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Computing in Science and Engineering, Volume 5
Volume 5, Number 1, January - February 2003
- David I. Lewin, Greg Goth:
Stellarators: the once and future thing. 4-7 - Greg Goth:
Oxford Internet Institute debuts. 8-13 - Nancy Forbes, Mike Foster:
The end of moore's law? 18-19 - James D. Meindl:
Beyond Moore's Law: the interconnect era. 20-24 - Thomas N. Theis:
Beyond the silicon transistor: personal observations. 25-29 - Charles Wessner:
Sustaining Moore's law and the US economy. 30-38 - Keith Stein, Tayfun Tezduyar
, Richard Benney:
Computational methods for modeling parachute systems. 39-46 - April K. Andreas
Estimating the work in integer partitioning. 48-56 - Geoffrey C. Fox:
Java and Grande applications. 60-62 - Ulrich H. E. Hansmann:
Protein folding in silico: an overview. 64-69 - Thilo Ernst, Tom Rother, Franz Schreier
DLR's VirtualLab: scientific software just a mouse click away. 70-79 - Dario Benedetto
Zipping out relevant information. 80-85 - Peter M. Ketcham, David L. Feder:
Visualizing Bose-Einstein condensates. 86-89 - Mario Belloni, Wolfgang Christian:
Physlets for quantum mechanics. 90-97
Volume 5, Number 2, March - April 2003
- Pam Frost Gorder, Anne Jacobson:
Where have all the comets gone? 4-7 - Anne Jacobson:
Mathematical models correctly predict cell cycle behavior. 8 - L. Alan Kraft:
Making home DVD: dell's movie studio bundle. 9-10 - Jim X. Chen, Aiichiro Nakano:
High-dimensional data acquisition, computing, and visualization. 12-13 - Alexander Hinneburg, Daniel A. Keim, Markus Wawryniuk:
Using projections to visually cluster high-dimensional data. 14-25 - Ashish Sharma, Rajiv K. Kalia, Aiichiro Nakano, Priya Vashishta:
Large multidimensional data visualization for materials science. 26-33 - Kwan-Liu Ma:
Visualizing time-varying volume data. 34-42 - Ruixin Yang, Menas Kafatos, Brian Doty, James L. Kinter III, Long Pham:
A distributed enhanced server for multidimensional scientific data. 44-52 - Yonggao Yang, Jim X. Chen, Woosung Kim, Chang Jin Kee:
Nonlinear projection: using deformations in 3D viewing. 54-59 - Kurt Binder, Jürgen Horbach, Walter Kob
The interplay between structure and ionic motions in glasses. 60-66 - Geoffrey C. Fox:
Grid computing environments. 68-72 - Bert W. Rust:
Fitting nature's basic functions. IV. The variable projection algorithm. 74-79 - Kevin Craig:
The role of computers in mechatronics. 80-85 - Bruce M. Boghosian:
A look at lattice boltzmann equations [Book Review]. 86-87 - Teresa L. Cottom:
Using SWIG to bind C++ to Python. 88-97
Volume 5, Number 3, May - June 2003
- Pam Frost Gorder, Anne Jacobson:
Modeling a magnetic Moon. 4-8 - Norman Chonacky, Dante Choi:
Science and engineering databases in an open-source software world. 10-13 - Norman Chonacky:
Scientific Databases. 14-15 - C. Büchen-Osmond:
The universal virus database ICTVdB. 16-25 - Stephen W. Gaarenstroom:
Surface Science Spectra: a hybrid journal-database. 26-30 - Judith Bayard Cushing, Barbara Bond, Roman Dial, Nalini Nadkarni:
How trees and forests inform biodiversity and ecosystem informatics. 32-43 - James D. Myers
Re-integrating the research record. 44-50 - Shiang-Woei Chyuan, Yunn-Shiuan Liao, Jeng-Tzong Chen
An efficient method for solving electrostatic problems. 52-58 - Bryan Carpenter, Geoffrey C. Fox:
HPJava: a data parallel programming alternative. 60-64 - Robert C. Kirby
A new look at expression templates for matrix computation. 66-70 - Dietrich Stauffer:
Sociophysics simulations. 71-75 - Julian V. Noble:
Recurses! 76-81 - James G. Nagy, Dianne P. O'Leary:
Image deblurring: I can see clearly now. 82-84 - Jim X. Chen:
New graphics pipeline approach speeds up atomic primitives rendering. 86-89
Volume 5, Number 4, July - August 2003
- Anne Jacobson, Pam Frost Gorder:
Virtual physics lab close to reality. 3-5 - Pam Frost Gorder:
