Petrel seismic pore pressure modeling
Multiwell pore pressure prediction model
A responsive and flexible environment for 3D and 2D interpretation
Petrel™ seismic interpretation enables basin-, prospect-, and field-scale 2D and 3D seismic interpretation and mapping. Users can work with thousands of 2D lines, thousands of kilometers, and multiple 3D vintages and surveys—across multiple coordinate systems with very high visualization performance (GPU based).
NExT offers a comprehensive training program to support users of the SLB software, plugins, and other software products.
Advanced train estimation tools and trend modeling. View
Accurate velocity modeling and domain conversion View
Integrate Omega platform data and extend workflows for a unified, reliable earth model View
Integrated processing and modeling capabilities for magnetotelluric, controlled-source electromagnetic, and gravity and magnetic methodologies View
Create advanced seismic attributes to condition seismic data for better structural and stratigraphic interpretation tasks as well as enable powerful 3D volume interpretation workflows. View
Prestack seismic visualization, interpretation, and processing View
Accurate and comprehensive quantitative interpretation View
Modeling and inversion tools for advanced, efficient reservoir characterization View
Spectral analysis, filtering, bandwidth extension, and amplitude gain for faster QC and image enhancement in the Petrel platform View
A responsive and flexible environment for 3D and 2D interpretation View
Resample seismic volumes and geobodies as properties into 3D grids View
Seismic survey design and analysis View
A fast, intuitive, and accurate approach to volume interpretation View
Comprehensive and robust seismic well tie View
Analysis of fault sealing capabilities and mapping QC tools View
Fast, accurate structural interpretation workflow that reduces interpretation uncertainty and delivers a confident, validated structural framework of the subsurface View
Display scanned maps, attribute maps, seismic time slices, and satellite images, draped over surfaces View