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         Parallel Computing:     more books (100)
  1. Handbook of Parallel Computing and Statistics (Statistics:A Series of Textbooks and Monographs)
  2. High Performance Heterogeneous Computing (Wiley Series on Parallel and Distributed Computing) by Jack Dongarra, Alexey L. Lastovetsky, 2009-08-03
  3. High Performance Computing in Science and Engineering 2000: Transactions of the High Performance Computing Center Stuttgart (HLRS) 2000
  4. High Performance Cluster Computing: Architectures and Systems, Vol. 1 by Rajkumar Buyya, 1999-05-31
  5. High-Performance Computing : Paradigm and Infrastructure by Laurence T. Yang, Minyi Guo, 2005-08-12
  6. Parallel Computing for Bioinformatics and Computational Biology: Models, Enabling Technologies, and Case Studies (Wiley Series on Parallel and Distributed Computing)
  7. Parallel Processing for Scientific Computing (Software, Environments and Tools) by Padma Raghavan, and Horst D. Simon Edited by Michael A. Heroux, 2006-11-01
  8. Performance Evaluation of Parallel And Distributed Systems (Distributed, Cluster and Grid Computing) (v. I)
  9. Cloud Computing Principles and Paradigms (Wiley Series on Parallel and Distributed Computing) by Rajkumar Buyya, James Broberg, et all 2011-04-04
  10. Distributed Computing: Fundamentals, Simulations, and Advanced Topics (Wiley Series on Parallel and Distributed Computing) by Hagit Attiya, Jennifer Welch, 2004-03-25
  11. Parallel Computing Works! by Geoffrey C. Fox, Roy D. Williams, et all 1994-05-15
  12. Parallel Computing on Heterogeneous Clusters by Alexey L. Lastovetsky, 2003-08-11
  13. Mobile Intelligence (Wiley Series on Parallel and Distributed Computing) by Laurence T. Yang, 2010-02-08
  14. Smart Environments: Technology, Protocols and Applications (Wiley Series on Parallel and Distributed Computing) by Diane Cook, Sajal Das, 2004-11-02

21. Elsevier.com - Parallel Computing
parallel computing is an international journal presenting the theory and use of parallel parallel computing includes special issues on Applications.
http://www.elsevier.com/locate/parco
Home Site map Regional Sites Advanced Product Search ... Parallel Computing Journal information Product description Editorial board Abstracting/indexing For Authors Guide for authors Online Submission Subscription information Bibliographic and ordering information Conditions of sale Dispatch dates Journal related information Contact the publisher Supplementary material Impact factor Most downloaded articles ... Select your view PARALLEL COMPUTING
Editor-in-Chief:
D. Reed

See editorial board for all editors information
Description
Parallel Computing
is an international journal presenting the theory and use of parallel computer systems, including vector, pipeline, array and fifth and future generation computers and neural computers. Within this context the journal covers all aspects of high-speed computing.
Parallel Computing features original research work, tutorial and review articles as well as accounts of practical experience with (and techniques for) the use of parallel computers. Contributions can cover:
Parallel Computing includes special issues on Applications.

22. The Berkeley NOW Project
Cluster computing project at the University of California, Berkeley, computer science department.
http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126

23. David A. Bader's Parallel Sites, Sponsored By UMIACS
IEEE Computer Society ParaScope
http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126

24. High Performance Computing UCLA Plasma Simulation Group
Links to papers on ObjectOriented Programming in Fortran 90, Optimization techniques for RISC processors, Parallel Particle-in-Cell Codes, parallel computing Tutorial, and Modernization of Fortran Legacy Codes.
http://exodus.physics.ucla.edu/high performance computing/high.performance.comp.
On this Page: Web pages Publications The Purpose of High Performance Computing is to develop strategies, algorithms, and techniques to enable effective use of high performance computers for the solution of large scale scientific problems. Appleseed: Macintosh Cluster Object-Oriented Programming in Fortran 90 Optimization techniques for
RISC processors
... Modernization of Fortran Legacy Codes
V. K. Decyk, C. D. Norton, and B. K. Szymanski, "Fortran 90 'Gotchas' (Parts 1-3)," ACM Fortran Forum, vol. 18, no. 2, p. 22, 1999, vol. 18, no. 3, p. 26, 1999, and vol. 19, no. 1, p. 10, 1999. J. Qiang, R. Ryne, S. Habib, and V. Decyk, "An Object-Oriented Parallel Particle-in-Cell code for Beam Dynamics Simulation in Linear Accelerators," Proc. Supercomputing 99, Portland, OR, Nov. 1999, CD-ROM. V. K. Decyk, D. E. Dauger, and P. R. Kokelaar, "Plasma Physics Calculations on a Parallel Macintosh Cluster," Physica Scripta T84, 85 (2000). V. K. Decyk, C. D. Norton, and B. K. Szymanski, "How to support inheritance and run-time polymorphism in Fortran 90", Computer Physics Communications V. K. Decyk, C. D. Norton, and B. K. Szymanski, "How to Express C++ Concepts in Fortran 90,"

