Changes between Version 41 and Version 42 of 2015WP/2015Action_institutions_CNRS
- Timestamp:
- 2014-10-16T11:08:50+02:00 (10 years ago)
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2015WP/2015Action_institutions_CNRS
v41 v42 29 29 || CNRS-3 || LIM3, melt ponds || || || || || || || 30 30 || CNRS-4 || Stochastic parameterization of Brankart || || || || || || || 31 || CNRS-5 || TOP Online coarsening || Shared action || || || || || || 32 || CNRS-6 || Offline with vvl || || || || || || || 33 || CNRS-7 || NEMO ready for ESMs-CMIP6: ORCA1_LIM3_PISCES || || || || || || || 34 || CNRS-8 || Investing in AGRIF expertise || shared action || || || || || || 35 || CNRS-9 || LIM3+AGRIF || || || || || || || || || 36 || CNRS-10 || Simplification and improvement of lateral diffusion and dissipation || shared action || || || || || || 37 || CNRS-11 || TAM || || || || || || || 38 || CNRS-12 || COMODO tests cases || shared action || || || || || || 39 || CNRS-13 || Energy trend diagnostics || || || || || || || 40 || CNRS-14 || Subduction diag. || || || || || || || 41 || CNRS-15 || LIM3, Multiple tracer interface || || || || || || || 42 || CNRS-16 || LIM3, FCT4 advection scheme || || || || || || || 43 || CNRS-17 || Vertical redistribution of salt rejection due to ice formation || || || || || || || 31 || CNRS-5 || Offline with vvl || || || || || || || 32 || CNRS-6 || NEMO ready for ESMs-CMIP6: ORCA1_LIM3_PISCES || || || || || || || 33 || CNRS-7 || Investing in AGRIF expertise || shared action || || || || || || 34 || CNRS-8 || LIM3+AGRIF || || || || || || || || || 35 || CNRS-9 || Simplification and improvement of lateral diffusion and dissipation || shared action || || || || || || 36 || CNRS-10 || TAM || || || || || || || 37 || CNRS-11 || COMODO tests cases || shared action || || || || || || 38 || CNRS-12 || Energy trend diagnostics || || || || || || || 39 || CNRS-13 || Subduction diag. || || || || || || || 40 || CNRS-14 || LIM3, Multiple tracer interface || || || || || || || 41 || CNRS-15 || LIM3, FCT4 advection scheme || || || || || || || 42 || CNRS-16 || Vertical redistribution of salt rejection due to ice formation || || || || || || || 44 43 || || || || || || || || || || || 45 44 || || || || || || || || || || || … … 58 57 ''' Motivation: ''' Unresolved scales have been shown to produce an important effect on the horizontal density gradient through the non-linearity of EOS (Brankart, 2013). This effect needs to be taken into account in low resolution ocean simulation. It is also useful to explicitly simulate uncertainties in Ensemble '''Data Assimilation''' systems.[[BR]] ''' Status : '''Existing preliminary code from J.-M. Brankart'''[[BR]]Main tasks :[[BR]]'''(1) Normalize and implement the code[[BR]](2) Test and validate on reference configurations[[BR]] ''' Science Reviewer:''' [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' Before April 2015 [[BR]] ''' Priority: '''High [[BR]] ''' Depends on:''' none[[BR]] ''' Principal Investigator : ''' Pierre-Antoine Bouttier 59 58 60 === '''CNRS-5 - ''' TOP Online coarsening ===61 ''' Motivation: ''' introduce a coarsening of the model resolution on the biogeochemical model (TOP) (Lévy et al. Ocean Modelling, 2012)[[BR]] ''' Status :''' Part of the EMBRACE FP7 project. Work started in may 2012. The project duration is 2 years, with 2 deliverables in NEMO: 1st year (2013) : on-line coarsening of the ocean outputs (''' done''' ); 2nd year (2014) : on-line coarsening of TOP[[BR]] ''' Main tasks :''' On-line coarsening of passive tracers at least for the numerics & physics used in ORCA025.