Description: Object-oriented three-dimensional meshless method OMLL procedure can be used for structural, fluid stress and deformation analysis
- [rkpm] - Meshless method: RKPM, calculating plate
- [CPoint3DCloud] - use OpenGL, prepared by the VC C, 3-D pr
- [MarchingCubeAlg] - Volume Rendering Algorithm for a detaile
- [OpenGL] - Functions/Classes:
- [meshless] - This is a meshless teaching for beginner
- [drain2dp-src] - Berkeley famous structure developed at t
- [nem2d] - University of California, Davis, Sukumar
- [Omll2D] - Object-oriented meshless method of two-d
- [meshless] - meshles grid are not used to generate a
File list (Check if you may need any files):
omll-3d
.......\build
.......\.....\OMLL
.......\.....\....\CBLAS
.......\.....\....\.....\CBLAS.dsp
.......\.....\....\.....\CBLAS.plg
.......\.....\....\.....\Debug
.......\.....\....\.....\Release
.......\.....\....\CLAPACK
.......\.....\....\.......\CLAPACK.dsp
.......\.....\....\.......\CLAPACK.plg
.......\.....\....\.......\Debug
.......\.....\....\.......\Release
.......\.....\....\Debug
.......\.....\....\F2CLIBS
.......\.....\....\.......\Debug
.......\.....\....\.......\F2CLIBS.dsp
.......\.....\....\.......\F2CLIBS.plg
.......\.....\....\.......\Release
.......\.....\....\omll.dsp
.......\.....\....\omll.dsw
.......\.....\....\omll.ncb
.......\.....\....\omll.opt
.......\.....\....\omll.plg
.......\.....\....\Release
.......\data
.......\....\Kong1.in
.......\....\patch3D.in
.......\....\Plate_for_EFG1.in
.......\exe
.......\...\omll.exe
.......\include
.......\.......\Debug
.......\.......\define.hpp
.......\.......\DOCCLASS.exe
.......\.......\Domain
.......\.......\......\Array.hpp
.......\.......\......\Bound.hpp
.......\.......\......\Cell.hpp
.......\.......\......\Cell2D.hpp
.......\.......\......\desktop.ini
.......\.......\......\DirectionCosine.hpp
.......\.......\......\DispBound.hpp
.......\.......\......\Domain.hpp
.......\.......\......\EvPoint.hpp
.......\.......\......\ExactSolution.hpp
.......\.......\......\FFI.hpp
.......\.......\......\Folder Settings
.......\.......\......\...............\Folder.htt
.......\.......\......\Load.hpp
.......\.......\......\Material.hpp
.......\.......\......\Node.hpp
.......\.......\......\Point.hpp
.......\.......\......\Side.hpp
.......\.......\......\SideDisBound.hpp
.......\.......\......\SideTraction.hpp
.......\.......\......\Surface.hpp
.......\.......\......\Traction.hpp
.......\.......\......\TractionBound.hpp
.......\.......\LaFunction
.......\.......\..........\arch.h
.......\.......\..........\blas++.hpp
.......\.......\..........\blas1++.hpp
.......\.......\..........\blas1.hpp
.......\.......\..........\blas2++.hpp
.......\.......\..........\blas2.hpp
.......\.......\..........\blas3++.hpp
.......\.......\..........\blas3.hpp
.......\.......\..........\f2c.h
.......\.......\..........\GenFact.hpp
.......\.......\..........\laexcp.h
.......\.......\..........\LaFactSolv.hpp
.......\.......\..........\lapack++.hpp
.......\.......\..........\lapack.hpp
.......\.......\..........\lapackd.hpp
.......\.......\..........\LaSolv.hpp
.......\.......\..........\lautil.h
.......\.......\..........\SymmFact.hpp
.......\.......\matrix
.......\.......\......\ColVector.hpp
.......\.......\......\GenMatrix.hpp
.......\.......\......\laindex.hpp
.......\.......\......\LaIndex.txt
.......\.......\......\LowTriMatrix.hpp
.......\.......\......\MatMath.hpp
.......\.......\......\matrix.hpp
.......\.......\......\SimVector.hpp
.......\.......\......\SymmMatrix.hpp
.......\.......\......\UpperTriMatrix.hpp
.......\.......\......\Vector.hpp
.......\.......\Meshless
.......\.......\........\DirectCollocation.hpp
.......\.......\........\EFGM.hpp
.......\.......\........\gauss.hpp
.......\.......\........\GLS.hpp
.......\.......\........\LeastSquare.hpp
.......\.......\MLS
.......\.......\...\Approximation-1.hpp
.......\.......\...\Approximation.hpp
.......\.......\...\Clock.hpp
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