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ORCIDComputing in Science and Engineering, Volume 1
Volume 1, Number 1, January / February 1999
- Ken Hass:
Where The Rubber Meets The Road. 4-6 - Jim X. Chen, Xiaodong Fu:
Integrating physics-based computing and visualization: modeling dust behavior. 12-16 - Alex F. Burr, Bruce A. Craig
, Choong-Geun Chung, Tak-Shing Harry So, T. J. Deveou, Donald L. Shirer:
Programs for Statistics and Data Analysis. 17-21 - Carl J. Beckmann, George Cybenko:
Computation in Communication. 22 - Carl J. Beckmann, Donald McManus, George Cybenko:
Horizons in scientific and distributed computing. 23-30 - Marc Kimpe, Harry Leib, Olivier Maquelin, Ted H. Szymanski:
Fast computational techniques for indoor radio channel estimation. 31-41 - James H. Cowie, David M. Nicol, Andrew T. Ogielski:
Modeling the global Internet. 42-50 - Tim Olson, Dennis Healy, Ulf Österberg:
Wavelets in optical communications. 51-57 - Martin W. Lo:
Satellite-constellation design. 58-67 - David J. Kuck:
Parallelism and CSE [computing in science and engineering]. 68-69 - D. C. Rapaport:
Molecular dynamics simulation. 70-71 - Hans J. Herrmann:
The importance of computer simulations of granular flow. 72-73 - Harry Eugene Stanley:
Econophysics: can physicists contribute to the science of economics? 74-77 - Dietrich Stauffer:
Why sex - are men useful for anything? 78-80 - Bruce Segee:
Methods in Neuronal Modeling: from Ions to Networks, 2nd Edition. 81 - Grigori V. Kapoustin, Jian Ma:
Modeling adsorption-desorption processes in porous media. 84-91 - Tom Compton:
MathScript, Internet connection to Mathematica. 92-95
Volume 1, Number 2, March / April 1999
- David I. Lewin:
Totally Rad: planning radiation therapy in 3D. 6-9 - Timothy C. Germann, Peter S. Lomdahl:
Recent advances in large-scale atomistic materials simulations. 10-11 - Toshiyuki Fukushige, Piet Hut, Junichiro Makino:
High-performance special-purpose computers in science. 12-13 - John R. Rice:
A perspective on computational science in the 21st Century. 14-16 - Joel E. Tohline, Greg L. Bryan:
Cosmology and computation [Guest Editorial]. 17-18 - J. Richard Bond, Robert G. Crittenden, Andrew H. Jaffe, Lloyd Knox:
Computing challenges of the cosmic microwave background. 21-35 - Simon D. M. White, Volker Springel:
Fitting the universe on a supercomputer. 36-45 - Greg L. Bryan:
Fluids in the universe: adaptive mesh refinement in cosmology. 46-53 - Alexander S. Szalay:
The Sloan Digital Sky Survey. 54-62 - Mark G. Gray, Randy M. Roberts, Tom M. Evans:
Shadow-object interface between Fortran 95 and C++. 63-70 - Isabel Beichl, Francis Sullivan:
The importance of importance sampling. 71-73 - Normand Mousseau, Gerard T. Barkema:
Exploring high-dimensional energy landscapes. 74-80 - Nikolaos Aravas:
Finite elements: theory, fast solvers, and applications in solid mechanics [Book and Web reviews]. 81 - M. Vtreberg:
Pattern formation on the Web [Book and Web reviews]. 82 - Daniel Frenkel, Laura Golebiowski, Renato Portugal:
Computer algebra takes on the vibrating-membrane problem. 88-93
Volume 1, Number 3, May / June 1999
- Keri Schreiner:
Creativity is key to drug R&D. 6-9 - Kurt Binder, Marcus Müller, Friederike Schmid:
How simulations clarify complex material phase transitions. 10-12 - Wolfgang Christian:
Educational software and the Sisyphus effect. 13-15 - Jill P. Mesirov, Donna K. Slonim:
Computational biology. 16-17 - Mark J. Daly:
The computational challenge of linkage analysis: what causes diseases? 18-25 - Charles DeLisi, Sandor Vajda:
Computational problems in cell biology. 26-32 - Gene Myers:
Whole-genome DNA sequencing. 33-43 - Lincoln D. Stein, Jean Thierry-Mieg:
AceDB: a genome database management system. 44-52 - D. E. Stevenson:
A critical look at quality in large-scale simulations. 53-63 - Jerzy Karczmarczuk:
Scientific computation and functional programming. 64-72 - John T. Betts:
