Computing in Science and Engineering - researchr journal

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3	--	4	Francis Sullivan. Ask the hard questions
4	--	5	D. McClain. Letter to the editor
6	--	9	Pam Frost Gorder. Sizing up smart dust
10	--	12	Douglas Tougaw. National instruments records a hit with elvis
13	--	14	Matthew A. Kupinski. Guest editor's introduction - Computing in optics
15	--	21	Aramais R. Zakharian, Jerome V. Moloney, Masud Mansuripur. Simulating near-field effects in high-density optical-disk data storage
22	--	32	Kurt E. Oughstun. Computational methods in ultrafast time-domain optics
33	--	41	Martin Schweiger, Adam Gibson, Simon R. Arridge. Computational aspects of diffuse optical tomography
42	--	51	E. Keith Hege, Stuart Jefferies, Michael Lloyd-Hart. Computing and telescopes at the frontiers of optical astronomy
52	--	59	Jacob Kogan, Charles K. Nicholas, Vladimir Volkovich. Text mining with information-theoretic clustering
60	--	63	Dianne P. O'Leary, Nargess Memarsadeghi. The direction-of-arrival problem: coming at you
64	--	70	Nargess Memarsadeghi, Dianne P. O'Leary. Partial solution to the last issue's assignment, "classified information: the data clustering problem"
71	--	77	Jeffrey N. Johnson, Paul F. Dubois. Issue tracking
78	--	87	Lucilla de Arcangelis. Modeling the sol-gel transition
92	--	97	Michael E. Peskin. Numerical problem solving for undergraduate core courses

6	--	8	Anne Jacobson. Cooperation amid competition: Solving selfish internet behavior
8	--	9	Anne Jacobson. Neuron-controlled robots
10	--	13	Joseph DiDio III. Opening doors with OpenOffice.org
14	--	15	Aiichiro Nakano, Jim X. Chen. High-dimensional data acquisition, computing, and visualization
16	--	29	Ani Thakar, Alex Szalay, Peter Z. Kunszt, Jim Gray. Migrating a multiterabyte archive from object to relational databases
30	--	36	Kerby Shedden, Ker-Chau Li. Dimension reduction and spatiotemporal regression: applications to neuroimaging
37	--	43	Yonggao Yang, Jim X. Chen, Woosung Kim. Gene expression clustering and 3D visualization
44	--	53	François Major. Building three-dimensional ribonucleic acid structures
54	--	60	Nargess Memarsadeghi, Dianne P. O'Leary, Yalin Evren Sagduyu. Classified information: the data clustering problem
61	--	65	Joan Adler. Visualization in atomistic and spin simulations
66	--	71	James A. Ballas, Derek P. Brock, Justin Nevitt. Using audio to enhance information tasks
72	--	75	George L. Donohue. Undergraduate use of complex simulation tools for airspace design
76	--	78	Geoffrey Fox. Data and metadata on the semantic Grid
80	--	82	John B. Rundle. Self-organized criticality in earth systems [Book Review]
83	--	88	Paul F. Dubois, Thomas Epperly, Gary Kumfert. Why Johnny can't build [portable scientific software]

3	--	5	Anne Jacobson, Pam Frost Gorder. Virtual physics lab close to reality
6	--	7	Pam Frost Gorder. The googling of astronomy
8	--	11	Douglas Tougaw, Jeffrey Will. Visualizing the future of virtual reality
12	--	13	William L. Hase, Gustavo E. Scuseria. Computational chemistry
14	--	21	Stefan Goedecker, Gustavo E. Scuseria. Linear scaling electronic structure methods in chemistry and physics
22	--	30	Robert E. Wyatt, Eric R. Bittiner. Using quantum trajectories and adaptive grids to solve quantum dynamical problems
31	--	35	Srinivasan Iyengar, Christian J. Burnham, Matt K. Petersen, Gregory A. Voth. Modeling condensed-phase chemistry through molecular dynamics simulation
36	--	44	William L. Hase, Kihyung Song, Mark S. Gordon. Direct dynamics simulations
45	--	55	Christoph Lossen. Singular: a computer algebra system
56	--	58	R. Bowen Loftin. Multisensory perception: beyond the visual in visualization
59	--	67	John Reid. The future of Fortran
68	--	71	Dianne P. O'Leary, Yalin Evren Sagduyu, James G. Nagy. Robot control: swinging like a pendulum
72	--	74	James G. Nagy, Dianne P. O'Leary. Partial solution to "Image deblurring: I can see clearly now"
75	--	87	Muhammad Sahimi. Large-scale porous media and wavelet transformations
88	--	93	David M. Smith. Using multiple-precision arithmetic
94	--	96	Geoffrey Fox. Integrating computing and information on Grids

