TransLight/StarLight, GLIF and OptIPuter

1. TransLight/StarLight, GLIFand OptIPuter Maxine D. Brown Electronic Visualization Laboratory UNIVERSITY OF ILLINOIS AT CHICAGO maxine@uic.edu CANS 2006 December 8, 2006

2. US National Science Foundation (NSF)Funds 5 IRNC International Networking Projects • Support science and engineering research and education applications • Enable state-of-the-art international network services • Share tools and best practices • Work on major events and activities (SC, Grid, GLIF) • IRNC is the international extension of US R&E Networks (national and regional) www.irnclinks.net

3. TransLight/StarLightMission Statement • TransLight/StarLight works with US and European R&E networks: • to implement strategies to best serve production science • to identify andbest serve pre-production data-intensive e-science applications, for they are the drivers for new networking tools and services to advance the state-of-the-art of production science; e.g., persistent large data flows, real-time visualization and collaboration, and/or remote instrumentation scheduling www.startap.net/translight

4. TransLight/StarLightA Hybrid Network Consisting of Two Trans-Atlantic Links GÉANT2 PoP @ AMS-IE NetherLight StarLight MAN LAN • OC-192 routed connection between MAN LAN in New York City and the Amsterdam Internet Exchange that connects the USA Abilene and ESnet networks to the pan-European GÉANT2 network • OC-192 switched connection between NLR and RONs at StarLight and optical connections at NetherLight; part of the GLIF LambdaGrid fabric www.startap.net/translight

5. TransLight/Pacific Wave10GE Wave Facilitates US West Coast Connectivity Developing a distributed exchange facility on the US West Coast (currently Seattle, Sunnyvale and Los Angeles) to interconnect international and US research and education networks www.pacificwave.net/participants/irnc/

6. = + • TransLight is a 10Gbps lightpath donated by Cisco and deployed by NLR that facilitates US, European and Pacific Rim network connections • Enables participating networks to easily configure direct connections whenever needed • Adds resiliency and stability to the North American segment of GLIF www.pnw-gigapop.net/news/translight_conn.html

7. GLORIADGlobal Ring Network for Advanced Applications Development Greg Cole, Natasha Bulashova, NSF Co-PIs www.gloriad.org

8. Global Lambda Integrated FacilityAvailable Advanced Network Resources − September 2005 GLIF is a consortium of institutions, organizations, consortia and country National Research & Education Networks who voluntarily share optical networking resources and expertise to develop the Global LambdaGrid for the advancement of scientific collaboration and discovery Visualization courtesy of Bob Patterson, NCSA; data compilation by Maxine Brown, UIC. www.glif.is

9. GLIF Working Groups • Governance: To create an open, neutral community for anyone who wants to contribute resources and/or services (bandwidth, software, application drivers), to build the Global LambdaGrid • Engineering: To define the types of links and the minimum/maximum configurations of Optical Exchange facilities in order to assure the interoperability and interconnectivity of participating networks • Applications: To enable the super-users providing the application drivers; to find new e-science drivers; and, to move scientific experiments into production usage as they mature, and to document these advancements • Control Plane and Grid Integration Middleware: To agree on the interfaces and protocols for lambda provisioning and management www.glif.is

10. Annual GLIF Meetings GLIF 2006, Tokyo, Japan, hosted by NiCT and WIDE www.glif.is

11. iGrid 2005September 26-30, 2005, San Diego, California • 4th community-driven biennial International Grid event attracting 450 participants • An international testbed for participants to collaborate on a global scale • To accelerate the use of multi-10Gb international and national networks • To advance scientific research • To educate decision makers, academicians and industry about hybrid networks • 49 demonstrations showcasing global experiments in e-Science and next-generation shared open-source LambdaGrid services • 20 countries: Australia, Brazil, Canada, CERN, China, Czech Republic, Germany, Hungary, Italy, Japan, Korea, Mexico, Netherlands, Poland, Russia, Spain, Sweden, Taiwan, UK, USA • 25 lectures, panels and master classes as part of a symposium • 100Gb into the Calit2 building on the UCSD campus • All IRNC links used! www.igrid2005.org

12. iGrid 2005 Proceedings Available! Special issue on iGrid 2005: The Global Lambda Integrated Facility 27 referred papers! Smarr, Larry, Maxine Brown, Tom DeFanti and Cees de Laat (guest editors) Future Generation Computer Systems, Volume 22, Issue 8, Elsevier, October 2006, pp. 849-1054 www.elsevier.com/locate/future

13. OptIPuterRemoving Bandwidth as an Obstacle In Data-Intensive e-Science NSF EarthScope and ORION NIH Biomedical Informatics Research Network • OptIPuter is an NSF-funded award to develop cyberinfrastructure to enable the real-time collaboration and visualization of very-large time-varying volumetric datasets for the geosciences and biosciences • OptIPuter is examining a new model of computing whereby ultra-high-speed networks form the backplane of a global computer http://siovizcenter.ucsd.edu http://ncmir.ucsd.edu www.optiputer.net

14. OptIPuterArchitecture Bandwidth Matches Clusters to the Network • Hardware: clusters of computers that act as giant storage, compute or visualization peripherals, in which each node of each cluster is attached at 1 or 10GigE to a backplane of ultra-high-speed networks • Software: Advanced middleware and application toolkits are being developed for light path management, data management and mining, visualization, and collaboration Commodity GigE Switch Fibers or Lambdas www.optiputer.net

