Computing in Science and Engineering - researchr journal

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2	--	3	Francis Sullivan. EWD: making it simple is not easy
4	--	10	David I. Lewin. Vintage computing [Use of computers in winemaking]
14	--	23	Fionn Murtagh, Jean-Luc Starck, Mireille Louys. Distributed visual information management in astronomy
24	--	33	Reiko Suzuki, Hiroshi Sato, Mineo Kimura. Antiproton-hydrogen atom collision at intermediate energy
34	--	39	Dongshan Xing, Junyi Shen. A new Markov model for Web access prediction
40	--	51	D. E. Stevenson. The Michelson-Morley experiment: a case study on validation
52	--	59	Fahri Basegmez. Extending a scientific application with scripting capabilities
60	--	62	Hai Zhuge. Clustering soft-devices in the semantic grid
64	--	68	Charles H. Patterson. Two approaches to teaching computation physics
70	--	74	Isabel Beichl. Dealing with degeneracy in triangulation
78	--	82	Marco Lanzagorta. Interactive visualization of a high-resolution reconstruction of the Moon

4	--	7	Greg Goth. Infrastructure simulation effort has high hopes, faces high hurdles
8	--	9	David I. Lewin. Intensity-modulated radiation therapy
12	--	13	Nancy Forbes. Treading new ground [tire industry]
24	--	25	William F. Spotz, Paul N. Swarztrauber. Climate modeling
26	--	31	Stephen J. Thomas, Richard D. Loft, John M. Dennis. Parallel implementation issues: global versus local methods
32	--	41	David A. Randall, Todd D. Ringler, Ross Heikes, Phil Jones, John Baumgardner. Climate modeling with spherical geodesic grids
42	--	48	Mohamed Iskandarani, Dale B. Haidvogel, Julia Levin, Enrique Curchitser, Christopher Edwards. Multi-scale geophysical modeling using the spectral element method
49	--	54	Kao-San Yeh, Shian-Jiann Lin, Richard B. Rood. Applying local discretization methods in the NASA finite-volume general circulation model
56	--	63	Johann Feichter, Martin Schultz, Thomas Diehl. Modeling chemical constituents of the atmosphere
64	--	69	Vicky Pope, Terry Davies. Testing and evaluating atmospheric climate models
70	--	73	Geoffrey Fox. Message passing: from parallel computing to the grid
74	--	78	Richard R. Silbar. Web delivery of interactive laboratories: comparing three authoring tools
84	--	90	Paul F. Dubois. Designing scientific components
91	--	97	Julian V. Noble. The right angle: precise numerical orthogonality in eigenstates

6	--	10	Greg Goth. The neural network is advancing
10	--	11	Anne Jacobson. Nanotechnology meets marine biology
11	--	0	Anne Jacobson. Bioinformatics booming
14	--	21	Auroop R. Ganguly. A hybrid approach to improving rainfall forecasts
22	--	30	David S. Thompson, Raghu Machiraju, Ming Jiang 0005, Jaya Sreevalsan-Nair, Gheorghe Craciun, Satya Sridhar Dusi Venkata. Physics-based feature mining for large data exploration
31	--	43	Naren Ramakrishnan, Chris Bailey-Kellogg. Sampling strategies for mining in data-scarce domains
44	--	51	Robert L. Grossman, Marco Mazzucco. DataSpace: a data Web for the exploratory analysis and mining of data
52	--	60	Chandrika Kamath, Erick Cantú-Paz, Imola K. Fodor, Nu Ai Tang. Classifying bent-double galaxies
61	--	71	Madhu Chetty, Rajkumar Buyya. Weaving computational grids: how analogous are they with electrical grids?
72	--	77	Bert W. Rust. Fitting nature's basic functions. Part III: exponentials, sinusoids, and nonlinear least squares
78	--	82	Emil Ong. MPI Ruby: scripting in a parallel environment
84	--	85	Geoffrey Fox. E-science meets computational science and information technology
86	--	91	Dale R. Shires, William Green, Shawn Walsh. Designing, controlling, and visualizing composite material manufacturing
92	--	0	George Cybenko. Understanding Quantum Computing [Book Review]
94	--	97	Matt Marone. The Mercer online interactive chaotic pendulum

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

3	--	4	Francis Sullivan. Trust but verify
5	--	8	Greg Goth. Fans of Hewlett-Packard calculators say "it all adds up"
11	--	14	Charles J. Holland, John Grosh. High-performance computing: addressing defense needs of today and tomorrow
16	--	21	Stephen J. Schraml, Kent D. Kimsey, Jerry A. Clarke. High-performance computing applications for survivability-lethality technologies
22	--	32	Jay P. Boris. The threat of chemical and biological terrorism: preparing a response
33	--	41	Emily A. Jarvis, Emily A. Carter. The role of reactive elements in thermal barrier coatings
42	--	49	Robert E. Peterkin, John W. Luginsland. A virtual prototyping environment for directed-energy concepts
50	--	57	Alan J. Wallcraft, H. E. Hurlburt, E. Joseph Metzger, Robert C. Rhodes, Jay F. Shriver, Ole Martin Smedstad. Real-time ocean modeling systems
58	--	65	Mark A. Manzardo, Kenneth G. LeSueur. An infrared-scene projector digital model
66	--	76	Frans M. Vos, Hans J. W. Spoelder, Desmond Germans, Rutger F. H. Hofman, Henri E. Bal. Real-time, adaptive measurement of corneal shapes
77	--	85	Rubin H. Landau, David Vediner, Pornrat Wattanakasiwich, Kevin R. Kyle. Future scientific digital documents with MathML, XML, and SVG
86	--	89	Isabel Beichl, Francis Sullivan. It's bound to be right [image state change detection]
90	--	96	Karen D. Devine, Erik G. Boman, Robert T. Heaphy, Bruce Hendrickson, Courtenay T. Vaughan. Zoltan data management services for parallel dynamic applications

5	--	9	David I. Lewin. Computer-aided paleontology: a new look for dinosaurs
10	--	14	Nancy Forbes, Paul Messina. Computer science today in the European Union
15	--	17	Douglas Tougaw, Jon Sanders. SunRay: a cost-effective desktop computer solution
18	--	19	Srikanta Kumar, Shankar Sastry. Guest editors' introduction: Biocomputation
20	--	31	Rajeev Alur, Calin Belta, Vijay Kumar, Max Mintz, George J. Pappas, Harvey Rubin, Jonathan Schug. Modeling and analyzing biomolecular networks
32	--	41	John H. Reif. DNA lattices: A method for molecular-scale patterning and computation
42	--	49	Bud Mishra. Comparing gnomes
50	--	62	Ying Xu, Dong Xu, Dongsup Kim, Victor Olman, Jane Razumovskaya, Tao Jiang. Automated assignment of backbone NMR peaks using constrained bipartite matching
64	--	72	Juhani Hämäläinen, Kari Hirvi, Hannu Rajaniemi. Using mathematical models to cope with complex computer simulations
74	--	84	George K. Thiruvathukal. Java at middle age: enabling Java for computational science
86	--	91	Yonggao Yang, Xusheng Wang, Jim X. Chen. Rendering avatars in virtual reality: integrating a 3D model with 2D images
92	--	97	Denis Donnelly. The fireworks effect: exploring trajectory sets in time

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