New Strategies for Automated Tetrahedral Mesh Generation for Producing Credible Discretizations from 3D Image Data and Transient Level Sets
Abstract not provided.
Publications
Parallel Overlay Grid Tet Mesh Generation With Combined Snapping & Cutting With Automatic CAD Defeaturing
Abstract not provided.
Next Generation Simulation (NGS)
Abstract not provided.
Coarse Quad Layouts Through Robust Simplification of Cross Field Separatrix Partitions
Abstract not provided.
Producing Credible Discretizations by Combining Conformal Decomposition and Incremental Mesh Improvement
Abstract not provided.
Sandia National Labs Information Session
Abstract not provided.
Producing Credible Discretizations by Combining Conformal Decomposition and Incremental Mesh Improvement
Abstract not provided.
Deciding upon a Tet Meshing Approach:Searching for Guaranteed Element Quality Overlay Tetrahedral Mesh Generation With CAD Feature Capture
Abstract not provided.
COARSE QUAD LAYOUTS THROUGH ROBUST SIMPLIFICATION OF CROSS FIELD SEPARATRIX PARTITIONS
Abstract not provided.
Guaranteed Element Quality Overlay Tetrahedral Mesh Generation With CAD Feature Capture
Abstract not provided.
Massively Parallel Tet Meshing With Size-Dependent Feature Capture on CAD Models
Abstract not provided.
Massively Parallel Tet Meshing With Size-Dependent Feature Capture on CAD Models
Abstract not provided.
Parallel and Dirty CAD Tolerant Tetrahedral Mesh Generation With Feature Capture
Abstract not provided.
Next Generation Simulation
Abstract not provided.
Toward a paver replacement
Abstract not provided.
Toward a Paver Replacement
Abstract not provided.
QUAD MESHING CROSS FIELDS AND THE GINZBURG-LANDAU THEORY
Abstract not provided.
Cubit Mesh Generation
Abstract not provided.
Mesh Scaling : Generation of Incrementally Finer Meshes for Solution Verification
Abstract not provided.
Analysis of Non-Meshable Automatically Generated Frame Fields
Abstract not provided.
Analysis of Non-Meshable Automatically Generated Frame Fields
Abstract not provided.
Analysis of Non-Meshable Automatically Generated Frame fields
Abstract not provided.
Mesh scaling for affordable solution verification
Abstract not provided.
CUBIT Geometry and Mesh Generation Toolkit 15.2 User Documentation
Welcome to CUBIT, the Sandia National Laboratory automated mesh generation toolkit. CUBIT is a full-featured software toolkit for robust generation of two- and three-dimensional finite element meshes (grids) and geometry preparation. Its main goal is to reduce the time to generate meshes, particularly large hex meshes of complicated, interlocking assemblies. It is a solidmodeler based preprocessor that meshes volumes and surfaces for finite element analysis.
CUBIT geometry and mesh generation toolkit 15.1 user documentation
CUBIT is a full-featured software toolkit for robust generation of two- and three-dimensional finite element meshes (grids) and geometry preparation. Its main goal is to reduce the time to generate meshes, particularly large hex meshes of complicated, interlocking assemblies. It is a solid-modeler based preprocessor that meshes volumes and surfaces for finite element analysis. Mesh generation algorithms include quadrilateral and triangular paving, 2D and 3D mapping, hex sweeping and multi-sweeping, tetrahedral meshing, and various special purpose primitives. CUBIT contains many algorithms for controlling and automating much of the meshing process, such as automatic scheme selection, interval matching, sweep grouping, and also includes state-of-the-art smoothing algorithms.
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