Changes between Version 2 and Version 3 of 2020WP/TOP-06_emalod_OASIS_interface_between_TOP_and_NEMO
- Timestamp:
- 2020-06-08T15:49:00+02:00 (3 years ago)
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2020WP/TOP-06_emalod_OASIS_interface_between_TOP_and_NEMO
v2 v3 11 11 == Summary 12 12 13 ||=Action || Name and subject of the action||14 ||=PI(S) || Names||15 ||=Digest || Brief description with motivations and main tasks||16 ||=Dependencies || If any||13 ||=Action || OASIS coupling interface between TOP and NEMO || 14 ||=PI(S) || E. Maisonnave || 15 ||=Digest || We propose to shape the existing ocean/sea-ice interface to an ocean/biogeochemistry coupling, to make possible the computing of TOP/Pisces equations (Aumont et al. 2015) in a separate executable and its coupling to the rest of the NEMO model. This modularity is supposed to enhance the overall computing performances by allowing (i) to reduce the TOP/Pisces module horizontal resolution and (ii) to choose the best suited parallel decomposition for both components. Regardless to result modifications that have to be evaluated, computation of the two modules can be performed concurrently, reducing time to solution even more. The OASIS coupling library (Craig at al., 2017), basis of the existing ocean/sea-ice interface, will ensure the efficient (parallel) communication of 3D fields, the easy switch between sequential and concurrent modes and, possibly, the coupling field interpolation. || 16 ||=Dependencies || Status of the ocean-BGC interface with AGRIF || 17 17 ||=Branch || source:/NEMO/branches/{YEAR}/dev_r{REV}_{ACTION_NAME} || 18 18 ||=Previewer(s) || Names || 19 19 ||=Reviewer(s) || Names || 20 ||=Ticket || # XXXX||20 ||=Ticket || #2150 || 21 21 22 22 === Description
