X3D Moving Grid Methods for Semiconductor Applications | Zendy

Andrew P. Kuprat | Zendy; D. C. Cartwright | Zendy; J. Tinka Gammel | Zendy; D.C. George | Zendy; Brian K. Kendrick | Zendy; D. P. Kilcrease | Zendy; Harold E. Trease | Zendy; Robert A. Walker | Zendy

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X3D Moving Grid Methods for Semiconductor Applications

Author(s) -

Andrew P. Kuprat,

D. C. Cartwright,

J. Tinka Gammel,

D.C. George,

Brian K. Kendrick,

D. P. Kilcrease,

Harold E. Trease,

Robert A. Walker

Publication year - 1998

Publication title -

vlsi design

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.123

H-Index - 24

eISSN - 1065-514X

pISSN - 1026-7123

DOI - 10.1155/1998/47283

Subject(s) - toolbox , grid , computer science , smoothing , x3d , computational science , set (abstract data type) , tracking (education) , computer engineering , artificial intelligence , computer vision , programming language , mathematics , psychology , virtual reality , vrml , pedagogy , geometry

The Los Alamos 3D grid toolbox handles grid maintenance chores and provides access to a sophisticated set of optimization algorithms for unstructured grids. The application of these tools to semiconductor problems is illustrated in three examples: grain growth, topographic deposition and electrostatics. These examples demonstrate adaptive smoothing, front tracking, and automatic, adaptive refinement/derefinement.

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