The THESEUS-FE® GUI at a Glance

THESEUS-FE GUI at a glance

General

Pre-processing

Post-processing

General

  1. State-of-the-art, user friendly, intuitive, clearly arranged and functional Graphical User Interface (GUI), see Fig. 1
  2. Written entirely in portable C++ using OpenGL, HDF, QT and Open Cascade technology
  3. Balloon help, shortcuts and functional keys, dynamic pop-up menus, 3-wheel mouse support, see Fig. 2
  4. Floating/dockable property dialogs, user customisable and individual settings
  5. Two face coloured shell elements for pre- and post-processing
  6. Windows look and feel on all platforms
  7. Available for Windows & Linux (32/64-Bit), see Fig. 3
  8. Easy data sharing by single-file data storage
  9. Integrated Python console for automation, see Fig. 4
  10. Seamless integrated link to Flowmaster2 and TISC
  11. Model size limitation only by available system resources
  12. Full solver control within the GUI including all solver parameters and mesh quality control
  13. Message window and status line to keep your actions transparent and check your input on plausibility
The surface

Fig. 1: The surface

GUI on Linux

Fig. 3: GUI on Linux

The graphics toolbar

Fig. 5: The graphics toolbar

The colors

Fig. 7: The colors

The table tool

Fig. 9: The table tool

Menu

Fig. 11: Menu

The utilities

Fig. 13: The utilities

2D-post-processor

Fig. 15: 2D-post-processor

The handling

Fig. 2: The handling

Python console

Fig. 4: Python console

The presentation mode

Fig. 6: The presentation mode

Toolbar with icons

Fig. 8: Toolbar with icons

The material database

Fig. 10: The material database

Add keyword line

Fig. 12: Add keyword line

3D-post-processor

Fig. 14: 3D-post-processor

Pre-processing

  1. NASTRAN mesh import filter with unit scaling feature
  2. ANSA colour and name comment import filter
  3. Multiple viewports with or without fully synchronisation and view memorize/restore buttons, see Fig. 5
  4. Wireframe, shaded, wireless, transparent and face orientation display and presentation modes, see Fig. 6
  5. Rubber-band or individual part, element, solid boundary and nodal selection modes
  6. Individual settings for each part, full 16 million colour RGB-space support, see Fig. 7
  7. Customisable toolbar icons, dynamic coloured data tree icons, see Fig. 8
  8. PNG, JPG, BMP and PS/EPS export filter
  9. Integrated table tool with dynamic row-and-column sizing as well as paste-and-copy functionality (e.g. to Excel), see Fig. 9
  10. Fully customisable "Excel-like" diagram plotting of your tabled data with two secondary axes possible
  11. Huge default automotive material data base, which can be easily extended to individual needs, see Fig. 10
  12. Unlimited amount of material layers for each composite material
  13. Default winter / summer clothing ensembles for local and global manikin models
  14. Im-/export of material and group boundary data bases, see Fig. 11
  15. Quick geometry exchange by destroy and replacement method
  16. Easy element grouping by join and subtract buttons
  17. Add keyword line tool offering full flexibility to adapt extreme load cases to individual needs, see Fig. 12
  18. Find entity tool

Post-processing

  1. Direct HDF import with dynamic result browser, see Fig. 13
  2. PNG, JPG, BMP and PS/EPS export filter
  3. Elemental, nodal and averaged part result display (with results on both shell faces simultaneously), see Fig. 14
  4. Multi result 2D diagram plotting with individual diagram settings and mouse-wheel zooming
  5. Transient result plotting and probe values of individual elements and nodes as well as history plots
  6. HDF Translator to many commercial post-processors (like EnSight, Fieldview, Tecplot, PATRAN)
  7. Colour legend range scaling and min/max location display
  8. View factor patch and result visualisation