default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDComputing in Science and Engineering, Volume 2
Volume 2, Number 1, January / February 2000
- Joseph S. Shang, Marcus Wagner, Yi Pan, Douglas C. Blake:
Strategies for adopting FVTD on multicomputers [finite-volume time-domain analysis]. 10-21 - Jack J. Dongarra, Francis Sullivan:
Guest Editors Introduction to the top 10 algorithms. 22-23 - David H. Bailey:
Integer relation detection. 24-28 - John C. Nash:
The (Dantzig) simplex method for linear programming. 29-31 - Henk A. van der Vorst:
Krylov subspace iteration. 32-37 - Beresford N. Parlett:
The QR algorithm. 38-42 - Joseph F. JáJá:
A perspective on Quicksort. 43-49 - G. W. Stewart:
The decompositional approach to matrix computation. 50-59 - Daniel N. Rockmore:
The FFT: an algorithm the whole family can use. 60-64 - Isabel Beichl, Francis Sullivan:
The Metropolis Algorithm. 65-69 - David A. Padua:
The Fortran I compiler. 70-75 - John Board, Klaus Schulten:
The fast multipole algorithm. 76-79 - Julian V. Noble:
Gauss-Legendre principal value integration. 92-95
Volume 2, Number 2, March / April 2000
- Donald L. Shirer:
Basic: the little language that wouldn't die. 6-10 - Merrell L. Patrick, Robert G. Voigt:
Advancing simulation science and engineering at disciplinary interfaces. 14-16 - Michael T. Heath, William A. Dick:
Virtual prototyping of solid propellant rockets. 21-32 - Robert Rosner, Alan C. Calder
, Jonathan Dursi, Bruce Fryxell, Donald Q. Lamb, Jens C. Niemeyer, Kevin Olson, Paul M. Ricker, Frank X. Timmes, James W. Truran, Henry M. Tufo, Yuan-Nan Young, Michael Zingale, Ewing L. Lusk, Rick Stevens:
Flash code: studying astrophysical thermonuclear flashes. 33-41 - Michael Aivazis, William A. Goddard III, Daniel I. Meiron, Michael Ortiz, James Pool, Joseph E. Shepherd:
A virtual test facility for simulating the dynamic response of materials. 42-53 - William C. Reynolds, Massimiliano Fatica:
Stanford Center for Integrated Turbulence Simulations. 54-63 - Thomas C. Henderson, Patrick McMurtry, Philip J. Smith, Gregory A. Voth, Charles A. Wight, David W. Pershing:
Simulating accidental fires and explosions. 64-76 - Dona Crawford, Donald McCoy, David Nowak:
Our perspective on the Alliance Program's benefits. 77-79 - James E. Gubernatis, Naomichi Hatano:
The multicanonical Monte Carlo method. 95-102
Volume 2, Number 3, May / June 2000
- David I. Lewin:
Teaching techies to become entrepreneurs. 6-9 - Carl Taswell:
The what, how, and why of wavelet shrinkage denoising. 12-19 - John B. Rundle:
Computational earth system science. 20-21 - Louis Moresi, Michael Gurnis, Shijie Zhong:
Plate tectonics and convection in the Earth's mantle: toward a numerical simulation. 22-33 - Eric F. Preston, Jorge S. Sá Martins, John B. Rundle, Marian Anghel, William Klein:
Models of earthquake faults with long-range stress transfer. 34-41 - Bruce D. Malamud, Donald L. Turcotte:
Cellular-automata models applied to natural hazards. 42-51 - Howard A. Zebker:
Studying the Earth with interferometric radar. 52-60 - Gary A. Glatzmaier, Thomas C. Clune:
Computational aspects of geodynamo simulations. 61-67 - Marco Lanzagorta, Robert Rosenberg, Lawrence J. Rosenblum, Eddy Kuo:
Rapid prototyping of virtual environments. 68-73 - Michael Malak:
Adding video to your Web pages. 74-77 - Burkhard D. Steinmacher-Burow:
Dividing the application definition from the execution. 78-83 - Isabel Beichl, Francis Sullivan:
A=B? [Working with large integers]. 84-87 - Maurice de Koning, Wei Cai, Alex Antonelli, Sidney Yip:
