1. CEI - FEA And CFD Visualization And Meshing computational engineering Intl. (CEI) develops, markets and supports software for meshing and visualizing engineering and scientific data. http://www.ceintl.com/

CFD Structural Analysis Crash/Impact Defense ... Sign up for our email newsletter Computational Engineering International (CEI) develops, markets and supports software for visualizing engineering and scientific data. Animation image credits: Motorcycle image courtesy of Advantage CFD . UCAV X-45 streamlines courtesy of Air Force Research Laboratory. Jet on airbags landing in water courtesy of MSC.software. Airbag image courtesy of Automotive Systems Laboratory. "Locking" image courtesy of ANSYS. Shuttle image courtesy of NASA Ames Research Center.

2. HUT / LCE Homepage Lab at Helsinki University of Technology. Includes contact information, research project presentations, list of publications and teaching activities. http://www.lce.hut.fi/

Suomeksi Site Map Introduction Current News ... Open Positions Research Centre for Computational Science and Engineering in Laboratory of Computational Engineering at Helsinki University of Technology was selected as the Academy of Finland 's centre of excellence for years 2000-2005. BioIT ComMIT Postal Address: P.O.Box 9203, FIN-02015 HUT, FINLAND Visiting Address: Innopoli 2, Tekniikantie 14, Espoo Tel: Fax: Internal Web Last Update 26.11.2003 by www@lce.hut.fi URL: http://www.lce.hut.fi/

3. ERC Computational Engineering Academic Programs computational engineering (CmE) encompasses the design, development, and application of systems for the solution of physical problems in engineering and science. These systems include not only the http://www.erc.msstate.edu/compu_eng

Image1 = new Image(600,145) Image1.src = "/common/images/Header_ERC-Main.jpg" Image2 = new Image(600,145) Image2.src = "/common/images/Header_ERC-about.jpg" Image3 = new Image(600,145) Image3.src = "/common/images/Header_ERC-learning.jpg" Image4 = new Image(600,145) Image4.src = "/common/images/Header_ERC-service.jpg" Image5 = new Image(600,145) Image5.src = "/common/images/Header_ERC-research.jpg" Image6 = new Image(600,145) Image6.src = "/common/images/Header_ERC-search.jpg" Facilities Contact Faculty Courses ... Application Forms Why Computational Engineering? Emergence of high-performance computing has created a third mode of scientific investigation. Computational simulation now joins theoretical analysis and physical experimentation as tools for discovering new knowledge. This development has created the need for new curricula to meet the nation's demand for scientists and engineers with the broad understanding necessary to develop and apply these new investigative tools to scientific research and engineering design.

4. ICES Home ICES Mission. To provide the infrastructure and intellectual leadership for developing outstanding interdisciplinary programs in research and graduate study in the computational sciences and engineering and in information technology. The Institute for computational engineering and Sciences (ICES), formerly known as http://www.ticam.utexas.edu/

ICES Mission To provide the infrastructure and intellectual leadership for developing outstanding interdisciplinary programs in research and graduate study in the computational sciences and engineering and in information technology. The Institute for Computational Engineering and Sciences (ICES), formerly known as TICAM, is an organized research center created to function as an interdisciplinary research center for faculty and graduate students in computational sciences and engineering, mathematical modeling, applied mathematics, software engineering, and computational visualization. Organizationally, ICES reports to the Vice President for Research, and draws faculty from fifteen participating academic departments. The Institute currently supports five research centers and numerous research groups, but new research units in distributed and grid computing, computational biology, biomedical science and engineering, computational materials research, and many others are planned over the next 4 years. It also supports the CAM Program, a graduate degree program leading to the M.S. and Ph.D. degrees in Computational and Applied Mathematics.

5. Lab. Of Computational Engineering: Teaching of the major and list of courses. Cognitive Technology Description of the major and list of courses....... computational engineering http://www.lce.hut.fi/teaching/

Teaching Activities Suomeksi HUT Units LCE / Teaching Site Map Introduction Current News Contact Info ... Publications Teaching Open Positions S-114 Courses Homepages of the courses Current information about available courses. Course homepages are updated by the teachers. Descriptions of the courses Short descriptions of the courses which can also be found from HUT study programme. Includes links to homepages of the courses. Major Subjects Structure of the studies Laboratory's major subjects can be studied in several degree programmes and options. Computational Engineering Description of the major and list of courses. Cognitive Technology Description of the major and list of courses. Computational Systems Biology Description of the major and list of courses. Neuroinformatics Description of the major and list of courses. Language Technology Description of the major and list of courses (Acoustics laboratory). More Information Student Advising Department's information pages Student Counsellor Aki Vehtari Tel. (09) 451 4849 Email: opintoneuvoja@lce.hut.fi

6. 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 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. 4, No. 1 (March 2003)

