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Reservoir top maps from stochastic depth conversion are used for prospect contouring, yielding a prospect probability map.
3D Velocity Cube
UDOMORE outputs calibrated 3D velocity cubes for best-case and selected simulated scenarios.
Automated E&P Structural Workflow
Succeed in the most complicated E&P project through automated workflow (and its modules for automatic time-to-depth conversion, automatic gross-rock-volume estimation and automatic spill-point detection) without any coding skills in one single run and minutes, not days.
Estimated Depth maps
Compute accurate depth maps, tied to wells markers, with impressive speed using our advanced Bayesian co-kriging estimation algorithm.
Depth Uncertainty maps
Compute Depth Uncertainty maps, expressing the standard deviation around estimated depth maps.
Compute multiple depth realizations in the confidence interval with impressive speed by using our advanced Bayesian simulation algorithm.
Gross-Rock-Vol Curves depending on target configuration
Estimate the volume of the reservoir between the top and the base reservoir surface, and above the oil contact corresponding to all simulated depth maps vs probability of occurrence. You can obtain Local GRV curve for each target and Global GRV curve - for all targets all together in one single click.
Probability Map and Automatic Spill Point detection
Compute a probability map and structural lowest points in hydrocarbon traps that retain hydrocarbons for one or multiple targets in one single run.
Remaining Potential Map
Compute a remaining potential map. This map is a multiplication of uncertainty on the depth map & the probability map. It highlights the place where you have a high probability to hit the reservoir but still a lot of uncertainty.
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