Supercomputing: Directions in Technology, Architecture and Applications
NCSA is the Leading Edge Site for the National Computational Science Alliance
Scientific Applications Continue to Require Exponential Growth in Capacity
The Promise of the Teraflop - From Thunderstorm to National-Scale Simulation
Accelerated Strategic Computing Initiative is Coupling DOE Defense Labs to Universities
Comparison of the DoE ASCI and the NSF PACI Origin Array Scale Through FY99
NCSA Combines Shared Memory Programming with Massive Parallelism
The Exponential Growth of NCSA’s SGI Shared Memory Supercomputers
TOP500 Systems by Vendor
Why NCSA Switched From Vector to RISC Processors
Replacement of Shared Memory Vector Supercomputers by Microprocessor SMPs
Top500 Shared Memory Systems
Simulation of the Evolution of the Universe on a Massively Parallel Supercomputer
Limitations of Uniform Grids for Complex Scientific and Engineering Problems
Use of Shared Memory Adaptive Grids To Achieve Dynamic Load Balancing
Extreme and Large PIs Dominant Usage of NCSA Origin
Disciplines Using the NCSA Origin 2000 CPU-Hours in March 1995
A Variety of Discipline Codes - Single Processor Performance Origin vs. T3E
Solving 2D Navier-Stokes Kernel - Performance of Scalable Systems
Alliance PACS Origin2000 Repository
High-End Architecture 2000- Scalable Clusters of Shared Memory Modules
Emerging Portable Computing Standards
Basket of Applications Average Performance as Percentage of Linpack Performance
Harnessing Distributed UNIX Workstations - University of Wisconsin Condor Pool
NT Workstation Shipments Rapidly Surpassing UNIX
First Scaling Testing of ZEUS-MP on CRAY T3E and Origin vs. NT Supercluster
NCSA NT Supercluster Solving Navier-Stokes Kernel
Near Perfect Scaling of Cactus - 3D Dynamic Solver for the Einstein GR Equations
NCSA Symbio - A Distributed Object Framework Bringing Scalable Computing to NT Desktops
The Road to Merced
Email: lsmarr@ncsa.uiuc.edu
Home Page: http://www.ncsa.uiuc.edu/People/pls
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