Petrophysics Software

Understandingf near-wellbore rock properties to enhance characterization and optimize drilling and completion strategies

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From geologists working to understand rock properties in the reservoir to petrophysicists conducting multiwell, multizone petrophysical field analyses, we have a long history of providing leading science for evaluating physical rock properties. These workflows form a critical component during reservoir characterization, with our software and services enabling you to extract the maximum value from your investments in log and core data.

Log Interpretation
Interactive Log Interpretation
Basic-to-advanced interactive log interpretation.
Multimineralogical Analysis
Multicomponent inversion model incorporating ELANPlus advanced multimineral log analysis, tying the benefit of tried-and-tested algorithms to a modern intuitive interface.
Nuclear Magnetic Resonance
Understanding pore networks and fluid distributions through the NMR-based computation of porosity, binned porosity, permeabilities, water, and hydrocarbon volumes.
3D Petrophysics
Efficient extraction of the full value from acquired measurements to make trusted interpretations in high-angle and horizontal (HAHz) wells.
Thin-Bed Analysis
Resolution of highly laminated formations using the deterministic Thomas-Stieber or the LowRep (probabilistic Thomas-Stieber) method.
Well Correlation
Display, organization, and interpretation of well data in a flexible 2D environment, with backdrop of seismic and other data.
Core Interpretation
Partitioning of core data into reservoir rock types or petrophysical groups with similar storage or transmissivity characteristics.
Fluid & Pressure Analysis
Pressure Analysis
Graphical tools to enable easy quality control of raw pressure versus time data in generating a single dataset in the pretest interpretation phase for the analysis of formation pressure data.
Saturation Height Modeling
Integration of core and log data into saturation height models that enable capillary pressure modeling in cores to create functions for log data.
Rock Typing
Thin-Bed Analysis
Resolution of highly laminated formations using the deterministic Thomas-Stieber or the LowRep (probabilistic Thomas-Stieber) method.
Rock Classification
Prediction and propagation of rock classification groups using a 2D indexed and probabilized self-organizing map to support the geological interpretation of log data and facies prediction.
Borehole Image Interpretation
Wellbore Imaging
Sophisticated image analysis that brings together geological and petrophysical data for reservoir characterization.
Fracture Modeling
Hybrid network models with explicit and implicit fractures supporting the distribution and upscaling of fracture properties, including Oda and flow-based methods for permeability.
Property Propagation
Petrophysical Modeling
Stochastic and deterministic algorithms for distributing continuous petrophysical properties such as porosity and permeability.
1D Mechanical Earth Model Construction
Pore Pressure Prediction
Improved safety through the visualization of geomechanical outputs and the computation of safe mud-weight windows.
Seismic Pore Pressure Modeling
Multiwell pore pressure prediction model with spatially variant parameters that can be applied to predict regional pore pressure.