Center for Advanced Computing Research » exascale computing. Professor Peter Kogge University of Notre Dame March 12, 2010 2PM 147 Noyes Abstract DARPA recently funded a 2 year study of the technical challenges of trying to go from today’s petascale computing to exascale – 1000X – in roughly half the time it took to get from terascale to petascale. This talk will summarize this study, with a particular focus on the most far-reaching of the challenges, namely energy. This will be expanded on by an overview of a recent study of energy consumption within the Linpack algorithm which indicates strongly that we have probably crossed a threshold where the real energy and power problems of the future are in the memory and interconnect – not the processing logic.
Bio Dr. Tera-scale Computing Research Program. Index - acrc home page. CRD: High Performance Computing Research Department. Supercomputing and Parallel Computing Research Groups. Note: I've moved on to another job, and I can no longer afford the time to keep this site updated. I recommend IEEE's ParaScope as a good alternative. Academic research groups working in the field of supercomputing and parallel computing.
An object-Based Concurrent Language. Model of concurrency based on parallel active objects. Adl Data parallel functional programming languages for distributed memory architectures. Adsmith Object-Based DSM Environment on PVM. Alewife Large-scale multiprocessor with shared memory and message passing. Active-Message Driven Computing. Active Messages. Parallel Architectures group. APE/Quadrics High performance simulations of lattice gauge theories and QCD. AppLeS Application Level Scheduling. Automap Task parallel coordination language for dynamic applications. Avalanche Multiprocessor with distributed shared memory and message passing. Aztec Iterative sparse linear solver for unstructured sparse matrics.
Bulk Synchronous Parallel model research group. CarlOS Cashmere Chant.