Geomodeling Releases AttributeStudio 9 (with all modules)

1) A true integrated software system for seismic and well data interpretation and integration.

2) Easy to use. The system is designed by geoscientists for geoscientists. All industrial standard data formats are supported in data I/O.

3) Comprehensive: including both basic interpretation workflows and advanced modules to predict reservoir properties via latest machine learing algorithms.

4) Latest innovations. Frequent updates including the latest innovation in seismic interpretation, visualization and machine learning.

5) Robust. AttributeStudio is built on a solid software architecture that has been fine tuned for 20 years.

6) Affordable. You only need to license the modules that are required in your work. Corporporate team licenses are available at discount rate.

Geomodeling R2022a

Geomodeling R2022a is the latest release of an integrated geoscience software system for seismic and well data interpretation, geological modeling, and reservoir property prediction. All geoscience workflows are built inside an Integrated Visualization Environment (IVE) and share the same database. Within the same Geomodeling project, you complete the whole workflows of basic seismic and well log interpretation, reservoir characterization with advanced seismic attribute analysis, and geological modeling with property prediction with the latest machine learning algorithms. Geomodeling R2022a consists of 16 modules with flexible licenses.

AttributeStudio

AttributeStudio is an integrated software system for seismic and well data interpretation and reservoir characterization. Within the same AttributeStudio project, you can complete the whole workflows of basic seismic interpretation, integration with well data, and reservoir characterization with advanced seismic attribute analysis, powered by machine learning and deep learning algorithms.

The following is a list of workflows that can be carried out in one AttributeStudio project.

1. Well log data analysis and quality control
2. Geologic correlation and well logs and well top picking
3. Make maps for well tops and well top properties
4. Tie seismic and well data, with interactive synthetic seismic generation and batch processing.
5. 3-D image enhancement processing and filtering to seismic data before or after calculating seismic attributes.
6. Calculate single or multi-trace seismic attributes that enhance faults and stratigraphic interpretations.
7. Pick faults and horizons in 2-D and 3-D seismic surveys.
8. Extract seismic attributes to strata-grid, interval or horizon for visualization and quantitative attribute analysis.
9. Build 3-D velocity model and make time-depth conversion.
10. Predict missing logs with machine learning algorithms.
11. Calculate elastic modulus logs and elastic modulus volumes from Vp, Vs and density.
12. Predict reservoir properties from seismic attributes and upscaled well data after training with machine learning algorithms.
13. Classify seismic attributes into geologic facies with cross-plotting, supervised or un-supervised machine-learning algorithms.
14. Predict and map production potential in resource plays by integrating well production, drilling, completion, and near-well-bore seismic attributes.
15. Track and map geobodies from seismic facies or multiple seismic attributes.
16. Calculate oil and gas in place in reservoir geobodies.
17. Calculate 3-D and 4-D microseismic volumes to analyze hydraulic fracking process together with completion data.
18. Estimate SRV for per stage.
19. Build deep learning model between SRV and completion data to optimize the completion parameters.
20. Design new well trajectories in 3-D or seismic section windows
21. Predict microseismic event density maps or volumes for planned wells from deep learning models trained from existing microseismic data.
22. Print base maps, seismic sections, or make composite plots. 

You can carry out above workflows interactively in a user-friendly visualization environment that consists of 3-D, base map, and section windows. All interpretation and integration results from the machine-learning workflows can be visualized immediately in multiple windows for quality controls.

AttributeStudio supports industrial standard file formats of geotechnical data in data I/O.

ReservoirStudio

ReservoirStudio (RS) provides advanced geologic modeling capabilities for complex depositional environments. With its unique sedimentary process oriented modeling. It generates high resolution reservoir model with greater stratigraphic detail than conventional geocellular models. With built-in sedimentological rules, ReservoirStudio is able to produce realistic geologic models which are beyond the capability of conventional applications.

ReservoirStudio generates geologically accurate models for more realistic reservoir simulations and uncertainty estimates. It models the internal stratigraphic layering and lithofacies relationship observed in depositional environments such as accretionary channel infill, channel levee, turbidity channel and lobe complexes. By modeling stratigraphic features observed below the scale of seismic resolution, AttributeStudio incorporates the effect of small scale geological heterogeneity of fluid flow.

ReservoirStudio is designed to work with the conventional reservoir modeling workflow by adding more stratigraphic detail in the framework grids that are made from seismic and well data. It uses geological rules to model the details of channel infill, channel levee, channel lobe and background sediment as stratigraphic grids. Litho-objects such as mud, sand, and silt can be simulated within stratigraphic grids, along with their corresponding facies proportions. The resulting grid and property models are more realistic, enabling improved accuracy in reservoir performance prediction. By including barriers to fluid flow such as boundary layer mud and channel abandonment facies in the range of possible scenarios, ReservoirStudio becomes an important addition to risk assessment workflow.

SBED

SBED is a unique software solution to bridge the gaps between core data and full-field reservoir models. With SBED derived Kv/Kh, Kx, Ky, Kz and relative permeabilities, you get more accurate permeability models beyond the conventional workflow, making your reservoir simulation match production history faster and more accurate. ​

• SBED delivers effective directional permeability to condition any reservoir property models
• Models sub-well log scale geological details i.e., thin beds, mud drapes, bioturbation, breccia and quantifies their impact on fluid flow properties
• Ready with a versatile and accurate numerical solver to model single and two-phase fluid flow
• SBED results help improve reservoir simulation accuracy
• SBED operates in a cross-scale, shared earth modeling, interpretation, and visualization environment for geoscientists. Its components are:
  • data management
  • controls
  • interpretation and modeling tasks
  • visualization windows

InterpretationAI

InterpretationAI is a new generation of seismic interpretation software platform, powered by face-recognition-like artificial intelligence (AI) algorithms. With InterpretationAI, a seismic interpreter can complete the work in less than 10% the time required with the traditional seismic software. InterpretationAI provides an innovative yet familiar workflow solution to complete the seismic interpretation tasks:

1. Fault interpretation
2. Seismic sequence and horizon interpretation
3. Channel detection
4. Geobody and volcano detection
5. Seismic facies classification