An easy way to access our universe of Geoscience and Engineering applications.
Explore GVERSE E-STORE and discover productivity driven geoscience and engineering applications.
Launch E-Store
The multi-paned viewing environment, unmatched by any software in the industry, along with streamlined workflows and high resolution 3D seismic attributes help boost performance. The value of seismic data for seamless interpretation is maximized by fast, on the fly real time visualization of seismic.
Seamlessly integrate well, seismic and maps to increase efficiency in an integrated interpretation environment with GVERSE™ Connect. Leveraging strengths of two leading E&P Technologies, GVERSE™ Connect enables fast database to database exchange for efficient and optimized reservoir characterization.
GVERSE Planner allows multiple well planning to easily visualize geologic surfaces, quickly create surveys and geoprognosis reports, and just as easily make changes to existing well plans. It provides geologists with the capabilities needed to accurately design proposed wells and rapidly make well...
The only web browser based geosteering application in the industry that delivers optimal well placement with simple data loading and full integration with GeoGraphix. GVERSE WebSteering is a complementary* tool for GeoGraphix users who can sync their interpretations on-the-fly with their GeoGraphix.
GVERSE™ Predict3D is a multi-attribute inversion solution, based on spectral decomposition and state-of-the-art optimization techniques, to predict rock properties away from wells using well logs and seismic data. This enables you to understand the reservoir effectively and reduces risks associated.
A simulation technology that identifies geomechanical sweetspots for fracing and refracing. It uses structural fault attribute maps enabling users to increase the percentage of frac stages that will effectively contribute to production. Using new computational methods, it models the impact of faults and natural fractures as they interact with the regional stress to quickly create a map of local stress changes across a reservoir.
Comming Soon
This unique colored inversion application provides geoscientists a quick way to transform seismic data into impedances that could be easily correlated to porosity in conventional reservoirs and brittleness in unconventional reservoirs both key rock properties needed to identify sweet spots and to geosteer wells to reduce drill time.
Comming Soon
Launch E-Store
The multi-paned viewing environment, unmatched by any software in the industry, along with streamlined workflows and high resolution 3D seismic attributes help boost performance. The value of seismic data for seamless interpretation is maximized by fast, on the fly real time visualization of seismic

Buy
Seamlessly integrate well, seismic and maps to increase efficiency in an integrated interpretation environment with GVERSE™ Connect. Leveraging strengths of two leading E&P Technologies, GVERSE™ Connect enables fast database to database exchange for efficient and optimized reservoir characterization.

Buy
GVERSE Planner allows multiple well planning to easily visualize geologic surfaces, quickly create surveys and geoprognosis reports, and just as easily make changes to existing well plans. It provides geologists with the capabilities needed to accurately design proposed wells and rapidly make well...

Buy
The only web browser based geosteering application in the industry that delivers optimal well placement with simple data loading and full integration with GeoGraphix. GVERSE WebSteering is a complementary* tool for GeoGraphix users who can sync their interpretations on-the-fly with their GeoGraphix

Buy
GVERSE™ Predict3D is a multi-attribute inversion solution, based on spectral decomposition and state-of-the-art optimization techniques, to predict rock properties away from wells using well logs and seismic data. This enables you to understand the reservoir effectively and reduces risks associated

Buy
A simulation technology that identifies geomechanical sweetspots for fracing and refracing. It uses structural fault attribute maps enabling users to increase the percentage of frac stages that will effectively contribute to production. Using new computational methods, it models the impact of faults and natural fractures as they interact with the regional stress to quickly create a map of local stress changes across a reservoir.

This unique colored inversion application provides geoscientists a quick way to transform seismic data into impedances that could be easily correlated to porosity in conventional reservoirs and brittleness in unconventional reservoirs both key rock properties needed to identify sweet spots and to geosteer wells to reduce drill time.