4 | -- | 8 | Greg Goth. Will Terra be terrific? NASA's Terra mission provides new level of data, accessibility, and integration |
9 | -- | 13 | Donald L. Shirer. Versatile Laboratory Computer Interfaces |
14 | -- | 15 | Efthimios Kaxiras. Materials Science |
16 | -- | 25 | Peter Kratzer, Matthias Scheffler. Surface knowledge: toward a predictive theory of materials |
26 | -- | 37 | Sauro Succi, Olga Filippova, Greg Smith, Efthimios Kaxiras. Applying the lattice Boltzmann equation to multiscale fluid problems |
38 | -- | 47 | Steven G. Johnson, Attila Mekis, Shanhui Fan, John D. Joannopoulos. Molding the flow of light |
48 | -- | 53 | Enrico Onofri. Elementary celestial mechanics using Matlab |
54 | -- | 59 | J. Michael Owen. An open-source project for modeling hydrodynamics in astrophysical systems |
60 | -- | 64 | Bert W. Rust. Fitting nature's basic functions. II. Estimating uncertainties and testing hypotheses |
66 | -- | 72 | Giovanni Aloisio, Massimo Cafaro, Carl Kesselman, Roy Williams. Web access to supercomputing |
74 | -- | 81 | Andrea Clematis, Michela Spagnuolo. Analyzing fuzzy surface modeling using load-balanced computation |
82 | -- | 99 | Albert Y. Zomaya, James A. Anderson, David B. Fogel, Gerard J. Milburn, Grzegorz Rozenberg. Nonconventional computing paradigms in the new millennium: a roundtable |
94 | -- | 96 | Grzegorz Rozenberg. DNA-based computation |
97 | -- | 99 | Albert Y. Zomaya. Natural and simulated annealing |