25. NHSE : National HPCC Software Exchange
A distributed collection of software, documents, data, and information for the high performance and parallel computing community.
http://www.nhse.org/
From 1994 - 2004, NHSE existed as a distributed collection of software, documents, data, and information of interest to the high performance and parallel computing community. The significance of the collaborative effort is evident through the many useful reports and tools generated as well as the many repositories that have been created, and are still being created, with the Repository in a Box (RIB) toolkit developed in 1996. However, continued operation of the site without funding has become impractical. Therefore, the site has been taken down. The NHSE meta-repostiory , which consists of metadata describing software applications and tools from the PTLib, HPC-Netlib and BenchWeb repositories combined, is still available. However, since PTLib and HPC-Netlib are no longer maintained, the metadata from those repositories are frozen in time. Only the BenchWeb content is still maintained.
The Netlib collection of mathematical software and other tools is still maintained and we recommend you visit that repository. Links to the archived NHSE repositories mentioned above can be found on that site as well.
On behalf of all of the federal agencies and institutions that helped make NHSE possible, we would like to thank all of the contributors over the years who submitted tools, links, applications, and other useful and usable material to the collection.

26. Internet Parallel Computing Archive
www.hensa.ac.uk/parallel More results from www.hensa.ac.uk EPCCThe Edinburgh parallel computing Centre provides computing resources to Edinburgh University and industry. Projects, technical support, and publications.
http://www.hensa.ac.uk/parallel/
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  • 27. Supercomputing Sites
    List of supercomputing and parallel computing sites.
    http://www.cacr.caltech.edu/Contact/other_sites.html

    28. Prof. Frank Dehne
    Carleton University, Ottawa. parallel computing.
    http://www.dehne.net/

    29. Home
    parallel computing. Naples, Italy.
    http://www.parco.org/
    ParCo is the longest running series of international conferences in Europe on the development and application of parallel computers. The first conference was held in Berlin in 1983. The conference is run on a bi-annual basis. The conference thus marks more than two decades of progress in the dynamic field of high-speed computing. The high standard of conference presentations and of the refereed proceedings have become the hall-mark of ParCo The scientific program combines keynote and contributed papers, mini-symposia on particular topics as well as an industrial exhibition and industrial session. Contributions are selected to give an overview of the state-of-the-art of the development, application and future trends in parallel computing. The conference organisers plan the conferences such that a maximum opportunity is created for delegates to meet and interact with fellow researchers. As organisers we do hope that delegates will participate in the scientific activities, will visit the industrial exhibition and sessions and will use the social activities to make new and renew old contacts. The informal nature of the conference allows for easy interaction with fellow delegates.
    Our Mission
    P rime goals are to: Promote research and development in all aspects of parallel computing, including architectures, system software, algorithm design, development tools and software engineering

    30. Particle Applications - Pipeline Computing
    An overview of how multiple particle systems can be simulated using parallel computing.
    http://www.npac.syr.edu/EDUCATION/PUB/hpfe/module5/index.html
    Module 5. Particle Applications - Pipeline Computing
    Many questions in science can be answered by viewing a physical system as a collection of particles that obey certain laws. A familiar example is that the universe can be viewed as a collection of astronomical bodies which obey Newton's laws of gravitation. The laws in the above examples can be written as equations that are typical of the class of equations known as Ordinary Differential Equations (ODEs). These equations have well-known solution techniques which can be easily expressed in a data parallel way. In the case of particle systems, solving the equations also involves calculating a function involving interactions between all pairs of particles. We will discuss a variety of ways to approach such "all pairs" calculations in a data parallel way, as well as discuss such issues as deciding which parts of a calculation to parallelize and how to achieve load balancing in a program.
    5.1 Particle applications
    The application that we will discuss is the universe of astronomical particles under Newton's laws of motion, commonly known as the N-body problem. We suppose that our system consists of N particles, each with a mass, moving with some velocity through 3-dimensional space. Part of Newton's system is the recognition that mass and velocity of the particles are what affect the system; in particular, we can disregard the diameters and shapes of the particles and treat them as point masses Velocity is, of course, defined to be the change in position over time, and acceleration to be the change in velocity over time.

