For over a decade, bridging the gap between scientific theory and real-world field usability.
We develop tailored solutions and plug-ins integrated with Petrel® to solve complex geoscience operational challenges. We guarantee full confidentiality of the client's intellectual property, delivering robust tools that optimize team productivity and evolve with your asset.
We act as a strategic execution partner to transform R&D resources (ANP) into practical, applicable software. We connect your operating company to research institutions to ensure academic rigor becomes functional technology for your team — delivering results far beyond reports and publications.
We commercialize ready-to-use scientific software licenses, including COHIBA Petrel and Flow2Seis. Our tools resolve complex bottlenecks from seismic to simulation, turning advanced methods into user-friendly interfaces that guarantee maximum operational efficiency and technical precision.
Since 2010, we have been operating in national and international markets, transforming complex scientific challenges into robust software solutions. We combine computer science, cutting-edge engineering, and deep knowledge of the Oil & Gas industry to deliver fast, scalable, and precise systems — ensuring operational efficiency for the world's largest operators.
Practical examples of our work at the intersection of academic research, software development, and the Oil & Gas industry.
Development and ongoing evolution of software solutions designed to support reservoir engineering teams across the company's key assets, with continuous integration into internal technical workflows.
Plug-in that integrates the COHIBA software into the Petrel environment, enabling users to create, configure, and run models directly from project data. Supports time-to-depth conversion and surface modeling workflows, with results loaded natively within Petrel.
Plug-in for Petrel that automatically connects reservoir models to 4D seismic data, generating synthetic seismic images from multiple simulated models. Integrates petroelastic modeling, seismic modeling, and quantitative comparison between synthetic and observed seismic data — supporting dynamic reservoir monitoring.
If you have a specific challenge in geophysics, geology, or reservoir engineering, our team is available to discuss possible approaches and evaluate development scenarios.