21. The UCES Archive Undergraduate computational engineering and Science Archive. UCES Homepage UCES Archive Contents Classes Modules Problems Resources http://www.krellinst.org/UCES/archive/

Undergraduate Computational Engineering and Science Archive UCES Homepage UCES Archive Contents Classes Modules Problems Resources The primary goal of UCES is the creation of an archive of high quality educational materials in undergraduate computational science. These materials are freely available to educators throughout the country. Pedagogic Goals Where possible, materials follow the UCES paradigm of computational science which stresses the journey from physical problem to computational solution. Extensive emphasis is placed on assessment of the computational result, with frequent use of visualization as a means of evaluation. UCES Paradigm UCES materials have been structured to be problem driven, modular in format, and interactive where appropriate. The subjects in each module are illustrated and motivated by specific problems and examples drawn from a wide variety of relevant fields, thus stressing the interdisciplinary nature of computational science. Delivery Mechanism Contributed materials are assembled at the Krell Institute (through which the project is administered) and distributed electronically via the World Wide Web. A search and index mechanism will be instituted so that the large body of materials can be easily navigated.

22. International Journal Of Computational Engineering Science (IJCES) The main aim of the Journal is to provide a unique interdisciplinary forum to publishpapers in the emerging subject of computational engineering, dealing with http://www.worldscinet.com/ijces/ijces.shtml

What's New New Journals Browse Journals Search ... Engineering International Journal of Computational Engineering Science (IJCES) The main aim of the Journal is to provide a unique interdisciplinary forum to publish papers in the emerging subject of computational engineering, dealing with mathematical models, numerical methods, science and engineering and computational processes, which are driving and in turn are driven by applications in all fields of engineering science. Special emphasis will be placed on both upstream and applied research and on the transfer of technology to the industry in the areas of nanoscience, micro-electromechanical systems (MEMS), electromagnetics, fluid mechanics, heat transfer, solid and structural mechanics in the disciplines of aerospace, chemical, civil, mechanical, electrical engineering, and computational biology, chemistry and materials science. More What's New Now you can submit manuscripts for IJCES online Feature Articles (Free Online Sample Issue) Vol. 3, No. 1 (March 2002)

23. Uces.ameslab.gov/uces/ Similar pages computational engineering and Design Centre (home) (CEDC) Please state that you would like to join the computational engineeringand Design Group and that your are seeking a full studentship. http://uces.ameslab.gov/uces/

24. Masterstudium Computational Engineering Translate this page Master of Engineering in computational engineering Das Masterstudium ComputationalEngineering trägt dieser anspruchsvollen Aufgabe besonders Rechnung. http://www.tfh-berlin.de/~kalus/Comp_Eng/

Postgraduales Studium english Master of Engineering in Computational Engineering Akkreditiert am 05.06.2001 von der ZEvA Beginn jeweils zum Wintersemester ( Pressespiegel dazu Anmeldeschluss 15. Juli. Anmeldeformular pdf-Dokument Partnerfirmen Lehrplan Softwaresysteme News ... Fachgruppe Berechnungsingenieur Anwesenheit ist erforderlich! Studienziel ist die Weiterqualifizierung von Hochschulabsolventen zum Master Computational Engineering (Berechnungsingenieur, zum Berufsbild siehe hier ) in drei Semestern. Zulassungsvoraussetzungen sind Gesamtnote des Abschlusses mindestens gut, Es werden maximal 20 Teilnehmer/innen zugelassen. Das Studium Praktikum in Industriebetrieben (Automobil modelliert von Adam Opel AG Vermittelt industriellen Softwaresysteme kennen, die state-of-the-art sind ( siehe Lehrplan Von den Unternehmen (Rettungshubschrauber wurde von P+Z Engineering GmbH Biomechanik (Fahrradrahmen modelliert von Rotwild bei ADP-Engineering GmbH Das Studium wird von Professoren Informationen: Postanschrift: Technische Fachhochschule Berlin Fachbereich II Mathematik -Physik-Chemie z. Hd. Prof. Dr. N.

25. Master Study Computational Engineering Qualitätssiegel des Akkreditierungsrates. Master of Engineering in ComputationalEngineering The masters programme computational engineering fills this gap. http://www.tfh-berlin.de/~kalus/Comp_Eng-engl/Welcome.html

Postgraduate study deutsch Master of Engineering in Computational Engineering Accredited on June 6th 2001 by the German Agency ZEvA Starting every winter semester ( comments in the daily press Application deadline July 15th ( application form; pdf-document cooperating companpies curriculum software systems news ... Graduates Important notice for beginners: Compact course from Wednesday, 2nd October until Wednesday, 9th October 2002 as whole day course: The class Computer Algebra Software I will be held by a foreign lecturer in English language! Attendance is necessary! Aim of the programme is to supply the participants within three semesters with a profound knowledge in computer simulation techniques of mechanical, civil and tissue engineering, qualifying for a computational engineer (german: Berechnungsingenieur). Admitted are those who have a degree in engineering sciences, mathematics or physics, passed with a grade of "good" or better. A sufficient knowledge of the german language is necessary. The programme is structured in two semesters with lectures and computer laboratory exercises at TFH Berlin followed by a practical training in industry of 16 weeks, the master thesis of 10 weeks and the final examination.

