospheric Discovery (LEAD) Computational Chemistry Grid (GridChem) Computational Science and Engineering Online (CSE- Online) GEON(GEOsciences Network) Network for Earthquake Engineering Simulation (NEES) SCEC Earthworks Project Network for Computational Nanotechnology and nanoHUB GIScience Gateway (GISolve) Biology and Biomedicine Science Gateway Open Life Sciences Gateway The Telescience Project Grid Analysis Environment (GAE) Neutron Science Instrument Gateway TeraGrid Visualization Gateway, ANL BIRN Gridblast Bioinformatics Gateway Earth Systems Grid Astrophysical Data Repository (Cornell) Many others interested –SID Grid –HASTAC

15. What Did We Learn About Common Gateway Requirements? Accounting –Support for accounts with differing capabilities –Ability to associate compute job to a individual portal user –Scheme for portal registration and usage tracking –Dynamic accounts Security –Community account privileges –Need to identify human responsible for a job for incident response –Acceptance of other grid certificates Web Services –Many will build on the Globus Toolkit, but additional interfaces may be needed –Web Service security –Interfaces to scheduling and account management are common requirements Software –Interoperability of software stacks between TeraGrid and peer grids –Software installations for gateways across all TG sites –Community software areas –Management (pacman, other options)

16. National Virtual Observatory Facilitating Scientific Discovery Access to telescope images from around the world NVO provides access to combined sky surveys –Different views of the same cosmological phenomenon can reveal new insights New science enabled by enhancing access to data and computing resources –Data correlation –Understanding of physical processes –Identification of new phenomenon NVO is a set of tools used to exploit the data avalanche

17. NanoHub Harnesses TeraGrid for Education Nanotechnology education Used in dozens of courses at man universities Teaching materials Collaboration space Research seminars Modeling tools Access to cutting edge research software And much more

18. Biomedical and Biology Gateway Renaissance Computing Institute, North Carolina Avalanche of data in biology community –Genomics data, –Proteomics and expression analysis –Need to move beyond current desktop tools Access to –Common sequence and protein structure databases –Over 140 software packages Collaboration infrastructure to engage the best talent regardless of location

19. Linked Environments for Atmospheric Discovery Providing tools that are needed to make accurate predictions of tornados and hurricanes Meteorological data Forecast models Analysis and visualization tools Data exploration and Grid workflow

20. Would development of a gateway help your research? Think about your current bottlenecks –What would you like to explore if only you had Lots of disk Lots of compute resources Powerful analysis capabilities A nice interface to information Talk to us –Biweekly telecons to get advice from others. –Potential assistance from TeraGrid staff www.teragrid.org –Details about current gateways –Video from June full day tutorial at TG06 In depth presentations by LEAD, nanoHUB, RENCI, GIScience –Gateway wiki coming this fall Nancy Wilkins-Diehr, wilkinsn@sdsc.eduwilkinsn@sdsc.edu Thanks Mom!!

21. Science Radha – add your slides here

22. Contacts TeraGrid: www.teragrid.org Allocation Requests –teragrid.org/userinfo/access/dac.php –teragrid.org/userinfo/access/accounts.php Thanks to Charlie Catlett and Scott Lathrop of Argonne National Lab for valuable input