A One-Stop Shop for Interpreters
Aspen SeisEarth is a cutting-edge integrated solution suite that offers fast, multi-survey structural and stratigraphic interpretation and visualization capabilities. This powerful platform allows multiple users to work collaboratively in a single shared environment, fostering efficient and informed decision-making processes. By providing a seamless experience for interpreters, Aspen SeisEarth serves as a one-stop shop for all interpretation needs, catering to both simple and advanced requirements.
Informed, Collaborative Decision Making
Through Aspen SeisEarth, interpreters can delve into regional-to-prospect scale interpretation and seamlessly integrate visual data. This enables easy sharing of projects and data among team members without the need for duplication. The platform promotes a culture of informed and collaborative decision-making, enhancing the overall efficiency and productivity of the team.
Enhanced Productivity and Efficiency
Aspen SeisEarth maximizes productivity by offering interactivity and consistency between views, which accelerates the interpretation process. Leveraging high-speed graphics, large memory capacity, and fast connectivity, interpreters can take full advantage of modern workstations to streamline their workflows. These features contribute to enhanced efficiency and productivity in seismic interpretation tasks.
Efficient Data Management and Interoperability
The platform ensures efficient data management and interoperability by providing seamless connectivity to the OSDU® Data Platform and third-party databases. This capability enables interpreters to kickstart projects swiftly with minimal preparation, enhancing overall workflow efficiency. Aspen SeisEarth simplifies data connectivity and integration, empowering interpreters to focus on their core tasks without being impeded by data-related challenges.
Predict Rock Property Volumes from Seismic Attributes
Among its advanced features, Aspen SeisEarth offers interpreters a workflow that utilizes a neural network to predict log properties even in the absence of existing wells. This innovative approach reduces inversion project turnaround time compared to traditional methods, allowing interpreters to generate multiple rock property volumes concurrently from seismic attribute volumes. Moreover, this feature requires no specialized Quantitative Interpretation (QI) expertise, making it accessible and user-friendly for interpreters of varying skill levels.