- Size:2 CD
- Language:english
- Platform:WIN32&WIN64
- Freshtime:2011-06-17
- Search:OpendTect v4.2 DOWNLOAD OpendTect v4.2 CRACK OpendTect v4.2 TUTORIAL
Description
OpendTect is the first seismic interpretation system to support Wacom digitizing tablets. Workflows for horizon tracking, fault interpretation, drawing of polygons & bodies etc. have been adapted to benefit from the superior hand-eye co-ordination offered by the pen device.
Watch Improved seismic processing with Wacom interactive pen displays on YouTube.
Crossplots, PDF and Bayesian inversion
The cross-plot tool has been enhanced considerably. It now supports colour-coding of wells & attributes and generation of Probability Density Functions (PDFs) and Bayesian inversion work flows.
fault-handling
Other highlights
* Low frequency model building using HorizonCube data
* Improved Stratigraphic Model building
* Multimachine batch processing on Windows
* Gridding using GMT algorithms
* Improved 2D Viewer (e.g. added tree, horizon/fault tracking)
* Export of cultural data to GoogleEarth: wells, survey area, 2D lines, random lines, polygons
* Directional lighting
* Interactive fault construction from faultsticksets
* Translation of gui text using Google-translate
* New toolbar icons
New in the Closed Source part
horizoncube-icon2
HorizonCube
Game-changing new plugin that auto-tracks a dense set of horizons (e.g. a horizon every 4ms). The HorizonCube impacts all aspects of seismic interpretation work and allows the interpreter to extract more geology from the data. The HorizonCube is used for: detailed geologic model building, improving seismic inversion, sequence stratigraphic interpretation (SSIS) and correlating wells (new Well Correlation Panel).
wcp-icon
Well Correlation Panel
New plugin to pick well log markers and correlate wells along (random) seismic tracks. In combination with the HorizonCube the Well Correlation Panel supports a HorizonCube slider for detailed seismic-steered correlations.
Common Contour Binning
CCB stacks can now be displayed flattened and un-flattened. In the latter mode hydrocarbon contacts are flat and therefore easier to interpret. Furthermore a new mode called "local CCB" is introduced. Data in this mode is stacked along contour lines within a user-defined radius. The technique enhances hydrocarbon effects whilst preserving local differences and is used to enhance subtle 4D effects in time-lapse studies.