15. OptIPuterEnabling Persistent Collaboration Spaces • OptIPuter Partners • UCSD • University of Illinois at Chicago • University of California-Irvine • San Diego State Univ • University of Southern California • NCSA • Northwestern • Texas A&M • University of Michigan • Purdue University • USGS • NASA • CANARIE, Canada • CRC, Canada • SARA, Netherlands • Univ of Amsterdam, Netherlands • KISTI, Korea • AIST, Japan OptIPortals Are 21st Century PCs with 10Gbps Network Connections • Tiled-display installations at partner sites • Unified SAGE (Scalable Adaptive Graphics Environment) software (integrated with Rocks Viz Roll) Source: Jason Leigh, UIC/EVL www.evl.uic.edu/cavern/optiputer www.evl.uic.edu/cavern/sage

16. OptIPuter10GE CAVEwave on the National LambdaRail The OptIPuter exploits a new world in which the central architectural element is optical networking – creating supernetworks CA*net 4 to Canadian partners and JGN2 to Japanese partners Connections to Asian partners Connections to European partners NU UIC NCSA NASA GSFC Venter Institute USC SDSU UCI UCSD TAMU CAVEwave™ is the University of Illinois at Chicago (UIC) Electronic Visualization Laboratory’s very own 10 Gigabit wavelength on the NLR infrastructure, connected to the University of Washington in Seattle and UCSD in San Diego, enabling OptIPuter experiments. It was recently extended to the DC area to connect with NASA GSFC and Venter Institute www.evl.uic.edu

17. OptIPuterDemonstration of SAGE Applications MagicCarpet Streaming Blue Marble dataset from San Diego to EVL using UDP. 6.7Gbps Bitplayer Streaming animation of tornado simulation using UDP. 516 Mbps About 9 Gbps in total. SAGE can simultaneously support these applications without decreasing their performance SVC Locally streaming HD camera live video using UDP. 538Mbps JuxtaView Locally streaming the aerial photography of downtown Chicago using TCP. 850 Mbps Source: Xi Wang, UIC/EVL

18. What you will see this afternoon….

19. StarLight On the campus of Northwestern University • StarLight is the world’s largest 1 GE and 10 GE optical exchange for research and education networks (~70 1GE and ~50x10G) • StarLight is a largeresearch-friendlyco-location facility with space, power and fiber that is available to university and national/international network collaborators as a pointof presence/ GOLE in Chicago • StarLight provides an optical infrastructure and proving ground for network services optimized for high-performance applications • StarLight is a collaboration of NU, UIC, ANL, CA*net 4, and many others, with partial funding by NSF/OCI and DOE Northwestern University’s Chicago downtown campus www.startap.net/starLight

20. Abilene BOREAS CAVEwave DREN ESnet Fermi LightPath HOPI I-Light I-WIRE LONI StarLight Connected Networks International Advanced Networks National and Regional Networks • ASNet • CANARIE • CERN/LHCNET • CERNET/NSFCNET • CESNET (Czech Repubic) • GLORIAD-China/CSTnet • GLORIAD-Russia • GLORIAD-KREONet2/KOREN • HARNET • JGN-II • SINET • SURFnet • TaiwanLight/TWAREN • TransLight/StarLight IRNC • UKLight MCNC/EnLIGHTened MiLR MREN National LambdaRail NISN OMNInet Southern Light Rail TeraGrid TransLight UltraScience Net USGS Wisc Wave www.startap.net/starlight/NETWORKS Source: Linda Winker

21. Electronic Visualization LaboratoryUniversity of Illinois at Chicago • EVL established in 1973 − 33 years of interdisciplinary collaboration in Computer Science and Art • Tom DeFanti, Dan Sandin, Jason Leigh, co-directors • Students in CS, ECE, Art+Design • Real-time Computer Science + Art  Networked Scientific Visualization, Computer Graphics and Tele-immersive Virtual Environments  Lightpaths and LambdaGrids • Research in: • Advanced display systems • Visualization and virtual reality software • Advanced networking protocols • Collaboration and human/computer interaction • Funding mainly NSF, ONR, NIH. Also NTT, General Motors EVL is a network user ! www.evl.uic.edu

22. EVL Sponsors and Collaborators • TransLight/StarLight is made possible by NSF cooperative agreement OCI-0441094 to University of Illinois at Chicago (UIC) • OptIPuter is OptIPuter made possible by NSF award OCI-0225642 to University of California, San Diego • StarLight made possible by NSF OCI-0229642 to UIC and Northwestern • Equipment instrumentation development made possible by NSF awards CNS-0224306 and CNS-0420477 to UIC • Additional UIC funding provided by • State of Illinois I-WIRE Program, and major UIC cost sharing • Northwestern University for facility space, engineering and management • US NSF/CISE and US DoE/Argonne National Laboratory for StarLight and I-WIRE network engineering and design • Kees Neggers of SURFnet and Bill St. Arnaud of CANARIE for networking leadership • Larry Smarr of Calit2 for I-WIRE and OptIPuter leadership

23. Questions? www.startap.net/starlight www.startap.net/translight www.optiputer.net www.evl.uic.edu