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This book presents the state of the art in High Performance
Computing on modern supercomputer architectures. It addresses
trends in hardware and software development in general, as well as
the future of High Performance Computing systems and heterogeneous
architectures. The contributions cover a broad range of topics,
from improved system management to Computational Fluid Dynamics,
High Performance Data Analytics, and novel mathematical approaches
for large-scale systems. In addition, they explore innovative
fields like coupled multi-physics and multi-scale simulations. All
contributions are based on selected papers presented at the 26th
and 28th Workshops on Sustained Simulation Performance, held at the
High Performance Computing Center, University of Stuttgart,
Germany, in October 2017 and 2018, and the 27th and 29th Workshops
on Sustained Simulation Performance, held at the Cyberscience
Center, Tohoku University, Japan, in March 2018 and 2019.
This book presents the state of the art in High Performance
Computing on modern supercomputer architectures. It addresses
trends in hardware and software development in general, as well as
the future of High Performance Computing systems and heterogeneous
architectures. The contributions cover a broad range of topics,
from improved system management to Computational Fluid Dynamics,
High Performance Data Analytics, and novel mathematical approaches
for large-scale systems. In addition, they explore innovative
fields like coupled multi-physics and multi-scale simulations. All
contributions are based on selected papers presented at the 26th
and 28th Workshops on Sustained Simulation Performance, held at the
High Performance Computing Center, University of Stuttgart,
Germany, in October 2017 and 2018, and the 27th and 29th Workshops
on Sustained Simulation Performance, held at the Cyberscience
Center, Tohoku University, Japan, in March 2018 and 2019.
The book presents the state of the art in high-performance
computing and simulation on modern supercomputer architectures. It
explores general trends in hardware and software development, and
then focuses specifically on the future of high-performance systems
and heterogeneous architectures. It also covers applications such
as computational fluid dynamics, material science, medical
applications and climate research and discusses innovative fields
like coupled multi-physics or multi-scale simulations. The papers
included were selected from the presentations given at the 20th
Workshop on Sustained Simulation Performance at the HLRS,
University of Stuttgart, Germany in December 2015, and the
subsequent Workshop on Sustained Simulation Performance at Tohoku
University in February 2016.
This book presents the state of the art in High Performance
Computing on modern supercomputer architectures. It addresses
trends in hardware and software development in general, as well as
the future of High Performance Computing systems and heterogeneous
architectures. The contributions cover a broad range of topics,
from improved system management to Computational Fluid Dynamics,
High Performance Data Analytics, and novel mathematical approaches
for large-scale systems. In addition, they explore innovative
fields like coupled multi-physics and multi-scale simulations. All
contributions are based on selected papers presented at the 24th
Workshop on Sustained Simulation Performance, held at the
University of Stuttgart's High Performance Computing Center in
Stuttgart, Germany in December 2016 and the subsequent Workshop on
Sustained Simulation Performance, held at the Cyberscience Center,
Tohoku University, Japan in March 2017.
The book presents the state of the art in high-performance
computing and simulation on modern supercomputer architectures. It
explores general trends in hardware and software development, and
then focuses specifically on the future of high-performance systems
and heterogeneous architectures. It also covers applications such
as computational fluid dynamics, material science, medical
applications and climate research and discusses innovative fields
like coupled multi-physics or multi-scale simulations. The papers
included were selected from the presentations given at the 20th
Workshop on Sustained Simulation Performance at the HLRS,
University of Stuttgart, Germany in December 2015, and the
subsequent Workshop on Sustained Simulation Performance at Tohoku
University in February 2016.
The book presents the state of the art in high-performance
computing and simulation on modern supercomputer architectures. It
covers trends in hardware and software development in general, and
the future of high-performance systems and heterogeneous
architectures specifically. The application contributions cover
computational fluid dynamics, material science, medical
applications and climate research. Innovative fields like coupled
multi-physics or multi-scale simulations are also discussed. All
papers were chosen from presentations given at the 20th Workshop on
Sustained Simulation Performance in December 2014 at the HLRS,
University of Stuttgart, Germany, and the subsequent Workshop on
Sustained Simulation Performance at Tohoku University in February
2015.
The book presents the state of the art in high performance
computing and simulation on modern supercomputer architectures. It
covers trends in hardware and software development in general and
specifically the future of vector-based systems and heterogeneous
architectures. The application contributions cover computational
fluid dynamics, material science, medical applications and climate
research. Innovative fields like coupled multi-physics or
multi-scale simulations are presented. All papers were chosen from
presentations given at the 13th Teraflop Workshop held in October
2010 at Tohoku University, Japan.
This book presents the state of the art in high-performance
computing and simulation on modern supercomputer architectures. It
covers trends in hardware and software development in general and
the future of high-performance systems and heterogeneous
architectures in particular. The application-related contributions
cover computational fluid dynamics, material science, medical
applications and climate research; innovative fields such as
coupled multi-physics and multi-scale simulations are highlighted.
All papers were chosen from presentations given at the 18th
Workshop on Sustained Simulation Performance held at the HLRS,
University of Stuttgart, Germany in October 2013 and subsequent
Workshop of the same name held at Tohoku University in March 2014.
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Sustained Simulation Performance 2012 - Proceedings of the joint Workshop on High Performance Computing on Vector Systems, Stuttgart (HLRS), and Workshop on Sustained Simulation Performance, Tohoku University, 2012 (Hardcover, 2013)
Michael M Resch, Xin Wang, Wolfgang Bez, Erich Focht, Hiroaki Kobayashi
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R2,960
Discovery Miles 29 600
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Ships in 10 - 15 working days
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The book presents the state of the art in high performance
computing and simulation on modern supercomputer architectures. It
covers trends in hardware and software development in general and
specifically the future of high performance systems and
heterogeneous architectures. The application contributions cover
computational fluid dynamics, material science, medical
applications and climate research. Innovative fields like coupled
multi-physics or multi-scale simulations are presented. All papers
were chosen from presentations given at the 14th Teraflop Workshop
held in December 2011 at HLRS, University of Stuttgart, Germany and
the Workshop on Sustained Simulation Performance at Tohoku
University in March 2012.
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