|
|
|
Search
|
|
|
| |
| |
|
| « Prev Page | Next Page » |
Pages: << 2 3 4 [5] 6 7 |
|
FEMOctave Download
|
|
|
| This is a very simple FEM package for Octave. It solves second order differential equations in two variables, using first order elements.
|
| |
|
|
|
FEMM Download
|
|
|
| FEMM - Finite Element Method Magnetics - is an FEA solver for low frequency 2D and axisymmetric magnetic problems. Includes preprocessor and postprocessor. Uses Triangle (qv) for meshing. Can import DXF files. Freeware. The source code is available. Microsoft Visual C++ (version 4 or higher) is required to compile it. The manual can be compiled with pdfTeX. FEMM now incorporates the Lua scripting language to allow the user to perform batch runs.
An additional service related to the program is now available: professional support and consultancy services for the program are now available for FEMM through Foster-Miller.
|
| |
|
|
|
FemLisp Download
|
|
|
| Femlisp is an interactive framework for solving partial differential equations with the help of the finite element method (FEM), written completely in Common Lisp. It can handle Lagrange finite elements of arbitrary order on unstructured meshes of arbitrary dimension. Femlisp is known to work on Linux with the free Common Lisp implementations CMUCL and SBCL, on Solaris with CMUCL, and on Mac OS X with SBCL. It should be easy to port to Windows with commercial implementations of Common Lisp (Allegro CL, Lispworks, Corman Lisp).
|
| |
|
|
|
FEMLAB-2D Download
|
|
|
| Interactive program for the solution of pde's based on FEM with adaptive meshing and automatic error control. FEMLAB-2D solves 2D convection-diffusion-absorption problems and uses X-windows. Platforms:
Tested on SUN's running SunOS 5.3. Needs the library package libsx
|
| |
|
|
|
FEM_Object Download
|
|
|
| FEM_Object 001 in Smalltalk V offers a user-friendly object-oriented finite element development environment; it includes truss and plain-strain elements in statics and dynamics. Extensive tutorials explain how to expand the existing package. FEM_Object 001 in C++ can be used to solve large problems; it retains most pleasant features of its Smalltalk version without the drawbacks (limited problem size, slow execution speed). This program has been tested on the following platforms :
- IBM PC (or compatible) with Borland C++ or Turbo C++ compiler,
- Silicon Graphics station with AT & T C++ compiler,
- Sun Sparc2 station with AT & T C++ compiler.
|
| |
|
|
|
FEM2DLib Download
|
|
|
| FEM2DLib is a Fortran-90 module with set of data structure definitions (that behave more or less as "objects"), functions and subroutines that can be used to solve simple problems with ordinary and partial differential equations using the Finite Elements Method (FEM).
In its simplest applications FEM2DLib requires only a problem definition file (mesh, material functions etc) and about 10 lines of Fortran code. Experienced Fortran programmers can solve complex 2D problems which may involve time-dependent boundary conditions, time-dependent mesh structures, or changing mesh resolutions over advected features.
FEM2DLib can solve transient and steady state advection-diffusion problems. The library contains several types of elements (1D elements, triangular elements, directly integrated or isoparametrical with up to 9 nodes and rectangular serendipity and lagrange elements, with up to 9 nodes). The data structures are allocated dynamically, so the limit to the size of a mesh is imposed only by the amount of virtual memory available. Any platform that supports a ANSI-standard Fortran-90 co mpiler
|
| |
|
|
|
FEM Download
|
|
|
| A C++ object oriented code demonstrator. The C++ classes represent FE objects and mathematical objects.
Platforms:
Unix platforms. C++ source code is included.
|
| |
|
|
|
FELyX Download
|
|
|
| FELyX is an object oriented Finite Element Method (FE/FEM) code written in C++. Platforms:
Linux computers with C++ compilers and Can exchange data with ANSYS (q.v.).
|
| |
|
|
|
| « Prev Page | Next Page » |
Pages: << 2 3 4 [5] 6 7 |
| |
|
|
| Copyright
2000 - 2008 Engineers Edge |
|
|