7. The University Of Tennessee SimCenter At Chattanooga - Computational Simulation of the Graduate School of computational engineering at the University of Tennessee computational engineering is an interdisciplinary graduate program open to qualified students with http://www.utc.edu/simcenter/cme.html

The University of Tennessee at Chattanooga. The University of Tennessee at Chattanooga is an equal employment opportunity/affirmative action/Title VI/Title IX/Section 504/ADA/ADEA institution. Computational Engineering Education The SimCenter faculty are members of the Graduate School of Computational Engineering at the University of Tennessee at Chattanooga. Computational Engineering is an interdisciplinary graduate program open to qualified students with undergraduate degrees in engineering, mathematics, computer science or a physical science . It differs from more conventional Computational Science and Engineering programs in its strong emphasis on research driven by practical engineering applications and in its focus on a team approach toward solving large-scale and/or complex problems Each program of graduate study addresses three primary areas: 1) an engineering application area, 2) scientific supercomputing, and 3) mathematics of computation. Student research is performed as part of the SimCenter critical-mass multidisciplinary research team.

8. Computational Engineering And Design Centre (home) (CEDC) Please state that you would like to join the computational engineering and Design Group and that your are seeking a full studentship. http://www.soton.ac.uk/~cedc/

The CEDC home page We currently have a number of fully funded PhD studentships tenable by UK, EU or overseas studentships. These pay full fees and living expenses. If you would like to apply for one please complete and return the forms that may be found at http://www.prospectus.soton.ac.uk/forms . Please state that you would like to join the Computational Engineering and Design Group and that your are seeking a full studentship. Please also indicate the area of study you would like to engage in and any particular research interests and we will then assess your application and match it to our staff profile. (Posted 7th February 2003). Introduction This centre is based in the Faculty of Engineering and Applied Science at Southampton University. Its aim is to provide a focus for the Faculty's expanding activities in the area of computational modelling of engineering systems. Its work is based on the use of powerful parallel and clustered computational facilities drawing on the existing experience and hardware of the University in this area. The centre is located in a dedicated facility which houses up to 15 researchers working on projects drawn from across all disciplines in the faculty. It is directed by Prof. A.J. Keane.

9. Evolutionary Optimization What do we do ? The evolutionary optimization team is based in the computational engineering and Design Centre (CEDC) of Southampton University. http://www.soton.ac.uk/~ajk/opt/welcome.html

Evolutionary Optimization What do we do ? The evolutionary optimization team is based in the Computational Engineering and Design Centre (CEDC) of Southampton University. It consists of a small number of graduate students and post-doctoral workers led by Prof. A.J. Keane . We are applying modern optimization methods to a number of problem areas. We have interests in: Genetic Algorithms Simulated Annealing Evolutionary Programming Evolution Strategies Dynamic Hill Climbing Traditional Hill Climbing Methods (such as Hooke and Jeeves searches) Postscript paper comparing various methods - 0.5Mb We have applied these methods/are applying them to: Structural Dynamics (mainly aircraft/satellite structures) Postscript summary paper - 0.6Mb Poster illustrating the design of an optimized truss structure Animation of a structure being designed by an evolutionary algorithm - 20.0Mb Photo of an optimized structure on test in our lab - 0.8Mb ... Article in US News and World Report Aircraft Wing Design Poster illustrating the design of optimized aircraft wings Ship Design Image of an optimized hull form Poster illustrating the design of optimized hullforms Towed Array Sonar Data Processing Postscript paper - 1.2Mb

10. Undergraduate Computational Engineering And Sciences Project Homepage The Undergraduate computational engineering and Sciences (UCES) Project. Overview The UCES Project promotes the emerging field of http://www.krellinst.org/UCES/

The Undergraduate Computational Engineering and Sciences (UCES) Project Overview: The UCES Project promotes the emerging field of computational science as an interdisciplinary approach to scientific analysis by identifying and supporting excellence in computational science education at the undergraduate level. Currently this support takes several forms: Constructing an educational archive: The primary emphasis is on collecting, developing, and distributing a set of educational materials in computational science suitable for undergraduates and advanced secondary school students. An extensive on-line archive of these materials is available. Awards: To recognize superior contributions to the field of computational science education, UCES sponsors awards for undergraduate students and faculty. NOTE : due to lack of funding, no awards will be made this fiscal year. Important News! In 1997 UCES was nominated for a Computerworld Smithsonian Award. More information: Participants FAQ (Frequently Asked Questions) Interested parties are encouraged to contact enm1(1,'James Corones');

11. The UCES Archive Undergraduate computational engineering and Science Archive. 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.

