Benchmarking 3D time- And frequency-domain solvers for FWI applications for different cluster sizes and variable number of sources [Электронный ресурс]


тезисы
Авторы: Bakulin A.     Dmitriev M.     Kostin V.   (ИНГГ СО РАН)   Solovyev S.   (ИНГГ СО РАН)  
дата публикации: 2019
реферат:
We compare the performance of two acoustic solvers in the framework of frequency-domain full-waveform inversion. Using a realistic 3D marine model, we conduct a series of numerical experiments varying the number of nodes and sources taken from a typical 3D seismic acquisition scenario. When the number of shots is small, a time-domain finite-difference (TDFD) solver performs best. For increasing number of shots, upon reaching a number defined by the "line of equal performance", the frequency-domain finite-difference (FDFD) solver outperforms the time-domain solver and becomes progressively more efficient with further increases. Likewise, for an increasing number of nodes, FDFD initially performs better starting from a smaller number of nodes. Upon reaching the number of nodes defined by the "line", TDFD becomes the better option. Both solvers deserve a place in a modern FWI toolkit, with the optimal solver selected based on specific configuration dependent on cluster size and number of shots.
первоисточник: SEG International Exposition and 88th Society of Exploration Geophysicists International Exposition and Annual Meeting, SEG 2018 (Anaheim, CA USA North America, 14 - 19 October, 2018)
том:
страницы: 3888-3892
ISBN:
ISSN:
внешние ссылки:
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