The googling of astronomy. 6-7 - Douglas Tougaw, Jeffrey Will:
Visualizing the future of virtual reality. 8-11 - William L. Hase
Computational chemistry. 12-13 - Stefan Goedecker, Gustavo E. Scuseria:
Linear scaling electronic structure methods in chemistry and physics. 14-21 - Robert E. Wyatt, Eric R. Bittiner:
Using quantum trajectories and adaptive grids to solve quantum dynamical problems. 22-30 - Srinivasan Iyengar
Modeling condensed-phase chemistry through molecular dynamics simulation. 31-35 - William L. Hase
Direct dynamics simulations. 36-44 - Christoph Lossen:
Singular: a computer algebra system. 45-55 - R. Bowen Loftin:
Multisensory perception: beyond the visual in visualization. 56-58 - John Reid:
The future of Fortran. 59-67 - Dianne P. O'Leary, Yalin Evren Sagduyu, James G. Nagy:
Robot control: swinging like a pendulum. 68-71 - James G. Nagy, Dianne P. O'Leary:
Partial solution to "Image deblurring: I can see clearly now". 72-74 - Muhammad Sahimi
Large-scale porous media and wavelet transformations. 75-87 - David M. Smith:
Using multiple-precision arithmetic. 88-93 - Geoffrey C. Fox:
Integrating computing and information on Grids. 94-96
Volume 5, Number 5, September - October 2003
- Anne Jacobson:
Cooperation amid competition: Solving selfish internet behavior. 6-8 - Anne Jacobson:
Neuron-controlled robots. 8-9 - Joseph DiDio III:
Opening doors with OpenOffice.org. 10-13 - Aiichiro Nakano, Jim X. Chen:
High-dimensional data acquisition, computing, and visualization. 14-15 - Ani Thakar, Alex Szalay, Peter Z. Kunszt
Migrating a multiterabyte archive from object to relational databases. 16-29 - Kerby Shedden, Ker-Chau Li:
Dimension reduction and spatiotemporal regression: applications to neuroimaging. 30-36 - Yonggao Yang, Jim X. Chen, Woosung Kim:
Gene expression clustering and 3D visualization. 37-43 - François Major
Building three-dimensional ribonucleic acid structures. 44-53 - Nargess Memarsadeghi
Classified information: the data clustering problem. 54-60 - Joan Adler:
Visualization in atomistic and spin simulations. 61-65 - James A. Ballas, Derek P. Brock, Justin Nevitt:
Using audio to enhance information tasks. 66-71 - George L. Donohue:
Undergraduate use of complex simulation tools for airspace design. 72-75 - Geoffrey C. Fox:
Data and metadata on the semantic Grid. 76-78 - John B. Rundle:
Self-organized criticality in earth systems [Book Review]. 80-82 - Paul F. Dubois, Thomas Epperly, Gary Kumfert:
Why Johnny can't build [portable scientific software]. 83-88
Volume 5, Number 6, November - December 2003
- Francis Sullivan:
Ask the hard questions. 3-4 - D. McClain:
Letter to the editor. 4-5 - Pam Frost Gorder:
Sizing up smart dust. 6-9 - Douglas Tougaw:
National instruments records a hit with elvis. 10-12 - Matthew A. Kupinski:
Guest editor's introduction - Computing in optics. 13-14 - Aramais R. Zakharian, Jerome V. Moloney, Masud Mansuripur:
Simulating near-field effects in high-density optical-disk data storage. 15-21 - Kurt E. Oughstun:
Computational methods in ultrafast time-domain optics. 22-32 - Martin Schweiger, Adam P. Gibson
Computational aspects of diffuse optical tomography. 33-41 - E. Keith Hege, Stuart Jefferies, Michael Lloyd-Hart:
Computing and telescopes at the frontiers of optical astronomy. 42-51 - Jacob Kogan, Charles K. Nicholas, Vladimir Volkovich:
Text mining with information-theoretic clustering. 52-59 - Dianne P. O'Leary, Nargess Memarsadeghi:
The direction-of-arrival problem: coming at you. 60-63 - Nargess Memarsadeghi
Partial solution to the last issue's assignment, "classified information: the data clustering problem". 64-70 - Jeffrey N. Johnson
Issue tracking. 71-77 - Lucilla de Arcangelis
Modeling the sol-gel transition. 78-87 - Michael E. Peskin
Numerical problem solving for undergraduate core courses. 92-97
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