26. Computational Engineering Translate this page computational engineering at the University of Erlangen-Nuremberg, Germany.This site gives a comprehensive set up for foreign students. http://www10.informatik.uni-erlangen.de/CE/

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27. Computational Engineering Translate this page Im Bachelor-Programm computational engineering wird in den ersten Semerstern überwiegendauf Deutsch unterrichtet Es gelten die üblichen Voraussetzungen für http://www10.informatik.uni-erlangen.de/CE/main.html

Studium in Computational Engineering in Erlangen, Deutschland Studying Computational Engineering in Erlangen, Germany Bachelor-Programm Im Bachelor-Programm Computational Engineering wird in den ersten Semerstern überwiegend auf Deutsch unterrichtet Es gelten die üblichen Voraussetzungen für das Studium an deutschen Hochschulen, insbesondere gute Kenntnisse der deutschen Sprache. Aus diesem Grund steht die Information über dieses Programm nur in Deutsch zur Verfügung. Internationales Master-Programm auf Englisch beschrieben. Bachelors Program The Bachelors Program is mainly taught in German . The usual prerequisities include the command of German language. So information is available only in German International Masters Program The Masters Program Computational Engineering is primarily taught in English . Students may attend German speaking courses as well. Therefore a good command of English (min. TOEFL 560 and good score on GRE - General Test ) is required. According to this, detailed information about this program is only available in English language.

28. Computational Engineering Group's Home Page computational engineering. 44 (0)1925 603221 Fax. +44 (0)1925 603634 EmailDR.Emerson@dl.ac.uk Web Page computational engineering Group's Home Page. http://www.cse.clrc.ac.uk/ceg/index.shtml

Search: Enter text and press return Home About us Contact us Support and services ... Training courses Computational Engineering With an unrivalled combination of leading-edge fluid flow expertise and the latest high-performance computing solutions, the Computational Engineering Group helps customers solve complex problems and compress the development cycle. The group has been collaborating on groundbreaking projects with academia and industry for many years. Whether it is an academic group using a large-scale parallel machine or a commercial company with a complex fluid-flow problem, the group's expertise and technology can have a profound effect. The group is one of the world's leading players in the modelling and design of microfluidic devices. An emerging issue in this exciting new field is the fact that at such small scales the fluid flow does not behave the same as that experienced in the macroscopic world. Contact Details Dr. David Emerson

29. Computational Engineering In EM/Acoustics Worcester Polytechnic Institute (USA) http://ece.wpi.edu/Research/em-acoustics/em-acoustics.html

[an error occurred while processing this directive] A Graduate Specialization at the Leading Edge Master's and Ph.D. degree specializations in the department of Electrical and Computer Engineering at Worcester Polytechnic Institute. These illustrations are derived from current research in electromagnetics and acoustics at WPI. Left. Diameter variation of tube, subjected to a low-frequency pressure function. Right. Field plot of a coaxial to waveguide converter. Overview and Objectives Computational Engineering in Electromagnetics and Acoustics is a new graduate specialization within the Department of Electrical and Computer Engineering leading to either the M.S. or the Ph.D. degree. The program integrates acoustic and electromagnetic field analyses with modeling tools and circuit design techniques, enabling students to solve real-life problems, such as the design of magnets, microwave circuits, and ultrasound transducers. As industry seeks to efficiently design and optimize cost-effective electromechanical and microwave devices, and to develop ultrasound and EM equipment for improved nondestructive testing and medical imaging, it is making increased use of computer-aided electromagnetic and acoustic analysis methods. Well-designed computational software tools, which have the ability to predict and visualize complex electromagnetic and acoustic field behaviors, can reduce or eliminate many time-consuming and expensive trial-and-error experiments. WPI's ECE faculty recognizes the increasing importance of simulation tools based upon EM/acoustics principles, in addition to circuit computer-aided design (CAD) software, in the design of today's high-technology products. Consequently, the new graduate specialization in computational EM/acoustics engineering will offer highly integrated courses in such topics as fundamental EM/acoustics theories, numerical methods and industrial standard design procedures.

