A powerful 2D and 3D seismic interpretation system for rapid prospect generation.

GVERSE® Geophysics software is a fully integrated 2D and 3D seismic interpretation system that provides a full range of fit-for-purpose interpretation capabilities, attribute analysis and mapping tools. Whether exploring complex structural areas or looking for subtle stratigraphic traps, today's geoscientist can use the many tools of GVERSE Geophysics to solve these otherwise challenging problems.




GVERSE Geophysics - Advanced Auto Picking

GVERSE Geophysics - Extracting Geobodies from Seismic

GVERSE Geophysics - Channel Picking

GVERSE Geophysics - Interactive Synthetics in 3D

GVERSE Geophysics 2019.2

Interpreting Geobodies
  • Pick and save structures on seismic and attribute volumes as geobodies.
  • Interpolate picks or track seismic signatures automatically.
  • Drape data directly on the body or show intersections with seismic sections.
  • Use the Volumetrics calculator to compute the volume of your geobodies.
Setting Horizon Pick Attributes
  • Display confidence, pick order and pick type maps.
  • Edit horizons using pick attribute criteria.
  • Identify and eliminate potential bad picks using pick relationship displays.
  • Guide your picking by projecting horizon picks on to unpicked sections.
Tie Synthetic in 3D
  • Shift, stretch and squeeze synthetic traces using different controls within the 3D viewer.
  • Auto-calculate optimum time and phase shifts to maximize correlation between synthetic and seismic.
  • View changes to interval velocity due to modifications in synthetic.
Build Better Velocity Models
  • Switch to Depth mode in time interpretations and convert entire time scenes to depth on-the-fly.
  • Use improved algorithms to build more robust velocity models.
  • Determine depth values for the interval between two horizons by considering the velocities of current and preceding horizons.
  • Control how velocity pairs are used against each horizon
  • Incorporate fault polygons within the velocity grid of the selected horizon.
  • Option to set extrapolated or custom velocity below the last horizon while generating a velocity model.
  • View measured depth (MD) along wells in time scenes.
Enhanced Wells & Well Data Display
  • Extract seismic data along a wellbore and save it as a log curve using the context menu. These log curves can be used in various GeoGraphix applications.
  • Open an arbline along a deviated wellbore.
  • Send wells and well data directly from the main interface to the 3D module.
  • Open a well-to-well arbline in Map View.
  • Highlight specific wells on maps and 3D scenes using pre-defined filters.
  • Display multiple perfs within a completion zone.
  • Use PRIZM alias list for well log display along wells.
Improved Seismic Visualization
  • Load seismic volumes to RAM for faster data visualization.
  • Apply phase rotation and bandpass filters to vertical sections.
  • Compute and compare power spectrums for seismic.
  • Overlay wiggles on sections.
Enhanced Usability
  • Show contours on horizons in 3D View.
  • Clip the 3D scene to an area of interest (AOI).
  • More control on hiding and removing items from a scene.
  • Create and access Horizon and Fault lists from the Horizon/Fault Manager.
  • Calculate distance between points or along a path on the map or 3D scene.
  • The horizon and fault order defined in Horizon/Fault Managers is replicated in the respective Horizon/Fault nodes in Interpretation and Scene trees.
  • Flatten seismic data in a 3D scene with respect to a selected horizon.
  • Mark horizons on flattened seismic sections.
  • Display fault polygons on a horizon.
  • Processing applied to seismic traces on an open seismic section is also applied to the seismic trace display in SynView during synthetic creation and modification.
  • Control interpolation of color display between individual seismic traces.
  • Improvements in the Interpretation Browser to make transfer of data between interpretations even easier.
  • Quicker access to Data Managers as well as Fault and Geobody segments dialogs.
  • Focus on an object in 3D view by double-clicking the associated entry.
  • Maximize your investment with full integration between our geological, geophysical and mapping tools.
  • Make quick, accurate structural or stratigraphic interpretations with an extensive toolset for horizon, fault and geobody interpretation.
  • Work with large seismic files and hundreds of thousands of wells without compromising performance even on off-the-shelf hardware.
  • Perform your everyday synthetic modeling using a built-in editor without a separate license.
  • Gain deeper insights into subsurface structures and data in our specialized 2D & 3D viewers.
  • Experience fast, reliable depth conversion and velocity modeling with real-time updates for well plans.
  • Obtain a better understanding of your seismic data with on-the-fly attribute computation.
  • Leverage a simple, intuitive UI to focus solely on making decisions that matter.

Full Integration with GeoGraphix
Share data between all our geophysical, geological and mapping tools using the tight integration within the GeoGraphix suite for a more efficient asset team. Make faster and more informed decisions - qualities essential to today's fast-paced E&P environment.

Effortless Data Management
Perform rapid interpretation in large 2D, 3D or combination projects with our 64-bit architecture. Manage all your seismic surveys easily with multiple data versions for each survey. Quickly convert SEG-Y data to our proprietary brick format for optimized data access using versatile SEG-Y readers built to handle most commonly encountered scenarios. Easily balance 2D, 3D and 2D-3D datasets including automatic calculation of phase, gain & time relationships.

