Exascale supercomputing will embody many revolutionary changes in the hardware and software of high-performance computing. A particularly pressing issue is gaining insight into the science behind the exascale computations. Power and I/O speed con- straints will fundamentally change current visualization and analysis work ows. A traditional post-processing work ow involves storing simulation results to disk and later retrieving them for visualization and data analysis. However, at exascale, scien- tists and analysts will need a range of options for moving data to persistent storage, as the current o ine or post-processing pipelines will not be able to capture the data necessary for data analysis of these extreme scale simulations. This Miles...
Exascale eScience infrastructures will face important and critical challenges, both from computation...
per second) is the next proxy in the long trajectory of exponential performance increases that has c...
Scientific computation has come into its own as a mature technology in all fields of science. Never ...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
This report documents thirteen of Sandia's contributions to the Computational Systems and Software E...
A key trend facing extreme-scale computational science is the widening gap between computational and...
Traditionaly, the primary role of supercomputers was to create data, primarily for simulation appl...
Recent developments in European supercomputing are reviewed covering both the latest hardware trends...
Supercomputing at scale has become the decisive challenge for users, providers and vendors of leadin...
c © The Authors 2015. This paper is published with open access at SuperFri.org Extreme scale paralle...
We aim to implement a Big Data/Extreme Computing (BDEC) capable system infrastructure as we head tow...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Major efforts to build an exascale class computer are under way in four regions of the world. This t...
Exascale eScience infrastructures will face important and critical challenges, both from computation...
per second) is the next proxy in the long trajectory of exponential performance increases that has c...
Scientific computation has come into its own as a mature technology in all fields of science. Never ...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
Today’s large-scale simulations deal with complex geometries and numerical data on an extreme scale...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
This report documents thirteen of Sandia's contributions to the Computational Systems and Software E...
A key trend facing extreme-scale computational science is the widening gap between computational and...
Traditionaly, the primary role of supercomputers was to create data, primarily for simulation appl...
Recent developments in European supercomputing are reviewed covering both the latest hardware trends...
Supercomputing at scale has become the decisive challenge for users, providers and vendors of leadin...
c © The Authors 2015. This paper is published with open access at SuperFri.org Extreme scale paralle...
We aim to implement a Big Data/Extreme Computing (BDEC) capable system infrastructure as we head tow...
Developing a computer system that can deliver sustained Exaflop performance is an extremely difficul...
Major efforts to build an exascale class computer are under way in four regions of the world. This t...
Exascale eScience infrastructures will face important and critical challenges, both from computation...
per second) is the next proxy in the long trajectory of exponential performance increases that has c...
Scientific computation has come into its own as a mature technology in all fields of science. Never ...