12. Computational Engineering And Science INTRODUCTION • COURSES • ADMISSION INFO • FACULTY • CONTACTS Department of Physics • Department of Mathematics • School of Computing http://www.ces.utah.edu/

INTRODUCTION COURSES ADMISSION INFO FACULTY INTRODUCTION COURSES ADMISSION INFO FACULTY ... University of Utah

13. Uces.ameslab.gov/ 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://uces.ameslab.gov/

14. Master's Course: Computational Engineering Translate this page Master Course - computational engineering at the Ruhr-University of Bochum http://www.ruhr-uni-bochum.de/comp-eng/

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15. TFH Berlin: Studiengang Computational Engineering Translate this page Masterstudiengang computational engineering (FB II), Homepage Studiengang. Studiengangshinweise. Allgemeines, Postgraduales Studium http://www.tfh-berlin.de/studium/fbii/ce.htm

TFH BERLIN Informationen Ansprechpartner Personen des FB Zentrale Studienberatung Immatrikulations- amt ECTS Die Fachbereiche FB I FB II FB III FB IV ... TFH-Inhalt Masterstudiengang Computational Engineering ( FB II Studiengangshinweise Allgemeines Postgraduales Studium "Master of Engineering" in "Computational Engineering" (Berechnungsingenieur) Studienbeginn nur im Wintersemester ECTS Credit Points Bewerbung Anmeldeformular PDF-Dokument, 64 KB Weitere Infos zur Immatrikulation gibt es im Immatrikulationsamt Ansprechpartner Studienfach- beratung Prof. Dr. N. Kalus Sprechstunde: nach tel. Vereinb. Ort: Haus Beuth , R. 132 a Telefon: Prof. Dr. N. Kalus Sprechstunde: nach tel. Vereinb. Ort: Haus Beuth , R. 132 a Telefon: Dekanat (Sekretariat) Laboratorien Professoren/-innen Mitarbeiter/-innen Frauenbeauftragte Korrekturen senden Sie bitte an das WebTeam WebTeam TFH-Home TFH-Inhalt

16. Computational Engineering - Startseite Translate this page Sciences, Homepage Fernstudieninstitut, Postgraduales und weiterbildendes Fernstudium computational engineering. Startseite. Postgraduales http://www.tfh-berlin.de/~fsi/ce/

Fernstudieninstitut TFH Berlin University of Applied Sciences Postgraduales und weiterbildendes Fernstudium Computational Engineering Startseite Abschluss: Master of Engineering Studienbeschreibung Computational Engineering Module Newsletter Stand: 09.05.2003 Technische Fachhochschule Berlin, Fernstudieninstitut, Luxemburger Str. 10, 13353 Berlin Tel.: (030) 4504-2231, Fax: (030) 4504-2974, e-mail: fsisek@tfh-berlin.de

17. Begell House Inc. - Journals - International Journal For Multiscale Computationa The aim of the journal is to advance the research and practice in diverse areas of Multiscale computational engineering. The journal http://www.begellhouse.com/journals/61fd1b191cf7e96f.html

if(location.href != getCookie('back')) setCookie('back', location.href, null, '/'); ITEMS modern scholarly publishers in the finest tradition Journals Login Register Home Books Journals A-Z Index Author Index For Our Authors Shopping Cart Contact Electronic Data Center Search International Journal for Multiscale Computational Engineering Editor-in-Chief Jacob Fish, Professor, Civil, Mechanical and Aerospace Engineering, Rennsselaer Polytechnic Institute, Troy, NY 12180, USA Senior Advisor J. Tinsley Oden, Professor Texas Inst. for Comp. and Applied Math University of Texas-Austin, Austin TX 78712, USA Associate Editors Ted Belytschko, Professor Dept. of Mechanical Engineering 2145 Sheridan Rd, Technological Institute Northwestern University, Evanston IL 60208, USA Thomas J. R. Hughes, Professor Texas Institute For Comp. and Applied Math. University of Texas-Austin, Austin TX 78712, USA Efthimios Kaxiras, Professor Department of Physics and Division of Engineering and Applied Sciences Harvard University, Cambridge MA 02138 David Keyes, Professor

18. SINTEF Applied Mathematics, Computational Engineering http://www.sima.sintef.no/

19. ACE, Inc. Why not eliminate the guesswork using ACE s expertise in providing analytical and computational engineering models and services? http://www.aceng.net/

GET REAL ANSWERS. Reality. Check. When it comes to explosion hazards, there's no question risk and damage is involved. The real question is "how much" - and to what extent. Why not eliminate the guesswork using ACE's expertise in providing analytical and computational engineering models and services? Whether it's in the fight against terrorism, accidental explosions - or any number of scenarios - ACE can analyze your specific situation so you're able to fully understand risk implications and assess potential damage. Webhost World-Net.Net

20. > Energy.gov : Press Releases : Secretary Abraham Dedicates Sandia Joint Computa April 28, 2004. Secretary Abraham Dedicates Sandia Joint computational engineering Lab. ALBUQUERQUE, NM –Secretary of Energy (DOE http://www.energy.gov/engine/content.do?PUBLIC_ID=15754&BT_CODE=PR_PRESSRELEASES

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