    31. Parallel Computing Links
    Links to documentation, course materials, and parallel computing facilities.
    http://www.indiana.edu/~rac/hpc/links.html
    Links to Parallel Computing Resources
    These concern parallel computing as such, only;
    See also Numerical Computing Resources and Programmers' Tools

    32. Upcoming Compiler And Parallel Computing Conferences
    The Internet parallel computing Archive s events list. ACM SIGPLAN s conference listing. The ACM Calendar of Events. The IEEE ParaScope page, maintained by
    http://www.cs.rice.edu/~roth/conferences.html

    33. The History Of The Development Of Parallel Computing
    The difficulty of programming parallel computers in imperative languages is cited as one argument against them. 96 CDC demonstrates the Cyber 203,
    http://ei.cs.vt.edu/~history/Parallel.html
    The History of the Development of Parallel Computing
    ==================================================== Gregory V. Wilson gvw@cs.toronto.edu From the crooked timber of humanity No straight thing was ever made ====================================================
    [1] IBM introduces the 704. Principal architect is Gene Amdahl; it is the first commercial machine with floating-point hardware, and is capable of approximately 5 kFLOPS.
    [2] IBM starts 7030 project (known as STRETCH) to produce supercomputer for Los Alamos National Laboratory (LANL). Its goal is to produce a machine with 100 times the performance of any available at the time. [3] LARC (Livermore Automatic Research Computer) project begins to design supercomputer for Lawrence Livermore National Laboratory (LLNL). [4] Atlas project begins in the U.K. as joint venture between University of Manchester and Ferranti Ltd. Principal architect is Tom Kilburn.
    [5] Digital Equipment Corporation (DEC) founded.
    [6] Control Data Corporation (CDC) founded.

    34. Introduction To Parallel Computing
    parallel computing is an evolution of serial computing that attempts to Traditionally, parallel computing has been considered to be the high end of
    http://www.llnl.gov/computing/tutorials/parallel_comp/
    Introduction to Parallel Computing
    Table of Contents
  • Abstract
  • Overview
  • What is Parallel Computing?
  • Why Use Parallel Computing? ...
  • References and More Information
    Abstract
    This presentation covers the basics of parallel computing. Beginning with a brief overview and some concepts and terminology associated with parallel computing, the topics of parallel memory architectures and programming models are then explored. These topics are followed by a discussion on a number of issues related to designing parallel programs. The last portion of the presentation is spent examining how to parallelize several different types of serial programs. Level/Prerequisites: None
    Overview
    What is Parallel Computing?
    • Traditionally, software has been written for serial computation:
      • To be executed by a single computer having a single Central Processing Unit (CPU);
      • Problems are solved by a series of instructions, executed one after the other by the CPU. Only one instruction may be executed at any moment in time.
    • In the simplest sense
  • 35. Distributed Computing Over P2P Networks
    Open framework that will allow P2P file sharing networks to make Distributed parallel computing.
    http://www.geocities.com/tiagonmas/

    36. Www.npac.syr.edu/copywrite/pcw/
    Particle Applications of parallel computingAn overview of how multiple particle systems can be simulated using parallel computing.
    http://www.npac.syr.edu/copywrite/pcw/
    Next: Contents
    Parallel Computing Works
    This book describes work done at the Caltech Concurrent Computation Program, Pasadena, California. This project ended in 1990 but the work has been updated in key areas until early 1994. The book also contains links to some current projects. ISBN 1-55860-253-4 Morgan Kaufmann Publishers , Inc. 1994 ordering information
    What is Contained in Parallel Computing Works?
    We briefly describe the contents of this book
    Applications
    The heart of this work is a set of applications largely developed at Caltech from 1985-1990 by the Caltech Concurrent Computation Group. These are linked to a set of tables and Glossaries. Applications are classified into 5 problem classes:
    Synchronous Applications
    Such applications tend to be regular and characterised by algorithms employing simultaneous identical updates to a set of points; more applications can be found in Chapters

    37. School Of Computing And Information Technology - University Of Western Sydney
    School of Computing and Information Technology. Research focuses on distributed systems and network security, knowledge systems, systems management and parallel computing.
    http://www.cit.uws.edu.au/

    Home
    About Courses Research ... Search School of Computing and Information Technology
    University of Western Sydney
    About the School

