Parallel Science and Engineering Applications

Name: Parallel Science and Engineering Applications
Brand: Taylor & Francis Inc
Price: 235.6 EUR
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€235.60

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approach

array

asynchronous programming

Automatic Load Balancing

automatic-update

B01=Abhinav Bhatele

B01=Laxmikant V. Kale

balance

balancing

blue

Blue Gene

Category1=Non-Fiction

Category=PH

Category=PSA

Category=UB

Category=UMN

Category=UY

chare

Chare Array

COP=United States

Cpu Utilization

Cray XE6

Cray XK6

CUDA Runtime

Delivery_Delivery within 10-20 working days

Distributed Load Balancers

Domain Decomposition

Entry Method

eq_bestseller

eq_computing

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

Execution Time

gene

GPU Cluster

high performance computing

IBM Blue Gene

imbalance

Language_English

load

Load Balancing

Load Balancing Decisions

Load Balancing Strategies

Load Imbalance

message-driven parallelism

molecular modeling

MPI Rank

numerical algorithms

PA=Available

parallel computing for scientific research

Physical Processors

Price_€100 and above

PS=Active

Runtime System

scientific simulations

SGI Altix

softlaunch

strategies

Ut Iliz

Virtual Processors

Product details

ISBN 9781466504127
Weight: 589g
Dimensions: 156 x 234mm
Publication Date: 28 Oct 2013
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback
Language: English

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Developed in the context of science and engineering applications, with each abstraction motivated by and further honed by specific application needs, Charm++ is a production-quality system that runs on almost all parallel computers available. Parallel Science and Engineering Applications: The Charm++ Approach surveys a diverse and scalable collection of science and engineering applications, most of which are used regularly on supercomputers by scientists to further their research.

After a brief introduction to Charm++, the book presents several parallel CSE codes written in the Charm++ model, along with their underlying scientific and numerical formulations, explaining their parallelization strategies and parallel performance. These chapters demonstrate the versatility of Charm++ and its utility for a wide variety of applications, including molecular dynamics, cosmology, quantum chemistry, fracture simulations, agent-based simulations, and weather modeling.

The book is intended for a wide audience of people in academia and industry associated with the field of high performance computing. Application developers and users will find this book interesting as an introduction to Charm++ and to developing parallel applications in an asynchronous message-driven model. It will also be a useful reference for undergraduate and graduate courses in computer science and other engineering disciplines. Courses devoted to parallel programming and writing of parallel CSE applications will benefit from this book.

Laxmikant V. Kale, Abhinav Bhatele