Contemporary High Performance Computing
From Petascale toward Exascale, Volume Two
Jeffrey S. Vetter (Redaktør)
HPC is used to solve a number of complex questions in computational and data-intensive sciences. These questions include the
simulation and modeling of physical phenomena, such as climate change, energy production, drug design, global security, and materials design; the analysis of large data sets such as those in genome
sequencing, astronomical observation, and cybersecurity; and the intricate design of engineered products, such as airplanes
and automobiles. Les mer
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Paperback
Legg i
Vår pris:
961,-
(Paperback)
Fri frakt!
Leveringstid:
Sendes innen 21 dager
HPC is used to solve a number of complex questions in computational and data-intensive sciences. These questions include the
simulation and modeling of physical phenomena, such as climate change, energy production, drug design, global security, and
materials design; the analysis of large data sets such as those in genome sequencing, astronomical observation, and cybersecurity;
and the intricate design of engineered products, such as airplanes and automobiles.
This second volume of Contemporary High Performance Computing: From Petascale toward Exascale continues to document international HPC ecosystems, including the sponsors and sites that host them. Each chapter is punctuated with a site's flagship system and:
Presents highlights of applications, workloads, and benchmarks
Describes hardware architectures, system software, and programming systems
Explores storage, visualization, and analytics
Examines the data center/facility as well as system statistics
Featuring pictures of buildings and systems in production, floorplans, and many block diagrams and charts to illustrate system design and performance, Contemporary High Performance Computing: From Petascale toward Exascale, Volume Two delivers a detailed snapshot of the rich history of practice in modern HPC. This book provides a valuable reference for researchers in HPC and computational science.
This second volume of Contemporary High Performance Computing: From Petascale toward Exascale continues to document international HPC ecosystems, including the sponsors and sites that host them. Each chapter is punctuated with a site's flagship system and:
Presents highlights of applications, workloads, and benchmarks
Describes hardware architectures, system software, and programming systems
Explores storage, visualization, and analytics
Examines the data center/facility as well as system statistics
Featuring pictures of buildings and systems in production, floorplans, and many block diagrams and charts to illustrate system design and performance, Contemporary High Performance Computing: From Petascale toward Exascale, Volume Two delivers a detailed snapshot of the rich history of practice in modern HPC. This book provides a valuable reference for researchers in HPC and computational science.
- FAKTA
-
Utgitt:
2019
Forlag: CRC Press
Innbinding: Paperback
Språk: Engelsk
Sider: 255
ISBN: 9780367377755
Format: 23 x 16 cm
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Gi vurdering
Les vurderinger
Introduction. ARCHER. Enabling Extreme Scale Science at NERSC. HLRN-III at Zuse Institute Berlin. The K Computer. Lindgren-The
Swedish Tier-1 System. Peregrine at the National Renewable Energy Laboratory. Yellowstone: A Dedicated Resource for Earth
System Science.
Jeffrey S. Vetter holds a joint appointment at Oak Ridge National Laboratory (ORNL) and the Georgia Institute of Technology
(Georgia Tech). At ORNL, he is a distinguished R&D staff member and the founding group leader of the Future Technologies
Group in the Computer Science and Mathematics Division. At Georgia Tech, Dr. Vetter is a professor in the Computational Science
and Engineering School of the College of Computing, the principal investigator for the NSF XSEDE Keeneland GPU Supercomputer,
and the director of the NVIDIA CUDA Center of Excellence. He earned his Ph.D in computer science from Georgia Tech. A senior
member of the IEEE and a distinguished scientist member of the ACM, Dr. Vetter has published more than 130 peer-reviewed papers
and has been a recipient of the ACM Gordon Bell Prize. His current research explores the role of emerging technologies in
high performance computing.