Netcast Archive

These are .wmv files and need to be played with Windows Media Player (probably won't work with Realplayer).

Monday

• Opening Session
  Session Chair: William Tang, PPPL
• Opening Address: Introductory Comments
  Michael Strayer, SciDAC Program Director
• Keynote: Simulation of Lean Premixed Turbulent Combustion
  John Bell, LBNL
• Computer Science: e-Science and Cyberinfrastructure
  Tony Hey, Microsoft
• Computer Science: Designing Large Multiphysics Applications
  Andrew Siegel, ANL
• Applied Math: Component-Based Geometry and Mesh Services for Accelerator Modeling, Fusion Science, and other SciDAC Applications
  Timothy Tautges, Sandia
• Accelerators: SciDAC and the International Linear Collider: Petascale Computing for Terascale Accelerator
  Kwok Ko, SLAC
• Accelerators: QuickPIC: a highly efficient fully parallelized PIC code for plasma-based acceleration
  Chengkun Huang, UCLA
• Applied Math: Improving the Capabilities of Continuum Computational Plasma Physics Codes
  Jeff Hittinger, LLNL
• Fusion: Gyrokinetic Particle Simulation of Fusion Plasmas: path to petascale computing
  Wei-Li Lee, PPPL
• Fusion: Computing Nonlinear Magnetohydrodynamic Instabilities in Fusion Plasmas
  Dylan Brennan, GA/MIT
• Combustion: Turbulent Liquid Spray Mixing and Combustion – Fundamental Simulations
  Chris Rutland, U. Wisconsin
• Combustion: Large Eddy Simulation of Turbulence-Chemistry Interactions in Reacting Flows
  The Role of High-Performance Computing and Advanced Experimental Diagnostics
  Joe Oefelein, Sandia

Tuesday

• William Tang and David Keyes
• ASCI: Integrated validation of multiscale models
  Dan Meiron, CalTech
• Accelerators: Extraordinary Tools for Extraordinary Science: The Impact of SciDAC on Accelerator Science & Technology
  Rob Ryne, LBNL
• Climate: Future Changes in the North Atlantic Thermohaline Circulation
  Peter Gent, NCAR
• Climate: Toward an Earth System Model: Atmospheric Chemistry, Coupling, and Petascale Computing
  Philip Cameron-Smith, LLNL
• Viz: Visualization of Large-Scale Time-Varying Scientific Data
  Han-Wei Shen, OSU
• Materials: Large-Scale First-Principles Molecular Dynamics: Moving from Terascale to Petascale Computing
  Francois Gygi, UC-Davis
  
• Materials: Large Scale Simulation of Fracture in Disordered Media
  Phani Nukala, ORNL
• Networking: The Future of Networking for Computational Science
  Charlie Catlett, ANL
• Astro:Modeling Core Collapse Supernovae in 2- and 3- Dimensions with Spectral and Neutrino Transport
  Steve Bruenn, FAU
• Astro: The Challenges of Modeling Type Ia Supernovae
  Mike Zingale, SUNYSB
• Viz: Quantitative and Comparative Visualization Applied to Cosmological Simulations
  James Ahrens, LANL

Wednesday

• Lattice QCD: Precision lattice QCD calculations and predictions of fundamental physics in heavy quark systems
  Christine Davies, U. Glasgow
• Astro: Large-Scale Simulations of Turbulent Stellar Convection Flows and the Outlook for Petascale Computation
  Paul Woodward, U. Minnesota
• Computer Science: How The Common Component Architecture Advances Computational Science
  Gary Kumfert, LLNL
• Chemistry: Enabling New Capabilities and Insights from Quantum Chemistry by Using Component Architectures
  Curtis Janssen, Sandia
• Chemistry: When you come to a fork in the road, take it: wisdom from Yogi on the path to Petascale
  Robert Harrison, ORNL
• Biology: How Petascale Computing Will Accelerate the Development of Biological Theory
  Rick Stevens, ANL/U. Chicago
• Biology: Advanced Simulation Methods for Biological Modeling
  Adam Arkin, LBNL
• Applied Math: Extending the Applicability of Multigrid Methods
  James Brannick, CU-Boulder
• Viz/Medicine: Biomedical Visualization
  Chris Johnson, U. Utah
• Computer Science: Using Meshes, Matrices, and Particles in Partitioned Global Address Space (PGAS) languages
  Kathy Yelick, UC-Berkeley
• Computer Science: Accelerating the Scientific Exploration Process with Scientific Workflows
  Ilkay Altinas, SDSC

Thursday

• Biology: The Arrival of the Era of High Resolution Structural Biology by Peta-scale Computation
  Charlie Strauss, LANL
• Materials: Simulating Solidification in Metals at High Pressure -- The Drive to Peta-scale Computing
  Frederick Streitz, LLNL
• Applied Math: Implicit Solvers for Large-Scale Nonlinear Systems
  Carol Woodward, LLNL
  Dan Reynolds presenting
• Lattice QCD: Innovations in Lattice QCD Algorithms
  Kostas Orginos, William & Mary
• Lattice QCD: Lattice Simulations of the Thermodynamics of Strongly Interacting Elementary Particles and the Exploration of New Phases of Matter in Relativistic Heavy Ion Collisions
  Frithjof Karsch, BNL
• Nuclear Energy: Simulation, Computation and the Global Nuclear Energy Partnership
  Vic Reis, DOE-NE
• IBM Blue Gene: Petascale Challenges: A Blue Gene View
  Alan Garra, IBM
• IBM Cell: Opportunities for Cell Beyond Games
  Peter Hofstee, IBM
• Cray XTN: Next Steps Toward Sustained Petaflop Computing
  Dennis Abts, Cray
• DOE Keynote: One hour invited talk
  Session Chair: William Tang, PPPL