Contemporary High Performance Computing: From Petascale toward Exascale, Volume 3

— —

Jeffrey S. Vetter (Oak Ridge National Laboratory, Tennessee, USA)

Contemporary High Performance Computing

From Petascale toward Exascale, Volume 3

Jeffrey S. Vetter (Oak Ridge National Laboratory, Tennessee, USA)

$273

Hardback

Not in-store but you can order this
How long will it take?

Availability Information

We source books from suppliers in Australia and overseas. For books we don't currently have in stock, the time it takes to get them from our suppliers can vary widely - from a few days to a few months - so we check each book with each supplier to determine the expected time it will take to be supplied to us.

We then advise you accordingly. If the time taken to get any book is too long for you, you can let us know and we will cancel or adjust your order, and refund as required.

To find out the anticipated arrival time for specific items prior to ordering, please contact us by phone or email:

Phone +61 2 9264 3111, or 1800 4 BOOKS (1800 4 26657) if outside Sydney:
option 1 Abbey's Bookshop (Crime, History, Science, Kids & more) • info@abbeys.com.au
option 2 Language Book Centre (ESL & Foreign Languages) • language@abbeys.com.au
option 3 Galaxy Bookshop (Sci-fi, Fantasy, Romance, Graphic Novels) • sf@galaxybooks.com.au

QTY:

English

CRC Press
14 May 2019

Supercomputers; Computer architecture & logic design

Series: Chapman & Hall/CRC Computational Science

Contemporary High Performance Computing: From Petascale toward Exascale, Volume 3 focuses on the ecosystems surrounding the world’s leading centers for high performance computing (HPC). It covers many of the important factors involved in each ecosystem: computer architectures, software, applications, facilities, and sponsors.

This third volume will be a continuation of the two previous volumes, and will include other HPC ecosystems using the same chapter outline: description of a flagship system, major application workloads, facilities, and sponsors.

Features:

Describes many prominent, international systems in HPC from 2015 through 2017 including each system’s hardware and software architecture

Covers facilities for each system including power and cooling

Presents application workloads for each site

Discusses historic and projected trends in technology and applications

Includes contributions from leading experts

Designed for researchers and students in high performance computing, computational science, and related areas, this book provides a valuable guide to the state-of-the art research, trends, and resources in the world of HPC.

Edited by: Jeffrey S. Vetter (Oak Ridge National Laboratory Tennessee USA)
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions: Height: 254mm, Width: 178mm,
Weight: 635g
ISBN: 9781138487079
ISBN 10: 1138487074
Series: Chapman & Hall/CRC Computational Science
Pages: 454
Publication Date: 14 May 2019
Audience: Professional and scholarly , Undergraduate
Format: Hardback
Publisher's Status: Active

1. Australian Government Bureau of Meteorology 2. Theta and Mira at Argonne National Laboratory 3. Enabling HPC Applications on a Cray XC40 with Manycore CPUs 4. The Mont-Blanc Prototype 5. Chameleon 6. CSCS and the Piz Daint System 7. Facility Best Practices 8. Jetstream 9. Modular Supercomputing architecture: from idea to production 10. SuperMUC at LRZ 11. The NERSC Cori HPC System 12. Lomonosov-2 13. Electra 14. Bridges: Converging HPC, AI, and Big Data for Enabling Discovery 15. Stampede at TACC 16. Oakforest-PACS 17. CHPC in South Africa

Jeffrey S. Vetter, Ph.D., is a Distinguished R&D Staff Member, and the founding group leader of the Future Technologies Group in the Computer Science and Mathematics Division of Oak Ridge National Laboratory. Vetter also holds a joint appointment at the Electrical Engineering and Computer Science Department of the University of Tennessee-Knoxville. From 2005 through 2015, Vetter held a Joint position at Georgia Institute of Technology, where, from 2009 to 2015, he was the Principal Investigator of the NSF Track 2D Experimental Computing XSEDE Facility, named Keeneland, for large scale heterogeneous computing using graphics processors, and the Director of the NVIDIA CUDA Center of Excellence.