| 3 | -- | 4 | Norman Chonacky. Staking New Ground |
| 5 | -- | 8 | Pam Frost Gorder. Digital detectives reveal art forgeries |
| 9 | -- | 10 | Norman Chonacky, David Winch. Reviews of Maple, Mathematica, and Matlab: Coming Soon to a Publication Near You |
| 11 | -- | 13 | George K. Thiruvathukal. Guest Editors' Introduction: Cluster Computing |
| 14 | -- | 26 | Matthias K. Gobbert. Configuration and performance of a Beowulf cluster for large-scale scientific simulations |
| 27 | -- | 33 | Dean E. Dauger, Viktor K. Decyk. Plug-and-play cluster computing: high-performance computing for the mainstream |
| 34 | -- | 39 | Philip J. Hatcher, Mathew Reno, Gabriel Antoniu, Luc Bougé. Cluster computing with Java |
| 40 | -- | 50 | James D. Teresco, J. Fair, Joseph E. Flaherty. Resource-aware scientific computation on a heterogeneous cluster |
| 51 | -- | 59 | Jack Dongarra, Thomas L. Sterling, Horst D. Simon, Erich Strohmaier. High-performance computing: clusters, constellations, MPPs, and future directions |
| 60 | -- | 62 | Dianne P. O'Leary. Blind deconvolution: a matter of norm |
| 67 | -- | 74 | Gigi Karmous-Edwards. Global e-science collaboration |
| 75 | -- | 79 | Pei-Dong Dai, Tian-Yu Zhang, Jim X. Chen, Zheng-Min Wang, Keqiang Wang. A virtual laboratory for temporal bone microanatomy |
| 80 | -- | 88 | Denis Donnelly, Bert Rust. The fast Fourier transform for experimentalists. Part I. Concepts |