Integrated Synthetic Modeling
Create or edit synthetic seismograms using simplified workflows in a dedicated synthetic view. Display seismic, horizons and formation tops and tie synthetic traces using shift, stretch and squeeze in the dedicated view or directly in 3D. Calculate optimum time and phase shifts to maximize correlation between synthetic and seismic. Save synthetics and time-depth tables directly in WellBase. Synthetic modeling in GVERSE Geophysics has no separate license requirement.

Blazing Fast 3D Visualization
Built on an engine designed for seismic and related data, it's never been easier to view your seismic, horizons, faults, wells and wellbore data and much more in the 3D space. Work with very large seismic files without compromising performance using our groundbreaking LOD format. Use advanced visualization techniques like voxel rendering, co-blending, selective transparencies and more to visualize subsurface structures like never before and gain deeper insights into your data to make better decisions for your play.

Extensive Horizon Interpretation
Access multiple manual and automatic picking modes to quickly mark seed picks and track horizon surfaces across multiple 2D and 3D surveys. Utilize extensive validation options and QC features like confidence, pick order, pick type and pick relationship displays for faster QC and more accurate picking. Interpret in thrust-faulted areas with multi-z horizon picking (2D seismic only). Access a full set of horizon operations including copying, snapping, smoothing, merging and dip and azimuth calculations.

Accurate Fault Interpretation
Mark and edit fault segments on vertical or horizontal seismic displays or directly in the 3D view. Interpolate the fault surface automatically with fault triangulation algorithms that deliver accurate and reliable results. Assign, unassign or reassign fault segments individually or in bulk directly from seismic sections or 3D view. Use the correlation window to assist fault picking in difficult areas or noisy data. Calculate fault heaves automatically with fault polygons.

Comprehensive Geobody Interpretation
Pick structures on seismic and attributes volumes and save them as geobodies. Interpolate seed picks or track signatures automatically to extract geobodies from seismic data. Drape data directly on your geobodies, show intersections with seismic sections, calculate volumetrics and a lot more to better understand your reservoirs and subsurface structures.

Robust, Reliable Depth Conversion
Experience fast and reliable depth conversion algorithms with an extensive set of options. Use four types of velocity models including the ability to set an external seismic volume as a model. Create surfaces with the unique three component horizons using a comprehensive set of horizon conversion options. Keep your seismic backdrops in GVERSE Geomodeling up-to-date by incorporating changes to formation picks in real-time with dynamic depth conversion. Switch to Depth Mode in time interpretations and convert time scene to depth, on-the-fly. QC your velocity data with a variety of velocity QC tools and visualize data from velocity models on seismic sections. Full integration between our geophysics and geology tools lets you utilize all available data when making key decisions for exploration or field development.

Extensive Indigenous Mapping Capability
Fulfill most of your mapping needs with the built-in mapping framework. Create multiple base maps with a unique set of display parameters and color palettes. Grid and contour your maps and surfaces and display contour or color density maps for time, velocity, depth or seismic attribute surfaces. Access the full set of gridding operations when mapping data with geophysical and geological integration. Measure planimeter and linear distance on map and 3D views.

Simple Attribute and Surface Calculations
Compute surface attributes with the Attribute and Surface Calculator which comprises multiple attribute options in an easy to use interface. Calculate attributes within a time window, between horizons or about a selected horizon using the flexible windowing options or do horizon-to-horizon or surface-to-surface calculations for 2D or 3D horizon surfaces. Extract seismic data at well locations and save as a log curve in the active curve set.

Ease of Use & True Mobility
Leverage the latest in technology to minimize your learning curve and focus on what's important. Enhance productivity with many usability features like multi-screen support, dockable windows, a sleek ribbon-based interface, saving and sharing work as sessions and much more. Work in remote, desktop, mobile or remote environments and accommodate large regional projects while reducing need for IT support.

The following sections list the system requirements for the GVERSE Geophyscs.

Operating System

To run the application, you need one of the following operating systems installed on your system:

  • Windows® 7 Professional x64
  • Windows® 10 Professional x64
  • Windows® 7 Enterprise x64
  • Windows® 10 Enterprise x64
  • Windows® 7 Ultimate x64
Note - It is recommended to use the latest Microsoft® service packs and security patches. Geophysics specifically requires Windows platform update KB2670838 installed on the machine, in case the operating system is Windows 7.

Hardware

(Minimum)

  • 2.4 GHz 64-bit processor
  • 8 GB RAM
  • Any DirectX 11.1 capable card comparable with Nvidia® GeForce GTX 430 with 1GB VRAM. DirectX is not shipped with GeoGraphix 2019.1.
    You must download and install it separately.
  • 1366 x 768 screen resolution

(Recommended)

  • Quad 3.2 GHz 64-bit processor
  • 32 GB RAM
  • Any DirectX 11.1 capable card comparable with Nvidia®GeForce GTX 1060 with 6GB VRAM. DirectX is not shipped with GeoGraphix 2019.1.
    You must download and install it separately.
  • Solid state hard disk (SSD)
  • 1920 x 1080 screen resolution

Licenses

The following licenses are required to run the software:

  • GeoGraphix license version 2019.2
  • GVERSE® Geophysics license version 2019.2