Screen anomalies with RMS amplitude

For a faster way of screening anomalies to confidently interpret your geology, GeoTeric incorporates RMS amplitude calculations in the iso-proportional slicing tool and also allows the creation of a volumetric RMS cube using processes and workflows.  Learn more and follow our step by step guide to c...

Using Interactive Fault Slicing to visua...

GeoTeric's Adaptive Fault workflow has been developed to produce rapid and accurate fault interpreta...

Support & Error Reporting

Do you know how to report support queries to GeoTeric?  If a User has a question about GeoTeric, it ...

A Differential Approach to Revealing Thi...

As part of GeoTeric's Cognitive Interpretation workflow, Spectral Enhancement is an important Data C...

Colour Blends and Iso-Proportional Slici...

GeoTeric's Iso-Proportional Slicing tool allows the interpreter to create iso-slices between horizon...

Using the Parser to Generate Geobodies B...

In order to get a more accurate understanding of reservoir extents, attributes can be segmented base...

New in GeoTeric 2017.2.1 - Data Followin...

The GeoTeric 2017.2.1 release now contains data following Adaptive Fault Surfaces.

Get the latest release: GeoTeric 2017.2....

Adaptive Fault Interpretation with Data following fault surfaces

Polygon Interpretation in GeoTeric

Polygons are some of the essential products of seismic interpretation. For the mapping of features a...

GeoTeric 2017.2 – Floating Point Data

The GeoTeric 2017.2 release not only included the release of the Adaptive Faults as part of our Adap...

GeoTeric’s Adaptive Fault Interpretation

GeoTeric’s Adaptive Fault Interpretation provides a fast and accurate interpretation system which im...

GeoTeric 2017.2 – Adaptive Fault Interpr...

GeoTeric 2017.2 continues to expand on our Adaptive Interpretation system by introducing Adaptive Fa...

Using Interactive Fault Slicing to visualise Seismic Attributes on a Fault Surface

Posted by Jacob Smith on 21 Dec 2017

GeoTeric's Adaptive Fault workflow has been developed to produce rapid and accurate fault interpretations. This workflow makes use of GeoTeric's Noise Expression to produce the cleanest possible input data, Fault Expression to capture all fault information in one blend, and Adaptive Faults to provide the most intuitive fault interpretation experience. One tool that can add extra value at the end of this workflow is the Interactive Fault Slicing, which allows rapid comparison of responses across a fault plane.

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Topics: Blog, Adaptive Faults, Fault Slicing, Interactive Fault Slicing

Support & Error Reporting

Posted by Hugo Garcia on 07 Dec 2017

Do you know how to report support queries to GeoTeric?  If a User has a question about GeoTeric, it is important that these questions are reported to GeoTeric Support for accurate response. The best way to contact GeoTeric Support is to submit an email to Support@GeoTeric.com copy in your local GeoTeric Geoscientist too. When contacting GeoTeric Support directly there is certain information that is of great value when logging a support query:

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Topics: Help, Support Info, Error Reporting, Blog

A Differential Approach to Revealing Thin Beds

Posted by Abdul Cader on 30 Nov 2017
As part of GeoTeric's Cognitive Interpretation workflow, Spectral Enhancement is an important Data Conditioning stage allowing the user to get the most out of post stack seismic data prior to the Reveal stage, especially when it comes to investigating thin beds. A variety of methods can be used to enhance the vertical resolution of seismic data using GeoTeric. This blog post will highlight one of the less commonly used methods discussed in McArdle and Paton (2014).
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Topics: Thin Beds, Spectral Enhancement, Vertical Resolution, Blog

Colour Blends and Iso-Proportional Slicing Attributes

Posted by Peter Szafian on 23 Nov 2017

GeoTeric's Iso-Proportional Slicing tool allows the interpreter to create iso-slices between horizons in a proportional or conformant manner to quickly gain a better understanding of the geology. Either volumes or colour blends can be used for input. A set of attributes are calculated within the slices and displayed as maps of the horizons. When we talk about reflection seismic data, most users can explain these attribute, such as e.g. Maximum +ve (Positive) Amplitude and RMS Energy. However, we frequently get the question: How are these attributes calculated in a colour blend and what do they mean?

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Topics: Colour Blending, IPS, Iso-Proportional Slicing, Blog

Using the Parser to Generate Geobodies Based on Multi-attribute Thresholds

Posted by Hugo Garcia on 16 Nov 2017

In order to get a more accurate understanding of reservoir extents, attributes can be segmented based on petrophysical cutoffs, and geobodies can be created from segmented volumes using the Parser tool.

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Topics: Parser, GeoTeric 2017.2, Adaptive Geobodies, Prospect Screening, Blog

New in GeoTeric 2017.2.1 - Data Following Surfaces

Posted by Chris Han on 09 Nov 2017

The GeoTeric 2017.2.1 release now contains data following Adaptive Fault Surfaces.

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Topics: GeoTeric, Fault Interpretation, Adaptive Faults, Structural Interpretation, Data Following Surfaces, Blog

Get the latest release: GeoTeric 2017.2.1

Posted by Julia Frick on 03 Nov 2017

Adaptive Fault Interpretation with Data following fault surfaces

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Topics: Blog, Adaptive Faults, Data Following Surfaces, Release Notes

Polygon Interpretation in GeoTeric

Posted by Rachael Moore on 26 Oct 2017

Polygons are some of the essential products of seismic interpretation. For the mapping of features and estimation of areal extents, GeoTeric provides polygon interpretation tools that allow these to be captured from the rich geological information revealed from the seismic data.

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Topics: Polygon,, Seismic Interpretation, GeoTeric, GeoTeric 2017.2, Boundary, Blog

GeoTeric 2017.2 – Floating Point Data

Posted by Ryan Williams on 19 Oct 2017

The GeoTeric 2017.2 release not only included the release of the Adaptive Faults as part of our Adaptive Interpretation System, but also the ability to load and visualise data in floating point.  The ability to load geophysical volumes such as Vp/Vs and Acoustic Impedance volumes with their original values allows interpreters to extend their subsurface analysis capabilities in GeoTeric.  

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Topics: Blog, Floating Points, Adaptive Faults

GeoTeric’s Adaptive Fault Interpretation

Posted by Ryan Williams on 12 Oct 2017

GeoTeric’s Adaptive Fault Interpretation provides a fast and accurate interpretation system which improves the efficiency of your fault interpretation.

The Adaptive Faults are data following fault sticks, which snap to discontinuities in reflectivity data, attributes or CMY Blends.  With just 2 clicks of the mouse you can have an accurate fault stick.   The Graph Theory looks at how similar the attribute, or break in the seismic data is from the background and determines the best route from first click to where the cursor is located. 

To start interpreting the faults, click on the Interpret module (figure 1) or right click in the 3D scene and select Adaptive Faults.  Either option will bring up the main Interpretation menu in the 3D scene.

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Topics: Blog, Adaptive Faults

GeoTeric 2017.2 – Adaptive Fault Interpretation

Posted by Julia Frick on 02 Oct 2017

GeoTeric 2017.2 continues to expand on our Adaptive Interpretation system by introducing Adaptive Fault Interpretation.

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Topics: Blog, Adaptive Faults, Release Notes