Contemporary High Performance Computing

Name: Contemporary High Performance Computing
Brand: Taylor & Francis Inc
SKU: 9781466568341
Price: 179.8 EUR
Availability: InStock

€179.80

Product variants

Quantity:

4.8/5

Judge.me

603 verified reviews

100% verified

In stock with our UK publisher. 14-28 days

Delivery/Collection within 10-20 working days

14 days return policy Shipping & Delivery

accelerator computing

Ada Gavrilovska

Adam Bertsch

Adam Scovel

Akihiko Nomura

Albert Nichols

Albert Reuther

Alexander Tikhonravov

Allan Snavely

AMD Opteron

Amith R. Mamidala

Amy Wang

Andrew A. Schram

Andrew Grimshaw

Andrew Prout

Anna Maria Bailey

Anping Liu

Antonio Rosa

Arnold Tharrington

Arthur A. Mirin

Arthur Bland

Barna Bihari

Becky Springmeyer

Bernd Mohr

Blue Gene

Blue Gene/Q

Blue GeneQ

Brett Bode

Brian Carnes

Bronis de Supinski

Bryan Biegel

Category=UB

Category=UKC

Category=UYF

Chansup Byun

Charles Bacon

Charles Yee

Chris Henze

clouds and grids in high performance computing

cluster architecture

Co-array FORTRAN

CoArray Fortran

Colin McMurtrie

computational science

Compute Nodes

Cpu Socket

Cray XE6

Cray XK6

Cray XK7

Cray XT

Cray XT5 System

data centre management

Data Intensive Computing

David Bestor

David Richards

Devarshi Ghoshal

Don Maxwell

Dong Chen

Elisabeth Charon

Energy Efficiency

Eng Lim Goh

eq_bestseller

eq_computing

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

Erik W. Draeger

Exascale computing

Fabrizio Petrini

Fady Najjar

Florian Janetzko

Francois Jollet

Fred Streitz

Galen Shipman

Gary L. Rogers

Geoffrey C. Fox

George L.T. Chiu

Gilles Fourestey

Gilles Grospellier

Gilles Wiber

global supercomputing infrastructure

Green500 list

greening of supercomputing

Gregor von Laszewski

Guenole Harel

Guillaume Colin de Verdiere

high performance computing

Hitoshi Sato

HPC

HPC centers

HPC ecosystems

HPC System

IBM's Blue Gene

IBM’s Blue Gene

IMC

influence of the TOP500 list

Inge Gutheil

Iwona Sakrejda

Jack Dongarra

Jacques-Bernard Lekien

Jacques-Charles Lafoucriere

James N. Glosli

Javier Diaz

Jean-Christophe Weill

Jeff Hammond

Jeremy Kepner

Jeremy Meredith

Jim Rogers

Joel Welling

Johannes Grotendorst

John A. Gunnels

John C. Gyllenhaal

John E. West

John Parks

John Wynkoop

Jose Fortes

JUGENE

Julie Mullen

Jutta Docter

Kalyan Kumaran

Karsten Schwan

Kate Keahey

Katherine M. Riley

Kento Sato

Kimberly Cupps

Kirk Cameron

Klaus Wolkersdorfer

Kohji Yoshikawa

Krishna Muriki

Kyle Spafford

Kyu-hyoun Kim

Kyung Dong Ryu

Larry Fried

Larry P. Davis

Lavanya Ramakrishnan

Lonnie D. Crosby

Lothar Wollschlager

Lustre Filesystem

Magda Slawinska

Marc Perache

Maria Grazia Giuffreda

Mark Gary

Mark Hereld

Mark R. Fahey

Martin Ohmacht

Masayuki Umemura

Matthew Hubbell

Michael E. Papka

Michael Norman

Michael Stephan

Michelle Butler

Mickael Amiet

Mike Nelson

Min Xie

Mira supercomputer

Mitch Horton

Mitsuhisa Sato

Mitsuo Shoji

MPI Rank

MPI Task

Nadya Bliss

Nicholas J. Wright

Nichols A. Romero

Nick Nystrom

Norbert Attig

Norbert Podhorszki

NVIDIA GPU

Olaf Mextorf

Parallel File System

Parallel Filesystem

parallel programming

Patrick Carribault

Paul Messina

Paul W. Coteus

Pavlos Vranas

petascale computing

Peter Michaleas

Phil Blood

Philip C. Roth

Philip Heidelberger

Philippe Deniel

Pietro Cicotti

Piotr Luszczek

Piyush Mehrotra

Pleiades supercomputer

Power Consumption

QDR InfiniBand

Ramesh Balakrishnan

Raymond Bair

Renato Figueiredo

Richard Coffey

Richard Glassbrook

Robert Ciotti

Robert E. Walkup

Robert Hood

Robert S. Sinkovits

Robert Shearer

Robert W. Wisniewski

Rose McCallen

Roy L. Campbell

Rupak Biswas

Ruud A. Haring

Sadaf R. Alam

Sam Miller

Satoshi Matsuoka

scientific simulations

Sequoia supercomputer

Shane Canon

Shava Smallen

Shawn Strande

Shin'ichiro Takizawa

Software Stack

Sriram Swaminarayan

Stanimire Tomov

Stefan Krieg

Stephane Mathieu

Steven Langer

Sudhakar Yalamanchili

supercomputing systems

Susan Coghlan

Taisuke Boku

Takayuki Aoki

Terri Quinn

Thom Dunning

Thomas Gooding

Thomas Lippert

Thomas Scogland

Thomas W. Fox

Tianhe-1A

Timothy J. Williams

Titan supercomputer

Todd Inglett

Tom Spelce

Torsten Hoefler

Toshihiro Hanawa

Toshio Endo

Tsubame 2.0

Victor G. Hazlewood

Victor Sadovnichy

Vitali Morozov

Vladimir Voevodin

Vsevolod Opanasenko

Warren Smith

Wayne Joubert

Wei Ge

Wen-mei Hwu

William Arcand

William E. Allcock

William Gropp

William Kramer

William Thigpen

Wolfgang Frings

Wu-chun Feng

Xiangke Liao

Xiaowei Wang

Yoshinobu Kuramashi

Yuetsu Kodama

Yutong Lu

Product details

ISBN 9781466568341
Weight: 1840g
Dimensions: 178 x 254mm
Publication Date: 23 Apr 2013
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

Secure checkout

Fast Shipping

Easy returns

Contemporary High Performance Computing: From Petascale toward Exascale 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.

The first part of the book examines significant trends in HPC systems, including computer architectures, applications, performance, and software. It discusses the growth from terascale to petascale computing and the influence of the TOP500 and Green500 lists. The second part of the book provides a comprehensive overview of 18 HPC ecosystems from around the world. Each chapter in this section describes programmatic motivation for HPC and their important applications; a flagship HPC system overview covering computer architecture, system software, programming systems, storage, visualization, and analytics support; and an overview of their data center/facility. The last part of the book addresses the role of clouds and grids in HPC, including chapters on the Magellan, FutureGrid, and LLGrid projects.

With contributions from top researchers directly involved in designing, deploying, and using these supercomputing systems, this book captures a global picture of the state of the art in HPC.

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 Track 2D Experimental Computing Facility (Keeneland), and the director of the NVIDIA CUDA Center of Excellence. He earned a 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 over 110 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.