4	--	8	Pam Frost Gorder, Anne Jacobson. Modeling a magnetic Moon
10	--	13	Norman Chonacky, Dante Choi. Science and engineering databases in an open-source software world
14	--	15	Norman Chonacky. Scientific Databases
16	--	25	C. Büchen-Osmond. The universal virus database ICTVdB
26	--	30	Stephen W. Gaarenstroom. Surface Science Spectra: a hybrid journal-database
32	--	43	Judith Bayard Cushing, Barbara Bond, Roman Dial, Nalini Nadkarni. How trees and forests inform biodiversity and ecosystem informatics
44	--	50	James D. Myers, Alan Chappell, Matthew Elder, Al Geist, Jens Schwidder. Re-integrating the research record
52	--	58	Shiang-Woei Chyuan, Yunn-Shiuan Liao, Jeng-Tzong Chen. An efficient method for solving electrostatic problems
60	--	64	Bryan Carpenter, Geoffrey Fox. HPJava: a data parallel programming alternative
66	--	70	Robert C. Kirby. A new look at expression templates for matrix computation
71	--	75	Dietrich Stauffer. Sociophysics simulations
76	--	81	Julian V. Noble. Recurses!
82	--	84	James G. Nagy, Dianne P. O'Leary. Image deblurring: I can see clearly now
86	--	89	Jim X. Chen. New graphics pipeline approach speeds up atomic primitives rendering

4	--	7	Pam Frost Gorder, Anne Jacobson. Where have all the comets gone?
8	--	0	Anne Jacobson. Mathematical models correctly predict cell cycle behavior
9	--	10	L. Alan Kraft. Making home DVD: dell's movie studio bundle
12	--	13	Jim X. Chen, Aiichiro Nakano. High-dimensional data acquisition, computing, and visualization
14	--	25	Alexander Hinneburg, Daniel A. Keim, Markus Wawryniuk. Using projections to visually cluster high-dimensional data
26	--	33	Ashish Sharma, Rajiv K. Kalia, Aiichiro Nakano, Priya Vashishta. Large multidimensional data visualization for materials science
34	--	42	Kwan-Liu Ma. Visualizing time-varying volume data
44	--	52	Ruixin Yang, Menas Kafatos, Brian Doty, James L. Kinter III, Long Pham. A distributed enhanced server for multidimensional scientific data
54	--	59	Yonggao Yang, Jim X. Chen, Woosung Kim, Chang Jin Kee. Nonlinear projection: using deformations in 3D viewing
60	--	66	Kurt Binder, Jürgen Horbach, Walter Kob, Anke Winkler. The interplay between structure and ionic motions in glasses
68	--	72	Geoffrey Fox. Grid computing environments
74	--	79	Bert W. Rust. Fitting nature's basic functions. IV. The variable projection algorithm
80	--	85	Kevin Craig. The role of computers in mechatronics
86	--	87	Bruce M. Boghosian. A look at lattice boltzmann equations [Book Review]
88	--	97	Teresa L. Cottom. Using SWIG to bind C++ to Python

4	--	7	David I. Lewin, Greg Goth. Stellarators: the once and future thing
8	--	13	Greg Goth. Oxford Internet Institute debuts
18	--	19	Nancy Forbes, Mike Foster. The end of moore's law?
20	--	24	James D. Meindl. Beyond Moore's Law: the interconnect era
25	--	29	Thomas N. Theis. Beyond the silicon transistor: personal observations
30	--	38	Charles Wessner. Sustaining Moore's law and the US economy
39	--	46	Keith Stein, Tayfun Tezduyar, Richard Benney. Computational methods for modeling parachute systems
48	--	56	April K. Andreas, Isabel Beichl. Estimating the work in integer partitioning
60	--	62	Geoffrey Fox. Java and Grande applications
64	--	69	Ulrich H. E. Hansmann. Protein folding in silico: an overview
70	--	79	Thilo Ernst, Tom Rother, Franz Schreier, Jochen Wauer, Wolfgang Balzer. DLR's VirtualLab: scientific software just a mouse click away
80	--	85	Dario Benedetto, Emanuele Caglioti, Vittorio Loreto. Zipping out relevant information
86	--	89	Peter M. Ketcham, David L. Feder. Visualizing Bose-Einstein condensates
90	--	97	Mario Belloni, Wolfgang Christian. Physlets for quantum mechanics

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