Efficient free-energy calculations by the simulation of nonequilibrium processes. 88-96
Volume 2, Number 4, July / August 2000
- Douglas Tougaw:
Sun PCi provides the best of two worlds. 4-8 - Toby Burnett, Chris Chaput, Heather Arrighi, Jay Norris, Daniel J. Suson:
Simulating the Glast satellite with Gismo. 9-18 - Andreas Stathopoulos, Serdar Ögüt, Yousef Saad, James R. Chelikowsky, Hanchul Kim:
Parallel methods and tools for predicting material properties. 19-32 - Kevin Amaratunga:
A wavelet-based approach for compressing kernel data in large-scale simulations of 3D integral problems. 34-45 - Carlos Alberola-López, Lorenzo J. Tardón, Juan Ruiz-Alzola:
Graphical models for problem solving. 46-57 - Douglas Stott Parker, Brad Pierce, Paul R. Eggert:
Monte Carlo arithmetic: how to gamble with floating point and win. 58-68 - Steven H. Kleinstein, Philip E. Seiden:
Simulating the immune system. 69-77 - Kristi D. Concannon, William J. Thompson:
Regression lines: more than meets the eye. 78-81 - Paul F. Dubois:
Extending Maple with compiled routines. 82-86 - H. Hortel, Michael Lüdke:
3D simulations of interacting particles. 87-90 - Richard R. Silbar:
Animating equations on the Web. 91-95
Volume 2, Number 5, September / October 2000
- David I. Lewin:
Do databases need protection? From whom? 11-13 - Martin Weinhous, Joseph M. Rosen:
Computing in Medicine. 14-17 - Idith Haber, Dimitris N. Metaxas, Leon Axel:
Using tagged MRI to reconstruct a 3D heartbeat. 18-30 - Christine L. Hartmann Siantar, Dewey Garrett:
Photon-beam radiation therapy and Monte Carlo. 31-38 - Maryellen L. Giger:
Computer-aided diagnosis of breast lesions in medical images. 39-45 - Scott L. Delp, Peter Loan:
A computational framework for simulating and analyzing human and animal movement. 46-55 - David Scherer, Paul Dubois, Bruce Sherwood:
VPython: 3D interactive scientific graphics for students. 56-62 - Debashish Chowdhury, Ludger Santen, Andreas Schadschneider:
Simulation of vehicular traffic: a statistical physics perspective. 80-87 - Norris Parker Smith:
The long way from 2.5 Gen to the third generation. 88-89
Volume 2, Number 6, November / December 2000
- Ren-Jye Yang, Alexander Akkerman, Daniel F. Anderson, M. Omar Faruque, Lei Gu:
Robustness optimization for vehicular crash simulations. 8-13 - Robert S. Drach:
Serving scientific data over the Web. 14-18 - Donald G. Truhlar, B. Vincent McKoy:
Computational chemistry. 19-21 - Michele Parrinello:
Simulating complex systems without adjustable parameters. 22-27 - Tom K. Woo, Serguei Patchkovskii, Tom Ziegler:
Atomic scale modeling of polymerization catalysts. 28-37 - Tamar Schlick, Daniel A. Beard, Jing Huang, Daniel Strahs, Xiaoliang Qian:
Computational challenges in simulating large DNA over long times. 38-51 - Siddharth Dasgupta:
The role and challenges of computational chemistry in industrial problems. 52-60 - Matthias Schwab, N. Karrenbach, Jon F. Claerbout:
Making scientific computations reproducible. 61-67 - Edward J. Wegman:
Affordable environments for 3D collaborative data visualization. 68-72 - Stefan Boettcher:
Extremal optimization: heuristics via coevolutionary avalanches. 75-82 - Nancy Forbes:
Biologically inspired computing. 83-87 - Panayotis A. Assimakopoulos:
A computer-aided introductory course in electricity and magnetism. 88-93 - William J. Thompson:
Visualizing transcendental functions. 98-103 - Norris Parker Smith:
Janus: The Ideal Patron For Computing. 106-107
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
last updated on 2025-11-04 22:23 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
