Grand challenges to computational science
Future Generation Computer Systems
Supercompilers for parallel and vector computers
Supercompilers for parallel and vector computers
Supercomputing: big bang or steady state growth?
ACM SIGARCH Computer Architecture News
The computer science and engineering handbook
The computer science and engineering handbook
Communications of the ACM
Models and languages for parallel computation
ACM Computing Surveys (CSUR)
The grid: blueprint for a new computing infrastructure
The grid: blueprint for a new computing infrastructure
Advanced Computer Architecture: Parallelism,Scalability,Programmability
Advanced Computer Architecture: Parallelism,Scalability,Programmability
Academic Programs in Computational Science & Engineering
IEEE Computational Science & Engineering
Computational Verifiability and Feasibility of the ASCI Program
IEEE Computational Science & Engineering
OpenMP: An Industry-Standard API for Shared-Memory Programming
IEEE Computational Science & Engineering
CONPAR 94 - VAPP VI Proceedings of the Third Joint International Conference on Vector and Parallel Processing: Parallel Processing
TOP500 Supercomputer Sites, 11th Edition
TOP500 Supercomputer Sites, 11th Edition
Shared virtual memory on loosely coupled multiprocessors
Shared virtual memory on loosely coupled multiprocessors
Debugging Large-Scale, Long-Running Parallel Programs
ICCS '02 Proceedings of the International Conference on Computational Science-Part II
DeWiz - Modular Debugging for Supercomputers and Computational Grids
ICCS '01 Proceedings of the International Conference on Computational Science-Part II
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Following in the wake of the Accelerated Strategic Computing Initiative (ASCI) of the US Department of Energy, in the forthcoming years powerful new supercomputers will be brought into the market by the manufacturers participating in the high-performance computing race. Hence, the large-scale computing facilities in the key research centers and industrial plants world-wide will surpass the teraflops performance barrier, too. The parallel architectures will be further extended to hierarchically clustered parallel computers mainly based on commoditychip processors and SMP nodes tying together possibly tens of thousands of processing elements. In addition, heterogeneous computing and metacomputing will determine future large-scale computing by interconnecting supercomputers of diverse architectures as giant supercomputer complexes. These developments will challenge not only system reliability, availability and serviceability to novel levels, but also interactivity of concurrent algorithms and, in particular, adaptivity, accuracy and stability of parallel numerical methods.