Presentations
Jacquard Overview: a high-level description of system, processors, interconnect, file systems, compilers, benchmarking, etc
Jacquard Nodes and CPUs: Opteron basics, differences from POWER 3, node configuration, memory layout, processor affinity
High Speed Interconnect and MVAPICH: InfiniBand characteristics (latency, bandwidth), network topology, differences from Seaborg, MVAPICH overview
Compiling: Pathscale Fortran, C, C++; mpif90, mpicc, mpicxx, recommended compiler options, useful compiler options, libraries, porting from Seaborg, porting from other Linux clusters
Running Jobs: Batch system, PBS overview, queues, submitting jobs, monitoring jobs, interactive jobs, differences from LoadLeveler
Software overview: user environment, libraries, debuggers and programming tools
Science Driven Computing: NERSC's Five-Year Plan for 2005 - 2010
NERSC/LBNL Data Analytics Project
Progress in Supercomputing: The Top Three Breakthroughs of the Last 20 Years and the Top Three Challenges for the Next 20 Years
Scientific Computing Highlight II: High-Fidelity Terascale Simulations of Turbulent Combustion
Scientific Computing Highlight III: Feeding the Pipeline: The SNfactory Search for Nearby Supernovae
Measurements in recent years of the rate of acceleration of the universe's expansion, and of the density of "dark energy" believed to be driving it, hinge on observations of type Ia supernovae (SNe Ia). The Nearby Supernova Factory (SNfactory) will produce flux-calibrated spectrophotometry of 300 SNe Ia in the local universe (0.03 < z < 0.08). This new data set will greatly increase the number of SNe Ia available for cosmological measurements in this redshift range, reducing statistical uncertainties on cosmological parameters.