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| Overview |
Benefits |
Features |
Science |
Modules |
FAQ |
Requirements |
AVO is the leading seismic amplitude analysis technology for direct hydrocarbon detection. The AVO workflow requires expertise in many disciplines, as well as the integration of different types of data (seismic, petrophysical, interpretation, etc.). the advanced Paradigm™ Probe® AVO analysis and interpretation application is the only system that offers the level of integration, qualification and analysis needed to confidently use seismic amplitudes to identify quality prospects and characterize reservoir properties. This makes it the ideal solution for both interpreters and experts in AVO analysis and reservoir characterization.
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The interactive Probe environment combines data, knowledge and technology, including amplitude preserving preprocessing, multi-well/multi-attribute seismic-to-well calibration, AVO inversion, elastic modeling, petrophysics and 3D interpretation, in one comprehensive system. Probe supports both conventional AVO and multi-azimuth, anisotropic AVAZ workflows.
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| System Requirements Processing |
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- 64-bit, for x64 architecture processors
- Red Hat® Enterprise Linux® 5.3 and above, 6.0 and above
Interoperability Options
All Epos®-based applications enable interoperability with third-party data stores, including:
- OpenWorks® 2003.12
- OpenWorks R5000
- GeoFrame® 4.5
- OpenSpirit® 3.2.3
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Real time access to pre-stack data, AVO synthetics, AVO attribute volumes and 3D geobodies in a highly interactive setting
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Interactive visualization and analysis of AVO data: Multi-attribute visualization, 3D gather selection, multi-gather and synthetic gather display, AVO curve display
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Angle or offset gather input
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On-the-fly gather generation from angle stacks
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On-the-fly AVO preprocessing, including amplitude balancing, wavelet equalization, wavelet unstretching, gather flattening, AVO calibration with wells, and unique, automatic 2nd and 4th order residual moveout corrections, in both time and depth
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Advanced QC feasibility analysis tools, enabling a thorough investigation into the effects of acquisition geometry, structure and pre-processing on AVO analysis
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Broad suite of AVO inversion algorithms
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Full functionality in both time and depth domains, including well log calibration
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Powerful AVO crossplot tool, specially designed for analysis and calibration of AVO attributes, maps and synthetics
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Intuitive, easy-to-use log window
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Direct links to interpretation and well log data stores
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Advanced synthetics utility for calibrating multiple wells with seismic data, for extracting wavelets, and for rock physics modeling
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Unique 3D model-based AVO modeling away from the well bore
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Complete workflow for multi-azimuth AVO analysis for anisotropy and fracture detection
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Prospect AVO evaluation productivity is enhanced through AVO inversion, interpretation, visualization and modeling, with no workflow interruptions.
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Direct access to AVO gathers with interactive correction capabilities results in fast, detailed understanding of the AVO data.
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3D viewing of AVO geobodies through dynamic links between Probe crossplot and VoxelGeo provides immediate, holistic understanding of 3D AVO fluid anomalies in the reservoir.
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A high level of interactivity compresses time to decision and improves prediction accuracy.
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