The SeisSpace® Seismic Processing Suite is a comprehensive solution for time and depth processing.
The Seismic Processing Suite enables you to easily and efficiently process large volumes of seismic data to develop an insightful and accurate understanding of the subsurface even in the most challenging and complex environments.
The Seismic Processing Suite enables you to easily and efficiently process large volumes of seismic data to develop an insightful and accurate understanding of the subsurface even in the most challenging and complex environments.
With intuitive analysis tools, state-of-the-art geophysical algorithms and an optimized parallel infrastructure, the Seismic Processing Suite helps teams get the most out of seismic data, increase productivity and reduce project cycle times.
Cloud-based architecture seeks to enable fully secure, remote access to easily manage and oversee seismic processing workflows.
Seeks to maximize efficiency and minimize risk with a tightly knit integration between data, user, and workflows.
Collaborate with interpreters using DecisionSpace® 365 Geosciences Suite to streamline integrated workflows.
Enhance your business capabilities with a user-friendly interface and intuitive workflows for implementing proprietary geophysical algorithms, tools, processes etc.
Anytime, Anywhere Access
A user-friendly interface, and streamlined workflows help generate high quality results efficiently.
Seamless Integration
Easily QC and analyze data to derive optimal geophysics algorithms and parameters.
Unified & Shared Environment
Seamlessly develop and implement proprietary geophysical algorithms, tools, workflows, processes etc.
Leverage hundreds of geophysical algorithms and processing modules to extract greater value from your data.
Review and validate results obtained at every step with interactive tools to ensure high-quality output.
Helps improve structure imaging and stratigraphic definitions for complex geology.
Derive greater value from your seismic data investment, increase productivity, and reduce project cycle times with SeiSpace® software's comprehensive suite of analysis tools, geophysical algorithms and optimized parallel processing.
Delivering large volumes of data quickly and accurately remains the hallmark of any seismic processing system. SeisSpace® software addresses the E&P industry’s seismic processing needs quickly, reliably, and cost-effectively.
The Landmark Depth Imaging suite delivers advanced imaging technology to provide the most accurate understanding of the subsurface. Landmark Depth Imaging (LDI) provides acoustic and elastic forward modeling, reverse time migration, illumination and visibility analysis, and tomographic velocity updating.
Perform quality control of any seismic survey during field acquisition.
The Shot profile migration provides a one-way wave equation propagator that can image steeply dipping events in the presence of strong lateral velocity variations for both isotropic and vertical, horizontal, and transverse isotropic media.
A suite of modules designed specifically for geophysicists working with borehole seismic processing.
Reverse time migration (RTM) utilizes a full two-way wave equation propagator that handles more complex structures, such as salt and vertical or overturned reflectors.
Processes and reprocesses huge regional 2D lines for geological basin scale seismic interpretation.
Provides the tools and workflows to derive an accurate representation of the subsurface velocities.
Generates accurate images of 3D subsurface geological targets, providing interactive QC, leading edge algorithms and a developer’s toolkit for innovation.
Seismic Illumination
Quantitatively estimates the seismic wave energy reflected for shots and receivers from a target event using a wave equation-based source-receiver pair illumination. The overall visibility strength illustrates whether a target event is visible to surface seismic imaging. Seismic Illumination studies can identify imaging problems, calibrate, and compensate imaging amplitudes and optimize acquisition designs.
Processes time-lapse datasets, to generate an accurate volume with the differences observed in time, to monitor the effectiveness of enhanced recovery programs with injection in the reservoir or measure depletion zones.
Simulate 3D seismic wave propagation in an acoustic media and provide synthetic data for validation and scenario testing. This algorithm was utilized to model the SEG SEAM Phase I data.
“SEAM Phase I: Challenges of Subsalt Imaging in Tertiary Basins, with Emphasis on Deepwater Gulf of Mexico” has been a resounding success!”
A full elastic wave equation simulates seismic wave propagation in elastic media, and generates three-component data, such as horizontal radial, horizontal transverse, and vertical component data. Elastic modeling accurately generates direct, surface and converted waves, and primary and multiple reflected waves.