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Paper detail

Enabling wave-based inversion on GPUs with randomized trace estimation

By building on recent advances in the use of randomized trace estimation to drastically reduce the memory footprint of adjoint-state methods, we present and validate an imaging approach that can be executed exclusively on accelerators. Results obtained on field-realistic synthetic datasets, which include salt and anisotropy, show that our method produces high-fidelity images. These findings open the enticing perspective of 3D wave-based inversion technology with a memory footprint that matches the hardware and that runs exclusively on clusters of GPUs without the undesirable need to offload certain tasks to CPUs.

preprint2022arXivOpen access
Mathias LouboutinFelix J. Herrmann
physics.geo-phDiscrete Mathematics
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Mathias LouboutinFelix J. Herrmann

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