5 | -- | 8 | David I. Lewin. DNA computing |
10 | -- | 13 | Douglas Tougaw. Finding your way with the garmin GPS V |
14 | -- | 15 | Douglass E. Post, Francis Sullivan. Guest Eidtors' Introduction Limits on computations |
16 | -- | 26 | Michael P. Frank. The physical limits of computing |
27 | -- | 30 | Robert B. Laughlin. The physical basis of computability |
31 | -- | 47 | Stephan Mertens. Computational complexity for physicists |
48 | -- | 53 | Charles Blilie. Patterns in scientific software: an introduction |
56 | -- | 66 | Sune R. Bahn, Karsten W. Jacobsen. An object-oriented scripting interface to a legacy electronic structure code |
68 | -- | 75 | Christoph Best, Hans-Christian Hege. Visualizing and identifying conformational ensembles in molecular dynamics trajectories |
76 | -- | 81 | Julian V. Noble. The full Monte |
82 | -- | 89 | Dave Stainforth, Jamie Kettleborough, Myles Allen, Mat Collins, Andy Heaps, James Murphy. Distributed computing for public-interest climate modeling research |
90 | -- | 94 | Xusheng Wang, Jim X. Chen, Daniel B. Carr, Sue Bell, Linda Pickle. Geographic statistics visualization: web-based linked micromap plots |
96 | -- | 98 | Geoffrey Fox. XML and the importance of being an object |
100 | -- | 105 | Nicholas Giordano. On hearing the'"shape"' of a vibrating string |