SPDE Simulator

Next-Gen petrophysical properties simulator
Quality - Speed - Flexibility
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What SPDE offers

Outperforming computation times

Efficiency with large grids and data sets

Improved quality of non-stationary simulations

Gridless simulations

What SPDE offers

Outperforming computation times

Efficiency with large grids and datasets

Improved quality of non-stationary simulations

Gridless simulations

At TotalEnergies, our benchmarks showed that SPDE is 5 to 50 times faster than traditional SGS, thus opening new avenues for kriging and simulation, especially on unstructured grids.
– P. Biver, Geostatistics and Uncertainties Expert, TotalEnergies

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Explore SPDE

Slide 6
Unstructured grids with support effect

SPDE accommodates all types of grids, respecting the stratigraphy and taking the support effect into account.

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Slide 1
Outperforming computation times

SPDE is one order of magnitude faster than commercial SGS algorithms. One realization on a 250 million nodes grid lasts only 1 minute!

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Slide 2
Large data sets

SPDE outperforms all other commercial algorithms for conditional simulations. It remains efficient even with very large data sets (more than 1 million data).

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Slide 3
Save memory

SPDE uses less memory than commercial SGS algorithms, allowing larger grids to be processed.

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Slide 4
Non-stationary azimuth

An azimuth property can be used to produce a SPDE simulation with non-stationary azimuth.

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Slide 5
Non-stationary ranges

A range property can be used to produce a SPDE simulation with non-stationary range. Notice how the size of the structures increases from the bottom left corner to the upper right corner.

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