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Automate and accelerate fault interpretation

Fault extraction from seismic data that leverages advanced seismic attributes and machine learning workflows to provide fast and accurate data-driven interpretation results from regional to reservoir scale.

Accurate automated extractions

A proprietary fault extraction algorithm that automatically detects and interprets seismic discontinuities for high quality data-driven fault interpretation.

  • Overcome traditional limitations: Extract intersecting faults by innovative point-cloud extraction that distinguishes between nearby fault samples vertically and laterally.
  • Simplify complex faults: Transform multiple interconnected faults into two or more geological plausible fault planes, improving the accuracy and efficiency of the interpretation and modeling process.
  • Automate scenario analyses: Integrates with workflow orchestration tools for automating scenario analyses utilizing multiple input stacks in combination with varying parameter.
Fault extraction dashboard view of Assisted fault interpretation
Accurate automated extractions

Webinar

Optimize Seismic Interpretation with AI & Cloud Technologies

In this webinar, we first look at how traditional physics-based fault imaging algorithms have evolved, and how cloud technologies are accelerating those changes to deliver not only higher quality images but also insights into interpretation uncertainties. We also look at the limitations of these approaches & how experienced geoscientists can exceed automated approaches in areas such as noisy data.

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Accelerated interpretations

A data-driven approach hosted on cloud computing infrastructure, permits interpretation of geological faults from seismic faster than ever before.

  • Advanced fault attributes: Analyze seismic data and extract geologically meaningful fault information by leveraging advanced fault attributes including Likelihood and Machine Learning Probability via integration with Seismic Engine.
  • Scalability and fidelity: Execute automated fault interpretation workflows from small 3D surveys (GBs) to mega-merged 3D surveys (TBs) without reducing fidelity or subdividing the data.
  • Easy analysis: Interactive Data Viewer enables effective analysis of input seismic, amplitude histograms and the results including fault samples, planes, and segments.

Manage risk and uncertainty

Helps to enhance decision-making by focusing Workflow automation leaves more time on to testing different scenarios for uncertainty analysis, improving the subsurface model and optimizing well placement.

  • Manage uncertainties: Analyze multiple scenarios and various processing methods efficiently to evaluate the uncertainty associated with the fault interpretation process.
  • Minimize drilling risks: Gain a thorough understanding of thesubsurface faulting in the subsurface for to inform selecting safe well locations placement or and evaluating how fault-related uncertainty might impact reserves.
  • Diverse data compatibility: Experience enhanced integration with OSDU™ data platform with the ability to support seismic data in OpenVDS™ format.
3D & 2D Visualization dashboard view of Assisted fault interpretation
3D & 2D Visualization

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Seismic Engine

Seismic Engine

Enables you to link and run advanced geophysical algorithms and post-stack attributes on Terabytes of 3D seismic data.

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