    Course Information

    Course Material

    Research Profile
    ...
    To Secure Site

    Welcome to the Web pages of the School of Computing and Information Technology. A link to Platform Web can be found under Course Material in the menu on the left. News Bulletins New Health Informatics Research PhD Scholarship Opportunity : c.mcgregor@uws.edu.au
    Graduation Information Session at Penrith :
    Windows 2000 and XP Profiles :
    Windows 2000 profiles are now mandatory. Changes are not saved on logout. Windows XP profiles can be removed at ANY time by administrators. Do not save anything in your profile (this includes saving files to your desktop). For further information on Windows XP profiles, please see: http://www.cit.uws.edu.au/docs/techguide/profile.php All Students: WebCT Access : Under the Student Fees policy, students with outstanding tuition and/or Student Associations and Services Fees can have access to University facilities and services, including the Library and Information Technology resources, withheld. Students with outstanding tuition and/or SASF who are encumbered have now had their access to WebCT removed. For more information, please see: http://elearning.uws.edu.au/webct/ticket/ticketLogin

    38. The Center For Advanced Computing
    The Center for Advanced Computing (CAC) delivers high performance computing, In addition experience in numerical methods and parallel computing (MPI,
    http://cac.engin.umich.edu/

    About the CAC

    Academics

    Getting Started

    Getting Help
    ...
    Resources

    Search The CAC
    The Center for Advanced Computing (CAC) delivers high performance computing, grid infrastructure, very large data storage, and advanced visualization services through the College of Engineering and throughout the University of Michigan. With over 1000 processors, two high-speed switches for fast networking and terabytes of storage, the CAC can provide resources for most any computation problem you may have. If your problem is bigger than what we can handle, we can probably help you find resources more fitting for your problem size. Please explore this site, starting with the Getting Started section to see how to get an account and start using the resources we have. Lastly, if you have questions or concerns, please email us at cac-support@umich.edu
    News
    Tivoli System
    The move of the Tivoli system was completed, but there were hardware problems during the move. The nfs/hsm server adsm2 will not be up for another day or two. The backup server adsmsrvr is back online.
    Sorry for any inconvenience

    39. Parallel Computing Toolkit: Product Information
    parallel computing Toolkit brings parallel computation to anyone having access to more than one computer on a network or anyone working on multiprocessor
    http://www.wolfram.com/products/applications/parallel/
    PreloadImages('/common/images2003/btn_products_over.gif','/common/images2003/btn_purchasing_over.gif','/common/images2003/btn_services_over.gif','/common/images2003/btn_new_over.gif','/common/images2003/btn_company_over.gif','/common/images2003/btn_webresource_over.gif'); Products Parallel Computing Toolkit Features New in Version 2 ... Give us feedback Sign up for our newsletter:
    Unleash the Power of Parallel Computing
    Tackle large-scale problems with the power of parallel computing. Engineers, scientists, and analysts will find Parallel Computing Toolkit ideal for product design and problem solving. Educators can use this package in classrooms and labs to quickly convey and explore the concepts of parallel computing. Parallel Computing Toolkit brings parallel computation to anyone with access to more than one processor, regardless of whether the processors are multiprocessor machines, networked PCs, or a Top 500 supercomputer. This package implements many programming primitives for writing and controlling parallel Mathematica programs as well as high-level commands for common parallel operations. Programs written using

    40. Colgate Parallel Computing
    The Colgate parallel computing Laboratory consists of several parallel It is a collection of laboratory modules for teaching parallel computing on a
    http://cs.colgate.edu/faculty/nevison.pub/parallel.html
    Contents
    The Colgate Parallel Computing Laboratory
    The Colgate Parallel Computing Laboratory consists of several parallel computers. The newest machine is a 32 node Parsytec PowerXplorer pictured above. Each node consists of a PowerPC601 processor for computation and a T805 Transputer for communications. Each node has 12 MB memory. The system is hosted by a Sun Sparcstation5. The older system in the lab consists of over 100 T414 transputers. These are connected in various ways. Typically, we have four stations, each with 17 transputers connected in a four dimensional hypercube. These are hosted by PCs and a Canon NeXTstation. Both the newest machine and the original transputer system in our lab were funded by National Science Foundation ILI and CSIP grants and a grant from INMOS Ltd.
    Courses and Student Research
    COSC 445 Parallel Computing
    This course is an overview of parallel computing. It includes a laboratory component where students learn to develop programs to solve large scale computational problems in the Colgate Parallel Computation Laboratory.

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