iGrid2005 Keynote How LambdaGrids Transforming Sci

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“How LambdaGrids are Transforming Science": 

'How LambdaGrids are Transforming Science' Keynote iGrid2005 Calit2@UCSD La Jolla, CA September 29, 2005 Dr. Larry Smarr Director, California Institute for Telecommunications and Information Technology Harry E. Gruber Professor, Dept. of Computer Science and Engineering Jacobs School of Engineering, UCSD

We Are Living Through A Fundamental Global Change—How Can We Glimpse the Future?: 

We Are Living Through A Fundamental Global Change—How Can We Glimpse the Future? [The Internet] has created a [global] platform where intellectual work, intellectual capital, could be delivered from anywhere. It could be disaggregated, delivered, distributed, produced, and put back together again… The playing field is being leveled.' Nandan Nilekani, CEO Infosys (Bangalore, India)

Service-Oriented Science:From the Grid to the LambdaGrid: 

Content Function Resources Experimental apparatus Servers, storage, networks Metadata catalog Data archive Simulation server Certificate authority Simulation code Expt design Telepresence monitor Simulation code Expt output Electronic notebook Portal server Service-Oriented Science: From the Grid to the LambdaGrid I. Foster, Service-Oriented Science, Science, 308, May 6, 2005

What are the iGrid2005 Demos Defining as Services on a LambdaGrid?: 

What are the iGrid2005 Demos Defining as Services on a LambdaGrid? Lambda Services Supercomputing Services Video Streaming Services Visualization Services Scientific Instrument Services I Will Give One iGrid2005 Example of Each Service

Lambda Services Enable 10Gb Line-Speed Security: 

Lambda Services Enable 10Gb Line-Speed Security In the Real World, Users will Demand Secure Lambdas They Require it to be Invisible and Add No Perceptible Latency Nortel Prototype Demoed AES-256 Encryption [e.g. NSA Approved for U.S. Top Secret] Less than 500 nsecs Latency Added Optical Multi-service Edge (OME) Switching Hardware Used on Lightpaths from Amsterdam and Canada thru Starlight to San Diego Source: Kim RobertsNortel

Supercomputing Services EnableDistributed Cosmology Simulations: 

Supercomputing Services Enable Distributed Cosmology Simulations Uses ENZO Computational Cosmology Code Grid-Based Adaptive Mesh Refinement Simulation Code Developed by Mike Norman, UCSD Distributing Code Using Layer 3 Routers Fails Instead Using Layer 2, Essentially Same Performance as Running on Single Supercomputer Using Dynamic Lightpath Provisioning Source: Joe Mambretti, Northwestern U

Lambda Services Enable the First Trans-Pacific Super High Definition Telepresence Conference: 

Lambda Services Enable the First Trans-Pacific Super High Definition Telepresence Conference

Visualization Services Create High Resolution Portals to Global Science Data: 

Visualization Services Create High Resolution Portals to Global Science Data 650 Mpixel 2-Photon Microscopy Montage of HeLa Cultured Cancer Cells Green: Actin Red: Microtubles Light Blue: DNA Source: Mark Ellisman, David Lee, Jason Leigh, Tom Deerinck

Scientific Instrument Services EnableRemote Interactive HD Imaging of Deep Sea Vent: 

Scientific Instrument Services Enable Remote Interactive HD Imaging of Deep Sea Vent Source John Delaney andamp; Deborah Kelley, UWash Canadian-U.S. Collaboration

Tiled Walls Allow for Integration of Streaming High Resolution Video: 

Tiled Walls Allow for Integration of Streaming High Resolution Video Calit2@UCI Apple Tiled Display Wall Driven by 25 Dual-Processor G5s 50 Apple 30' Cinema Displays 200 Million Pixels of Viewing Real Estate! Source: Falko Kuester, Calit2@UCI NSF Infrastructure Grant Data—One Foot Resolution USGS Images of La Jolla, CA

Combining Telepresence with Remote Interactive Analysis of Data Over NLR: 

Combining Telepresence with Remote Interactive Analysis of Data Over NLR HDTV Over Lambda OptIPuter Visualized Data SIO/UCSD NASA Goddard www.calit2.net/articles/article.php?id=660 August 8, 2005

Calit2 is Partnering with GLIF Innovation Centers to Drive LambdaGrid Services and Applications: 

Calit2 is Partnering with GLIF Innovation Centers to Drive LambdaGrid Services and Applications OptIPuter Partners Netherlands Univ. of Amsterdam--LambdaServices SARA—Remote Visualization and VR Japan AIST—Telepresence Keio Univ—Digital Cinema Korea KISTI—Telemicroscopy Mexico CICESE—Earth Sciences Canada NEPTUNE/CANARIE—Ocean Observing

From “Supercomputer–Centric” to “Supernetwork-Centric” Cyberinfrastructure: 

From 'Supercomputer–Centric' to 'Supernetwork-Centric' Cyberinfrastructure Megabit/s Gigabit/s Terabit/s Network Data Source: Timothy Lance, President, NYSERNet 32x10Gb 'Lambdas' 1 GFLOP Cray2 60 TFLOP Altix Bandwidth of NYSERNet Research Network Backbones T1 Optical WAN Research Bandwidth Has Grown Much Faster Than Supercomputer Speed! Computing Speed (GFLOPS)

Analogies Between Bringing Applications to Supercomputers and to LambdaGrids: 

Analogies Between Bringing Applications to Supercomputers and to LambdaGrids Pioneering Phase: At first there was hardly any 'real' science being done. Rather, a few pioneer scientists were allowing their codes to be used to understand how to restructure the code to take advantage of the high performance hardware or to set up visualization capabilities or remote interactive control of the supercomputer Homesteader Phase: Gradually as those pioneers allowed the hardware and software of the infrastructure to mature, a second generation of 'homesteaders' showed up and started using the infrastructure to do science… iGrid2005--Pioneering Phase GLIF 2006 in Tokyo Should be all about Homesteading Science that can be done with a Global Optical Grid...

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