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Guide 6 Postprocessing and Graphics
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Contents
Preface
List of Figures
Part I: Numerical processing
2.1 Introduction
1 Mesh manipulation
1.1 Geometric transformations
1.2 Changing the finite element type
1.3 Changing the mesh structure
1.4 Inquiries and verification
1.4.1 Inquiries
1.4.2 Verification
2 Manipulation of solutions
2.1 Manual construction of a D.S. B
2.2 Symmetrization and "gluing together" of a D.S. B
2.2.1 Symmetrization
2.2.2 Gluing together
2.3 Manipulation of a D.S. B resulting from a transient problem
2.4 Changing the type of a D.S. B
2.5 Computation of interface and reaction forces
2.6 Computing the stresses (D.S. TAE)
2.7 Computing the flux and temperature (D.S. TAE)
2.8 Inquiring about D.S.
2.9 Extrema of a D.S. B
2.10 Norm and residues
2.10.1 Norm corresponding to D.S. B
2.10.2 Norm corresponding to D.S. TAE
2.10.3 Energy norm corresponding to D.S. B
2.10.4 Solution error for D.S. B
3 Manipulation of structures and miscellaneous
3.1 Structure COOR of nodes
3.2 Changing the type of a D.S. TAE
3.3 Formatting, de-formatting of an arbitrary D.S.
3.4 Creating a D.S. NOPO
3.5 Changing the type of a D.S. MUA
3.6 Changing the type of a D.S. AMAT
3.7 Eigenvalues and eigenvectors of a D.S. VVPR
3.8 Miscellaneous
Part II: Graphics
Quick guide
1 General structure
2 Visualization of meshes
3.1 Introduction
2.2 Two-dimensional meshes TRNOXX
2.2.1 Aim and utilization limits
2.2.2 Utilization of TRNOXX (2D)
2.2.3 Complete description of TRNOXX (2D)
2.3 Three-dimensional meshes TRNOXX
2.3.1 Aims and utilization limitations
2.3.2 Utilization of TRNOXX (3D)
2.3.3 Complete description of TRNOXX (3D)
2.4 Three-dimensional meshes REFEXX
2.4.1 Aim and utilization limits
2.4.2 Utilization of REFEXX
2.4.3 Complete description of REFEXX
2.4.4 Keyword-Action correspondence
2.4.5 Plot descriptions
3 Visualization of solutions
4.1 Introduction
3.2 Two-dimensional solutions TRMCXX
3.2.1 Aim and utilization limits
3.2.2 Utilization of TRMCXX
3.2.3 Complete description of TRMCXX
3.2.4 P1 interpolation of solutions
3.3 Two-dimensional stresses TRSTXX
3.3.1 Aim and utilization limits
3.3.2 Utilization of TRSTXX
3.3.3 Complete description of TRSTXX
3.4 Three-dimensional solutions TRC3XX
3.4.1 Aim and utilization limits
3.4.2 Utilization of TRC3XX
3.4.3 Complete description of TRC3XX
3.4.4 P1 interpolation of the solutions
4 Visualization of curves
5.1 Introduction
4.2 Utilization of TRACXX
4.3 Complete description of TRACXX
5 Visualization of surfaces
1.1 Introduction
5.2 Aim and utilization limits
5.3 Utilization of VIS3XX
5.4 Complete description of the module
5.4.1 The different input data possible
5.4.2 Main commands
5.4.3 General display characteristics
5.4.4 Axes
6 Diverse visualizations
6.1 Introduction and quick guide
6.2 Utilization
6.3 Matrix profiles TRPRXX
6.4 Characteristic points and lines TRPOXX
6.5 Diverse
6.5.1 Isovalues on a cut through a 3D mesh
6.5.2 Piezometry
6.5.3 Eigenvalues and eigenvectors
7 Implementation notes
7.1 Trees
7.2 Commons
7.3 Diverse
Part III: Fortran 3D
1 General introduction
Introduction
1.2 Description of objects
1.3 Visualization of objects
1.4 Displaying the image and managing the screen
1.5 Input management
2 General tools
2.1 Defining the output terminal
2.2 Screen management
2.3 Association of names with elementary components
2.4 Writing directly on the visualization surface
3 Creating a 2D image
3.1 Masks and windows
3.2 Graphics instructions: 2D
4 Creating a 3D image
4.1 General program structure
4.2 Masks and windows
4.3 3D transformations
4.4 The transformations
4.5 3D graphics instructions
4.6 Texts
5 Graphics
5.1 Color
5.2 Stereoscopy
6 Input management
6.1 Definition of the terminal and input surface
6.2 Interaction subroutines
6.3 Entering a position in the 3D space
7 Internal programs
7.1 Interrogation subroutines
7.2 Position and clipping
7.3 Particular displays
7.4 Basic manipulations
7.5 Conversions
7.6 Matrix and vector manipulations
7.7 Sorting and dichotomy
7.8 Implementation aids
7.9 Unclassed
8 Adapting a new terminal
8.1 Adapting a new input terminal
8.2 Adapting a new output terminal
8.3 List of devices available
9 Examples
9.1 Creating 2D geometric figures
9.2 Creating 3D geometric figures
References
Next:
List of Figures
Up:
Guide 6 Postprocessing and Graphics
Prev:
Preface