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AHM Overview OptIPuter Overview Third All Hands Meeting OptIPuter Project San Diego Supercomputer Center University of California, San Diego January 26,

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Presentation on theme: "AHM Overview OptIPuter Overview Third All Hands Meeting OptIPuter Project San Diego Supercomputer Center University of California, San Diego January 26,"— Presentation transcript:

1 AHM Overview OptIPuter Overview Third All Hands Meeting OptIPuter Project San Diego Supercomputer Center University of California, San Diego January 26, 2005 Dr. Larry Smarr Director, California Institute for Telecommunications and Information Technologies Harry E. Gruber Professor, Dept. of Computer Science and Engineering Jacobs School of Engineering, UCSD

2 AHM Overview What We Need to Focus on Completing Year 3: MILESTONE: By Year 3, the goal is to have operational OptIPuter testbeds on the campus, metro, regional, national and international levels, connecting OptIPuter partner sites in Southern California to Chicago by use of either TeraGrid or National Light Rail and Pacific Light Rail. A full set of system software, visualization, data management and collaboration systems will be in place. Enhanced transport protocols to improve end-to-end performance will be demonstrated. Extensive monitoring and tuning of OptIPuter applications and middleware subcomponents will provide feedback for ongoing research efforts. Year 4: e-Science advancements facilitated by the OptIPuter testbed will be demonstrated.

3 AHM Overview What Are the Technical Challenges We Need to Address This Year? Multiple Latency Application and Networking Persistent Testbeds –Need DVC Integrated with Signaling, Management, and Transport Protocols –Stabilize for Apps to Use –Extensive Monitoring, Analysis, and Optimization Needs to Occur –Identify and Support Four Different Scale Testbeds for Next 2.5 Years –Campus UCSD –Metro Chicago –National CAVEwave UCSD to UW to UIC –International UCSD to Starlight to Amsterdam DVC – Integrate GTP, LambdaStream, UDT into DVC Applications Using WAN OptIPuter –Coupling Application Kernels to DVCs –Demonstrate on Four Testbeds Above Collaboration Rooms –Regular Use of CAVEwave and SoCal LambdaGrid –Partner with Social Science Researchers in Collaborative Works

4 AHM Overview UCSD Campus LambdaStore Architecture SIO Ocean Supercomputer IBM Storage Cluster Extreme switch with 2 ten gigabit uplinks Streaming Microscope

5 AHM Overview EVL OptIPuter National Testbed 10GE CAVEwave Rides the National LambdaRail Next Step: Coupling NASA Centers to NSF OptIPuter Testbed Source: Tom DeFanti, OptIPuter co-PI

6 AHM Overview What Are the Technical Challenges We Need to Address This Year? Streaming Data Flows –LambdaStream –CineGrid –HDTV Control of Parallel Lambdas –DWDM Coupled to Parallel Cluster I/O –For Multiple Data Flows (HD, Control, Vis) –For High Bandwidth to Match Clusters –“Terabits to the Desktop” and Cluster/ WAN bandwidth balance as Goal Security –Evaluate Globus GSI for LambdaGrids –Collective Trust Problems Publishing –Define High Level Computer Science Research Topics –Target Publications in Top Journals –Presentations at Key Conferences

7 AHM Overview Today’s Lecture--Uncompressed HDTV at 1.5 Gpbs Live From Seattle to Osaka Osaka Seattle Chicago Japan: NiCT/ JGN II, NiCT/APAN, NTT Group, KDDI, WIDE Project USA: University of California San Diego/Calit2, University of Washington/Pacific Northwest Gigapop, PacificWave, ResearchChannel, Pacific Interface, Inc., StarLight (Argonne National Laboratory, Northwestern University, University of Illinois at Chicago), Indiana University, Intel Circuits: JGN II, WIDE, KDDI, NTT Group, IEEAF, NLR (National Lambda Rail) Enabled by International Human Networks

8 AHM Overview OptIPuter User Interface Scaling to 100 MegaPixels! 55-Panel Display 100 Megapixels 30 x 10GE interfaces 1/3 Tera bit/sec Driven by 30 Node Cluster of 64 bit Dual Opterons 60 TB Disk Linked to OptIPuter Working with NASA Teams to Unify Software Source: Jason Leigh, Tom DeFanti, OptIPuter Co-PIs

9 AHM Overview Enhancements and Extensions of OptIPuter Project Extension to Include Web and Grid Services –LOOKING ITR Funded UWash and UCSD Switching of Lambdas –Quartzite MRI Funded at UCSD Teraflow Testbed –Bob Grossman RR at UIC Sloan with OptIPuter U Amsterdam Scalable Visualization Nodes –LambdaVision MRI Funded at UIC –Macintosh G5 Cluster and 30” Display Tiled Wall at SIO Lambda Connectivity –CAVEwave Funded by UIC International Partners –iGRID 2005 –LOOKING (Mexico and Canada) –NCMIR Telescience and BIRN (Japan, Korea, UK) –SARA New Partner New Applications –Bringing JPL, Ames, Goddard onto OptIPuter and NLR –fMRI NIH Grant Funded at UCI –Stereo HD to a Varrier Wall

10 AHM Overview OptIPuter Interactive Browsing of Remote Earth Sciences Images on Scalable Displays Earth Science Data Sets Created by GSFC's Scientific Visualization Studio were Retrieved Across the NLR in Real Time from OptIPuter Servers in Chicago & San Diego and From GSFC Servers in McLean, VA, then Displayed at SC2004 in Pittsburgh Scientific Visualization Studio Enables Scientists To Perform Coordinated Studies Of Multiple Remote-Sensing Or Simulation Datasets Source: Milt Halem & Randall Jones, NASA GSFC & Maxine Brown, UIC EVL Eric Sokolowsky

11 AHM Overview September 26-30, 2005 University of California, San Diego California Institute for Telecommunications and Information Technology Announcing… i Grid 2 oo 5 T H E G L O B A L L A M B D A I N T E G R A T E D F A C I L I T Y Call for Applications Using the GLIF SuperNetwork Maxine Brown, Tom DeFanti, Co-Organizers


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