30. TUD : Willkommen - Computational Engineering Translate this page Willkommen computational engineering Willkommen beim neuen fächerübergreifendenStudiengang an der Technischen Universität Darmstadt! http://www.tu-darmstadt.de/ce/?style=bf

31. LLNL Engineering Center For Computational Engineering Today at the Center for computational engineering we use all these languages tobuild new simulation tools to model anything from futuristic leadingedge http://www-eng.llnl.gov/eng_llnl/01_html/eng_ctrcompeng.html

Privacy and Legal Notice Software today is built with lines of code, millions of lines. According to one recent publication, a typical major defense system would, if printed, measure 180 feet high or almost reach to the chin of the Statue of Liberty, and a well-known software code would extend even higher. Software engineering, the newest member in the family of engineering disciplines, is built on programming languages and software design abstractions that didn't even exist at the time of the Manhattan Project. Yet, this new field accounts for one of the most vibrant areas of current high tech research today. The workhorse legacy FORTRAN language is only about four decades old (with its most useful variants less than half that), C++ has been around for only about a decade, Java, half that, and Java3D for only about year. Today at the Center for Computational Engineering we use all these languages to build new simulation tools to model anything from futuristic leading-edge technology to natural geological systems millions of years old. In simple terms, computational or software engineering is the art and science of expanding the field of engineering on a computer, but the details are infinitely more complicated. Software engineers confront a range of scales beyond any other engineering practice, design codes that are seldom completely understood until the finished software product is deployed, and complexity that rivals the most intricate of real-world engineering systems. We are charged with applying the most recent advances from our high tech neighbors in California's Silicon Valley to create tools that address some of our oldest societal concerns, such as defense, transportation, resource management, and communications. At the same time, we seek to achieve economies of scale that reward the taxpayers' investments and facilitate Department of Energy complex collaborations.

32. LLNL Engineering Center For Computational Engineering Intro Center for computational engineering. The center can be viewed as a containerfor the various computational efforts within the engineering directorate. http://www-eng.llnl.gov/eng_llnl/01_html/CCE_Intro.html

Privacy and Legal Notice Center for Computational Engineering The LLNL Center for Computational Engineering is one of five centers created within the LLNL Engineering Directorate for the purpose of centralizing research and development efforts. There are two primary goals for the center: to serve the computational needs of the LLNL engineering directorate in particular, and the DOE lab complex in general, and to provide a national presence demonstrating the computational excellence of the LLNL engineering directorate These two goals are not exclusive, and in fact are arguably different faces of the same coin. The technical responsibilities of the LLNL engineering directorate are so comprehensive and advanced that satisfaction of the former goal helps to provide satisfaction of the latter. Architecture The center can be viewed as a container for the various computational efforts within the engineering directorate. The center provides support for computational teams internal to the engineering organization, while providing

33. SINTEF Applied Math. - Computational Engineering Department of Computional Engineering. We perform contract research on methods,tools and applications within the field of computational engineering. http://www.oslo.sintef.no/am/comp/

34. Computational Engineering Group Home Page Visit the meetings page to find the latest information about events organisedby the computational engineering Group at Daresbury Laboratory. http://www.dl.ac.uk/TCSC/CompEng/

Visit the meetings page to find the latest information about events organised by the Computational Engineering Group at Daresbury Laboratory The Computational Engineering Group is concerned with the promotion, development and exploitation of high performance computing in advancing engineering simulation and understanding in collaboration with academe and industry. Simulation is fast replacing experiment in the design process resulting in: reduced development times; improved product efficiency; more extensive and detailed optimisation; and, improved design for hazard mitigation and reduced environmental impact. The Group is involved in a wide range of technical activities: * parallel algorithms and applications development; * benchmark development and systems evaluation; * software prototyping and standards evaluation; * technology transfer to academe and industry; * education and training; * supporting and coordinating the exploitation of local and national HPC systems. The Group Members and their main activities are: Dr. David Emerson

35. Computational Engineering Group's Meetings And Events Page Events Organised by The computational engineering Group at DaresburyLaboratory. Parallel CFD 2000. Trondheim, Norway 22nd25th May 2000. http://www.dl.ac.uk/TCSC/CompEng/MEETINGS/

Events Organised by The Computational Engineering Group at Daresbury Laboratory Parallel CFD 2000 Trondheim, Norway 22nd-25th May 2000 This is the 12th annual international conference dedicated to the discussion of recent developments and applications of parallel computing in the field of Computational Fluid Dynamics and complementary disciplines. Please visit the conference home page for further details of invited speakers, conference hotel, submission of abstracts and registration details. Stuttgart, Germany 16th-18th August 2000 Organized by: European Research Community on Flow Turbulence and Combustion (ERCOFTAC) High Performance Computing Center Stuttgart (HLRS) Computational Engineering Group , CLRC Daresbury Laboratory This 3-day symposium will look at the impact of future computing technology on research and industrial applications by bringing together leading hardware designers, algorithmic and software developers, and applications specialists. Organizing Committee: David Emerson, CLRC Daresbury Laboratory, UK