A direct approach to solving optimal control problems. 73-75 - Eugene I. Butikov:
Parametric resonance. 76-83 - William J. Thompson:
Spheroidal wave functions. 84-87 - Norris Parker Smith:
Marketing eau de Skunqoil: Only on the internet. 88-89
Volume 1, Number 4, July / August 1999
- Michael W. Berry:
Massive Data Visualization. 16-17 - William W. Hargrove, Forrest M. Hoffman:
Using multivariate clustering to characterize ecoregion borders. 18-25 - Andrew Booker, Michelle Condliff, Mark Greaves, Fred B. Holt, Anne Kao, Daniel J. Pierce, Stephen R. Poteet, Yuan-Jye Jason Wu:
Visualizing text data sets. 26-35 - Michael L. Norman, John Shalf, Stuart Levy, Greg Daues:
Diving deep: data-management and visualization strategies for adaptive mesh refinement simulations. 36-47 - Hans G. Kaper, Elizabeth Wiebel, Sever Tipei:
Data sonification and sound visualization. 48-58 - Isabel Beichl, Francis Sullivan:
Pay me now or pay me later [computer programming techniques]. 59-62 - Michael Thoresen:
Tex to Web-fast and easy. 63-65 - Scott Haney, James Crotinger:
How templates enable high-performance scientific computing in C++. 66-72 - Matthew C. Kuntz, Olga Perkovic, Karin A. Dahmen, Bruce W. Roberts, James P. Sethna:
Hysteresis, avalanches, and noise. 73-81 - Ying Zhu, Jim X. Chen, ShiDe Xiao, Edward B. MacMahon:
3D knee modeling and biomechanical simulation. 82-87
Volume 1, Number 5, September / October 1999
- David P. Landau:
Phase transitions and critical phenomena. 10-11 - Nancy Forbes, Laura F. Landweber:
Computer science and the evolution of genetic information. 12-15 - David I. Lewin:
Cruising digital ships on electronic seas. 16-19 - Priya Vashishta, Aiichiro Nakano:
Dynamic Fracture Analysis. 20-23 - Krishnaswamy Ravi-Chandar, Wolfgang Knauss:
Processes controlling fast fracture of brittle solids. 24-31 - Elisabeth Bouchaud, Florin Paun:
Fracture and damage at a microstructural scale. 32-38 - Aiichiro Nakano, Rajiv K. Kalia, Priya Vashishta:
Scalable molecular-dynamics, visualization, and data management algorithms for materials simulations. 39-47 - Michael Marder:
Molecular dynamics of cracks. 48-55 - Priya Vashishta, Rajiv K. Kalia, Aiichiro Nakano:
Large-scale atomistic simulations of dynamic fracture. 56-65 - Paul F. Dubois, T.-Y. Brian Yang:
Extending Python with Fortran. 66 - Enrique Canessa:
Enabling synchronous math discussions on the Web. 74-76 - Seymour Trester:
Computer-simulated Fresnel diffraction using the Fourier transform. 77-83 - William J. Thompson:
Don't subtract the background [signal count analysis method]. 84-88 - Dirk Helbing, Martin Treiber:
Numerical simulation of macroscopic traffic equations. 89-98 - Mark F. Gyure:
Bridging time and length scales in semiconductor process model development. 100-103 - Norris Parker Smith:
Terms of life defined in agreement with fate.com - A fantasy. 104-105
Volume 1, Number 6, November / December 1999
- Robert Coïsson, Luigi Cristofolini:
Real-time toolbox provides convenient lab-data acquistion. 10-11 - Leo Joskowicz, Elisha Sacks:
Computer-aided mechanical design using configuration spaces. 14-21 - Kevin Northover, Andrew W. Lo:
Computational finance. 22-23 - J. Doyne Farmer:
Physicists attempt to scale the ivory towers of finance. 26-39 - Dimitris Bertsimas, Andrew W. Lo, Paul Hummel:
Optimal control of execution costs for portfolios. 40-53 - James Gatheral, Yonathan Epelbaum, Jining Han, Kishor Laud, Olga Lubovitsky, Elaine Kant, Curt Randall:
Implementing option-pricing models using software synthesis. 54-64 - Jeremy G. Siek, Andrew Lumsdaine:
The Matrix Template Library: generic components for high-performance scientific computing. 70-71 - N. Sanjay Rebello:
How to distribute your software over the web. 79-81 - James S. Ball:
Orthogonal polynomials, Gaussian quadratures, and PDEs. 92-95
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