Abstract Over the past several years, computational scientists have observed a frustrating trend of stagnating application performance despite dramatic increases in peak performance of high performance computers. I
The number of cores in high-end systems for scientific computing are employing is increasing rapidly...
Data-intensive computing is producing major advances Scientists are still responsible for major aspe...
For many scientific and engineering applications the computational needs are growing faster than the...
Over the past several years, computational scientists have observed a frustrating trend of stagnati...
There is a growing gap between the peak speed of parallelcomputing systems and the actual delivered ...
There is a growing gap between the peak speed of parallel computing systems and the actual delivere...
The Department of Energy s Leadership Computing Facility, located at Oak Ridge National Laboratory s...
This document proposes a multi-site strategy for creating a new class of computing capability for th...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
Studies of computational scientists developing software for high-performance computing systems indic...
Computational science and engineering (CSE) has been misunderstood to advance with the construction ...
Since 2006, we have been experiencing two very important developments in computing. One is that trem...
scientists developing software for HPC systems face unique software engineering issues. Attempts to ...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
This paper will examine the current and near future trends for commercially available high-performan...
The number of cores in high-end systems for scientific computing are employing is increasing rapidly...
Data-intensive computing is producing major advances Scientists are still responsible for major aspe...
For many scientific and engineering applications the computational needs are growing faster than the...
Over the past several years, computational scientists have observed a frustrating trend of stagnati...
There is a growing gap between the peak speed of parallelcomputing systems and the actual delivered ...
There is a growing gap between the peak speed of parallel computing systems and the actual delivere...
The Department of Energy s Leadership Computing Facility, located at Oak Ridge National Laboratory s...
This document proposes a multi-site strategy for creating a new class of computing capability for th...
Over the last several decades we have witnessed tremendous change in the landscape of computer archi...
Studies of computational scientists developing software for high-performance computing systems indic...
Computational science and engineering (CSE) has been misunderstood to advance with the construction ...
Since 2006, we have been experiencing two very important developments in computing. One is that trem...
scientists developing software for HPC systems face unique software engineering issues. Attempts to ...
For more than a decade single compute core performance is no longer doubling every 18-24months. Phys...
This paper will examine the current and near future trends for commercially available high-performan...
The number of cores in high-end systems for scientific computing are employing is increasing rapidly...
Data-intensive computing is producing major advances Scientists are still responsible for major aspe...
For many scientific and engineering applications the computational needs are growing faster than the...