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ORCIDComputing in Science and Engineering, Volume 3
Volume 3, Number 1, January / February 2001
- Donald L. Shirer:
Matlab and mathcad: updates for popular numeric systems. 9-12 - Keri Schreiner:
Distributed projects tackle protein mystery. 13-16 - David I. Lewin:
Beyond the wall: computing with molecules. 17-20 - Gerhard Theurich, Bryce Anson, Nicola A. Hill
, Adrian Hill:
Making the Fortran-to-C transition: how painful is it really? 21-27 - Bud Fox, Les S. Jennings, Albert Y. Zomaya:
The computation of constrained dynamical systems: matching physical modeling with numerical methods. 28-36 - Warren F. Perger, Min Xia, Ken Flurchick, Muhammad I. Bhatti:
Integrating symbolic and numeric techniques in atomic physics. 38-47 - Jean-Philippe Grivet:
Nonlinear population dynamics in the chemostat. 48-55 - Amit Goel, Chuck A. Baker, Clifford A. Shaffer, Bernard Grossman, William H. Mason, Layne T. Watson, Raphael T. Haftka:
VizCraft: a problem-solving environment for aircraft configuration design. 56-66 - Sharon C. Glotzer, James A. Warren:
Computational materials science and industrial R&D: accelerating progress. 67-71 - Roan Dawkins, Daniel ben-Avraham:
Computer simulations of diffusion-limited reactions. 72-76 - Eric Korpela, Dan Werthimer, David P. Anderson, Jeff Cobb, Matt Lebofsky:
SETI@home-massively distributed computing for SETI. 78-83 - Tarun Biswas:
Quantum duck hunt - a computer game. 84-87
Volume 3, Number 2, March / April 2001
- David I. Lewin:
Congress gives bioimaging, bioengineering half a boost. 8-11 - Donald L. Shirer:
Noesys adds powerful graphics analysis tools. 13-17 - Ronald F. Boisvert, José E. Moreira, Michael Philippsen, Roldan Pozo:
Java and numerical computing. 18-24 - Richard Hughes:
Quantum Computation. 26 - George Cybenko:
Reducing quantum computations to elementary unitary operations. 27-32 - Richard Jozsa:
Quantum factoring, discrete logarithms, and the hidden subgroup problem. 34-43 - Colin P. Williams:
Quantum search algorithms in science and engineering. 44-51 - Geoffrey C. Fox:
Introduction to web computing. 52-53 - Paul F. Dubois:
Fortran: a space odyssey. 54-59 - Isabel Beichl, Francis Sullivan:
In order to form a more perfect union [minimum spanning tree algorithm]. 60-64 - Florin A. Ghergu, Dumitru N. Vulcanov:
Using algebraic programming to teach general relativity. 65-70 - Steve Bankes, Robert J. Lempert, Steven W. Popper:
Computer-assisted reasoning. 71-77 - William Graham Hoover, Carol Griswold Hoover:
SPAM-based recipes for continuum simulations. 78-85
Volume 3, Number 3, May / June 2001
- Nancy Forbes:
Evolution on a chip: evolvable hardware aims to optimize circuit design. 6-10 - Douglas Tougaw:
Agilent's mixed-signal oscilloscopes provide enhanced measurement capabilities. 11-14 - Stephen A. Langer, Edwin R. Fuller Jr., W. Craig Carter:
OOF: an image-based finite-element analysis of material microstructures. 15-23 - Delores M. Etter, Charles J. Holland, John Grosh:
Export control of high-performance computing: analysis and alternatives. 24-31 - Jack J. Dongarra, David W. Walker:
The quest for petascale computing. 32-39 - Jeffrey Skolnick, Andrzej Kolinski:
Computational studies of protein folding. 40-50 - Anthony J. Guttmann:
Enumerations in statistical mechanics and combinatorics. 42-47 - Jonathan M. Borwein, Peter B. Borwein:
Challenges in mathematical computing. 48-53 - Martin B. Haugh, Andrew W. Lo:
Computational challenges in portfolio management. 54-59 - Dianne P. O'Leary, Scott T. Weidman:
The interface between computer science and the mathematical sciences. 60-65 - Regina Hannemann, Jens Hannemann, Michael Zellerhoff, Ludger Klinkenbusch:
Scientific programming in field theory. I. 66-74 - Geoffrey C. Fox:
Peer-to-peer networks. 75-77 - William J. Thompson:
Poisson distributions. 78-82 - André Jaun, Johan Hedin, Thomas Johnson:
Teaching computational methods for partial differential equations using the Web. 83-85 - Mark A. Peterson, Yanir Rubinstein:
Turbulence on a desktop. 86-94 - George Cybenko:
Machine learning [Book Review]. 95-96 - Jim X. Chen, Yonggao Yang, Xusheng Wang:
Physics-based modeling and real-time simulation. 98-102
Volume 3, Number 4, July / August 2001
- David I. Lewin:
Searching for the elusive qubit. 4-7 - Donald L. Shirer:
LabView 6i adds internet features to data acquisition environment. 8-11 - Samuel T. Jones, Scott E. Parker, Charlson C. Kim:
Low-cost high-performance scientific visualization. 12-17 - Renate Dohmen, Jakob Pichlmeier, Max Petersen, Frank Wagner, Matthias Scheffler:
Parallel FP-LAPW for distributed-memory machines. 18-29 - Max Schaible:
Searching scientific databases for guides to experiment and theory. 30-39 - James R. Chelikowsky, Mark A. Ratner:
Nanoscience, nanotechnology, and modeling. 40-41 - Deepak Srivastava, Madhu Menon, Kyeongjae Cho:
Computational nanotechnology with carbon nanotubes and fullerenes. 42-55 - Aiichiro Nakano, Martina E. Bachlechner, Rajiv K. Kalia, Elefterios Lidorikis, Priya Vashishta, George Z. Voyiadjis, Timothy Campbell, Shuji Ogata, Fuyuki Shimojo:
Multiscale simulation of nanosystems. 56-66 - K. Lance Kelly, Anne A. Lazarides, George C. Schatz:
Computational electromagnetics of metal nanoparticles and their aggregates. 67-73 - Geoffrey C. Fox, Dennis Gannon:
Computational grids. 74-77 - Jens Hannemann, Regina Hannemann, Michael Zellerhoff, Ludger Klinkenbusch:
Scientific programming in field theory. 2. 78-85 - Timothy C. Black, William J. Thompson:
Bayesian data analysis. 86-91 - Wolfgang Windl, Matthew Laudon, Neil N. Carlson, Murray S. Daw:
Predictive process simulation and stress-mediated diffusion in silicon. 92-95 - Norris Parker Smith:
How bubbles pop... and could pop once more. 96-97
Volume 3, Number 5, September / October 2001
- David I. Lewin:
Keeping track of the big event. 8-11 - Jeffrey Will:
Imagenation frame grabbers for computer vision systems. 12-15 - Geoff Bradley, Denis Weaire:
Instabilities of two liquid drops in contact. 16-21 - Steve W. Bova, Clay P. Breshears, Henry A. Gabb, Bob Kuhn, Bill Magro, Rudolf Eigenmann, Greg Gaertner, Stefano Salvini, Howard Scott:
Parallel programming with message passing and directives. 22-37 - C. Ross Ethier:
Bioengineering and biophysics. 38-39 - Jeffrey Skolnick, Andrzej Kolinski:
Computational studies of protein folding. 40-50 - David A. Vorp, David A. Steinman, C. Ross Ethier:
Computational modeling of arterial biomechanics. 51-64 - Leo Joskowicz, Russell H. Taylor:
Computers in imaging and guided surgery. 65-72 - Norman Chonacky, M. Litt:
Computers for integrative instruction in bioengineering labs. 73-83 - Bert W. Rust:
Fitting nature's basic functions. I. Polynomials and linear least squares. 84-89 - David M. Beazley, Brian D. Ward, Ian R. Cooke:
The inside story on shared libraries and dynamic loading. 90-97 - Oliver Vormoor:
Quick and easy interactive molecular dynamics using Java3D. 98-104 - Elizabeth A. Lunney:
Computing in drug discovery: the design phase. 105-108 - Jim X. Chen, Shuangbao Wang, Oliver Vormoor:
Data visualization: parallel coordinates and dimension reduction. 110-113
Volume 3, Number 6, November / December 2001
- Greg Goth:
Will Terra be terrific? NASA's Terra mission provides new level of data, accessibility, and integration. 4-8 - Donald L. Shirer:
Versatile Laboratory Computer Interfaces. 9-13 - Efthimios Kaxiras:
Materials Science. 14-15 - Peter Kratzer, Matthias Scheffler:
Surface knowledge: toward a predictive theory of materials. 16-25 - Sauro Succi, Olga Filippova, Greg Smith, Efthimios Kaxiras:
Applying the lattice Boltzmann equation to multiscale fluid problems. 26-37 - Steven G. Johnson, Attila Mekis, Shanhui Fan, John D. Joannopoulos:
Molding the flow of light. 38-47 - Enrico Onofri:
Elementary celestial mechanics using Matlab. 48-53 - J. Michael Owen:
An open-source project for modeling hydrodynamics in astrophysical systems. 54-59 - Bert W. Rust:
Fitting nature's basic functions. II. Estimating uncertainties and testing hypotheses. 60-64 - Giovanni Aloisio, Massimo Cafaro, Carl Kesselman, Roy Williams:
Web access to supercomputing. 66-72 - Andrea Clematis, Michela Spagnuolo:
Analyzing fuzzy surface modeling using load-balanced computation. 74-81 - Albert Y. Zomaya, James A. Anderson, David B. Fogel, Gerard J. Milburn, Grzegorz Rozenberg:
Nonconventional computing paradigms in the new millennium: a roundtable. 82-99 - Grzegorz Rozenberg:
DNA-based computation. 94-96 - Albert Y. Zomaya:
Natural and simulated annealing. 97-99
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