36. HPCx - Computational Engineering home research engineering. computational engineering. This page contains informationabout computational engineering codes on the HPCx system. CFX. DNS. LES. http://www.hpcx.ac.uk/research/engineering/

home research engineering Computational Engineering This page contains information about computational engineering codes on the HPCx system. CFX DNS LES NEWT http://www.hpcx.ac.uk/research/engineering/ contact email - www@hpcx.ac.uk

37. Computational Engineering, Finance, And Science Authors/titles Recent Submission computational engineering, Finance, and Science.Authors and titles for recent submissions. http://arxiv.org/list/cs.CE/recent

Computational Engineering, Finance, and Science Authors and titles for recent submissions Wed, 26 Feb 2003 Tue, 18 Feb 2003 Wed, 22 Jan 2003 Mon, 16 Dec 2002 ... Fri, 13 Dec 2002 Wed, 26 Feb 2003 cs.CE/0302035 abs ps pdf other Title: Risk-Management Methods for the Libor Market Model Using Semidefinite Programming Authors: Alexandre d'Aspremont Subj-class: Computational Engineering, Finance, and Science ACM-class: J.1 cs.CE/0302034 abs ps pdf other Title: Interest Rate Model Calibration Using Semidefinite Programming Authors: Alexandre d'Aspremont Subj-class: Computational Engineering, Finance, and Science ACM-class: J.1 Tue, 18 Feb 2003 cond-mat/0203591 abs pdf Title: Anticorrelations and subdiffusion in financial systems Authors: Kestutis Staliunas Subj-class: Disordered Systems and Neural Networks; Statistical Mechanics; Computational Engineering, Finance, and Science Wed, 22 Jan 2003 cs.CE/0301018 abs pdf Title: Novel Runtime Systems Support for Adaptive Compositional Modeling on the Grid Authors: Srinidhi Varadarajan Naren Ramakrishnan Subj-class: Computational Engineering, Finance, and Science; Distributed, Parallel, and Cluster Computing

38. Computational Engineering, Finance, And Science Authors/titles "new.CE" computational engineering, Finance, and Science. new abstracts, Wed,22 Jan 03 010140 GMT. cs.CE/0301018 abs, pdf Title Novel http://arxiv.org/list/cs.CE/new

Computational Engineering, Finance, and Science new abstracts, Wed, 26 Feb 03 01:01:57 GMT cs.CE/0302034 abs ps pdf other Title: Interest Rate Model Calibration Using Semidefinite Programming Authors: Alexandre d'Aspremont Subj-class: Computational Engineering, Finance, and Science ACM-class: J.1 We show that, for the purpose of pricing Swaptions, the Swap rate and the corresponding Forward rates can be considered lognormal under a single martingale measure. Swaptions can then be priced as options on a basket of lognormal assets and an approximation formula is derived for such options. This formula is centered around a Black-Scholes price with an appropriate volatility, plus a correction term that can be interpreted as the expected tracking error. The calibration problem can then be solved very efficiently using semidefinite programming. cs.CE/0302035 abs ps pdf other Title: Risk-Management Methods for the Libor Market Model Using Semidefinite Programming Authors: Alexandre d'Aspremont Subj-class: Computational Engineering, Finance, and Science ACM-class: J.1

39. CSE - Computational Engineering Group computational engineering Group. Introduction. Meetings and workshops. For more informationabout computational engineering Group please contact Dr David Emerson. http://www2.cse.dl.ac.uk/Group/CSECEG

CSE HOME Coordination Databases and Software Facilities ... SEARCH Computational Engineering Group Introduction The Computational Engineering Group is concerned with the promotion, development and exploitation of high performance computing in advancing engineering simulation and understanding in collaboration with academia and industry. Simulation is fast replacing experiment in the design process resulting in reduced development times, improved product efficiency, more extensive and detailed optimisation, and improved design for hazard mitigation and reduced environmental impact. The Group is involved in a wide range of technical activities: Parallel algorithms and applications development Benchmark development and systems evaluation Software prototyping and standards evaluation Technology transfer to academia and industry Education and training Supporting and coordinating the exploitation of local and national HPC systems Group Members Scientific research interests Centre for Microfluidics CCP12: High Performance Computing in Engineering (HPCE) ... Meetings and workshops For more information about Computational Engineering Group please contact Dr David Emerson Printable version Last updated 30 August 2001 at 16:07

40. Www.isces.org/ Similar pages computational engineering Divisioncomputational engineering Division English Japanese. ?Members?. http://www.isces.org/

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