Enhanced Velocity Modeling and Depth Imaging
Aspen GeoDepth™ offers advanced velocity determination and 3D/2D velocity model building, ensuring accurate, high-quality, and interpretable seismic images in both time and depth domains. This comprehensive solution integrates an array of interactive and batch velocity analysis tools tailored for anisotropic models, effectively addressing a wide spectrum of seismic imaging challenges.
Streamlined Workflow and Enhanced Productivity
The integration of Aspen GeoDepth™ with interpretation and modeling solutions optimizes the velocity modeling workflow, safeguarding against data loss and maintaining geological constraints. This synergy enhances efficiency by facilitating the creation of precise 3D and 2D models, irrespective of the structural complexities involved. Moreover, the system's high parallelization capability allows for seamless operation on extensive 3D datasets and multi-line 2D datasets, both on-premise and in the cloud, significantly boosting productivity.
Critical Role in Hydrocarbon Exploration and Production
Accurate seismic images and depth models are imperative for successful hydrocarbon exploration and production endeavors. Aspen GeoDepth™ perfectly bridges this necessity by delivering a solution that enhances seismic imaging accuracy in both time and depth domains. The system's comprehensive suite of features encompasses interpretation, velocity analysis, model building, time-to-depth conversion, depth migrations, and model verification and updating, catering to various seismic survey types like 3D and 2D marine and land surveys, and different acquisition geometries.
Facilitating Operational Excellence and Digital Transformation
Enabling operational excellence through cutting-edge innovations, Aspen GeoDepth™ accelerates organizations' digital journeys, fostering advancements in efficiency and precision. By leveraging the latest technological capabilities, this solution empowers users to achieve higher levels of performance and operational excellence, aligning with the evolving landscape of seismic exploration and depth imaging.