The challenges of full-wave HPC modeling of seismo-acoustic propagation generated by the detonation of UXOs of large charge weights in a shallow water environment - Archive ouverte HAL Accéder directement au contenu
Communication Dans Un Congrès Année : 2023

The challenges of full-wave HPC modeling of seismo-acoustic propagation generated by the detonation of UXOs of large charge weights in a shallow water environment

Résumé

Unexploded historical ordnance (UXO) from World War II must be destroyed quickly after discovery to ensure the safety of divers and ships. The favored destruction method is countermining, i.e. the use of a high-order detonation conducted by exploding an additional donor charge placed adjacent to the UXO. In contrast to the risks for people in charge of the UXO countermining, that are well known by the Mine Warfare experts, the possible consequences of underwater explosions on the marine environment and biodiversity and on the buildings located on the shore are more difficult to evaluate. However, a decision support tool for the risk assessment that would rely on reliable wave propagation modeling would be useful.3D numerical modeling of seismo-acoustic wave propagation in coastal environments with variable geometrical and physical properties induces significant challenges in terms of meshing and computational resources. We discuss here these challenges for the case of wave simulation in the Bay of Hyères (Mediterranean Sea, France) conducted using a 3D spectral-element method. The 3D mesh of the Bay accounts for the variable topography and bathymetry, as well as the sedimentary layers that can be as thin as one meter. The simulations were performed up to 30 Hz on a GPU supercomputer. The limit of 30 Hz is conditioned by both the small thickness of sedimentary layers and the weak shear-wave velocities of unconsolidated sediments (200 m/s). This requires refining the sedimentary elements and results in meshes containing hundreds of millions of elements. This work is a first step towards our objective to generate meshes with a billion elements on the future pre-exascale infrastructures that will allow to simulate propagation beyond 100 Hz. This work was part of the ChEESE project funded by the EU’s Horizon 2020 research and innovation program under the Grant Agreement 823844.
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Dates et versions

hal-04174403 , version 1 (31-07-2023)

Identifiants

  • HAL Id : hal-04174403 , version 1

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Vadim Monteiller, Nathalie Favretto-Cristini, Paul Cristini. The challenges of full-wave HPC modeling of seismo-acoustic propagation generated by the detonation of UXOs of large charge weights in a shallow water environment. UACE2023, Jun 2023, Kalamata, Greece. ⟨hal-04174403⟩
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