Fast scaled-DCT algorithm
E. Feig
Electronic Imaging: Advanced Devices and Systems 1990
Continuing advances in supercomputer technology give the scientist/engineer the ability to run increasingly complex computational experiments and simulations. Gaining insight from the flood of simulation results is a difficult task for the scientist. This paper presents the Visual Interpretation System (VIS), an easy to use, interactive, discipline-independent tool for understanding multidimensional data sets. Components of the VIS are a database manager, a user interface, and a visualization manager. The database manager facilitates discipline-independent visualization and lets the scientist manipulate data with familiar names and attributes. The visualization manager uses an optical model to generate 3D images with a variety of options including opaque and transparent structures, cutouts, and region highlighting. The effectiveness of the VIS is demonstrated using data from a 3D simulation of a transistor device.
E. Feig
Electronic Imaging: Advanced Devices and Systems 1990
Naga Ayachitula, Melissa Buco, et al.
SCC 2007
Daniel J. Costello Jr., Pierre R. Chevillat, et al.
ISIT 1997
Martin Charles Golumbic, Renu C. Laskar
Discrete Applied Mathematics