Scientific frontiers — astrophysics, whole genome sequencing, tectonic modeling, and so on — demand faster and bigger computers to analyze an avalanche of data and advance our knowledge. A quest for answers to these grand scientific challenges is the main motivation behind developing and building exascale supercomputers and beyond
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
Exascale eScience infrastructures will face important and critical challenges, both from computation...
SPPEXA Annual Meeting 26 Jan 2016, Leibniz Supercomputing Centre, Munich, Germany.US President Obam...
Scientific computation has come into its own as a mature technology in all fields of science. Never ...
The goal of the "Scientific Grand Challenges - Crosscutting Technologies for Computing at the Exasca...
Supercomputing at scale has become the decisive challenge for users, providers and vendors ofleading...
per second) is the next proxy in the long trajectory of exponential performance increases that has c...
Astrophysics is at the threshold of a new epoch in which increasinglycomplex, heterogeneous datasets...
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...
The Department of Energy s Leadership Computing Facility, located at Oak Ridge National Laboratory s...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
Major efforts to build an exascale class computer are under way in four regions of the world. This t...
The next frontier of high performance computing is the Exascale, and this will certainly stand as a ...
One important question for science and society is how to best promote scientific progress. Inspired ...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
Exascale eScience infrastructures will face important and critical challenges, both from computation...
SPPEXA Annual Meeting 26 Jan 2016, Leibniz Supercomputing Centre, Munich, Germany.US President Obam...
Scientific computation has come into its own as a mature technology in all fields of science. Never ...
The goal of the "Scientific Grand Challenges - Crosscutting Technologies for Computing at the Exasca...
Supercomputing at scale has become the decisive challenge for users, providers and vendors ofleading...
per second) is the next proxy in the long trajectory of exponential performance increases that has c...
Astrophysics is at the threshold of a new epoch in which increasinglycomplex, heterogeneous datasets...
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...
The Department of Energy s Leadership Computing Facility, located at Oak Ridge National Laboratory s...
From the Foreword: “The authors of the chapters in this book are the pioneers who will explore the e...
Major efforts to build an exascale class computer are under way in four regions of the world. This t...
The next frontier of high performance computing is the Exascale, and this will certainly stand as a ...
One important question for science and society is how to best promote scientific progress. Inspired ...
The next generation of supercomputers will break the exascale barrier. Soon we will have systems cap...
Exascale eScience infrastructures will face important and critical challenges, both from computation...
SPPEXA Annual Meeting 26 Jan 2016, Leibniz Supercomputing Centre, Munich, Germany.US President Obam...