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NETGEN 5.3.13D tetrahedral mesh generator
NETGEN is a powerful and automatic 3D tetrahedral mesh generator. The application is designed to accept input from constructive solid geometry (CSG) or boundary representation (BRep) from STL file format. Netgen is available for the Unix/Linux, Windows NT/XP/Vista as well as the MacOS platforms for both 32-bit and 64-bit architectures.
NETGEN 5.3.1 details
|Released:||Mar 3, 2016|
|File size:||44.40 MB|
|Keywords:||create 3D mesh, 3D tetrahedral mesh generator, mesh creator, mesh, geometry|
Windows 10 Blog
NETGEN for Windows 10 - Full description
Netgen is a multi-platform automatic mesh generation tool written in C++ capable of generating meshes in two and three dimensions. The program is open source, and is distributed under the conditions of the LGPL.
Netgen is available for the Unix/Linux, Windows NT/XP/Vista as well as the MacOS platforms for both 32-bit and 64-bit architectures, and comes in two primary forms:
A Stand-alone Program with its own Graphical User Interface (GUI) implemented using Tcl/Tk.
A C++ library (Nglib) which can be linked into other applications functioning as the backend mesh generation kernel.
Netgen generates triangular or quadrilateral meshes in 2D, and tetrahedral meshes in 3D. The input for 2D is described by spline curves, and the input for 3D problems can be defined by Constructive Solid Geometry (CSG), the standard STL file format, or via Boundary Representations (BRep/IGES/STEP) when compiled with OpenCascade support. NETGEN provides modules for automated mesh optimization and hierarchical mesh refinement. Curved elements or arbitrary order are supported.
Main Features of Netgen
Two and three dimensional surface meshing - Triangular and Quadrilateral elements
Three dimensional volume meshing - Tetrahedral elements
Constructive Solid Geometry (CSG)
Triangulated Surfaces (STL)
Boundary Representation (BRep/IGES/STEP) - When compiled with OpenCascade support
Mesh Generation algorithms
Automated topology based mesh size control - With user controllable constraints
Mesh refinement algorithms
Curved (higher order) elements - For both 2D and 3D mesh elements