[[BR]] ''' Science Reviewer:''' Gurvan Madec [[BR]] ''' System Reviewer: ''' [[BR]] ''' Deadline:''' mid - 2015[[BR]] ''' Priority:''' high[[BR]] ''' Depends on:''' none[[BR]] ''' Principal Investigator : ''' Mercator & Julien Lesommer, Gurvan Maden, Christian Ethé62 59 63 === '''CNRS- 6- '''Offline with vvl ===60 === '''CNRS-5 - '''Offline with vvl === 64 61 ''' Motivation: ''' Add missing pieces of code to make passive tracers model run offline with linear free surface [[BR]] ''' Status :''' [[BR]] ''' Main tasks :''' [[BR]](1) run a forced simulation ORCA2(1)-LIM2(3) and output variables needed for linear free surface, especially the changing vertical grid in time [[BR]] (2) Rewrite the Offline modules to take into account the changing grid in time[[BR]] ''' Science Reviewer:''' Gurvan Madec [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : ''' Christian Ethé 65 62 66 === CNRS- 7- Shared action ROBUSTNESS - NEMO ready for ESMs-CMIP6: ORCA1_LIM3_PISCES ===63 === CNRS-6 - Shared action ROBUSTNESS - NEMO ready for ESMs-CMIP6: ORCA1_LIM3_PISCES === 67 64 ''' Motivation: '''Set-up run and validate the ORCA1_LIM3_PISCES configuration on nemo_v3.6_STABLE release to be ready for CMIP6[[BR]] ''' Status :''' Started in 2014. First control run available[[BR]] ''' Main tasks :''' Finalize physical and numerical choices for this configuration. Run and validate the forced reference experiments. Distribute this shared configuration on a specific svn/dods project (separate from NEMO reference)[[BR]] ''' Science Reviewer:''' [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' May 2015[[BR]] ''' Priority:''' 1 (= for CMIP6)[[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : '''Claire Lévy 68 65 69 === '''CNRS- 8- '''Investing in AGRIF expertise - see shared actions ===66 === '''CNRS-7 - '''Investing in AGRIF expertise - see shared actions === 70 67 ''' Motivation:''' Hands on AGRIF for xx test cases. Gathering and sharing expertise. Towards a NEMO-AGRIF tutorial/training course. [[BR]] To be elaborated with other members of the consortium (making AGRIF compatible with split-explicit time stepping, s- and z-tilde coordinates, sea-ice...) [[BR]] ''' Status''' : [[BR]] ''' Main tasks :''' [[BR]] (1) use of AGRIF in coupled ocean-atmosphere and coupled oceanic configurations[[BR]] (2) contribute to the shared expertise by building a tutorial/training course[[BR]] (3) write a documentation of the NEMO interface to AGRIF [[BR]] (4) salve the issue of AGRIF with TKE (and GLS) vertical physics at the Equator[[BR]] ''' Science Reviewer: ''' Jerome Chanut [[BR]] ''' System Reviewer:''' Jerome Chanut [[BR]] ''' Deadline:''' end 2014[[BR]] ''' Priority:''' high[[BR]] ''' Depends on''' : [[BR]] ''' Principal Investigator''' : Sébastien Masson 71 68 72 === '''CNRS- 9- '''LIM3 + AGRIF ===69 === '''CNRS-8 - '''LIM3 + AGRIF === 73 70 ''' Motivation: ''' [[BR]] ''' Status :''' [[BR]] ''' Main tasks :''' [[BR]] ''' Science Reviewer:''' [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : ''' Clement Rousset & Rachid Benshila 74 71 75 === '''CNRS- 10- '''Simplification and improvement of lateral diffusion and dissipation ===72 === '''CNRS-9 - '''Simplification and improvement of lateral diffusion and dissipation === 76 73 ''' Motivation: ''' [[BR]] ''' Status :''' [[BR]] ''' Main tasks :''' [[BR]] ''' Science Reviewer:''' [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : ''' Sebastien Masson, Gurvan Madec 77 74 78 === '''CNRS-1 1- '''TAM ===75 === '''CNRS-10 - '''TAM === 79 76 ''' Motivation: ''' Extending the applications of NEMO-ASSIM component and consolidating them [[BR]] ''' Status :''' continuation[[BR]] ''' Main tasks :'''[[BR]](1) Provide a demonstrator of NEMO-ASSIM components, based on the reference configuration for Data assimilation with NEMO (SEABASS), and the associated documentation[[BR]](2) Add supplementary validation test routines for Tangent Linear and adjoint models (NEMOTAM) [[BR]](3) Enrich demonstrator with different functionalities (e.g. ensemble runs, singular vectors computing) to be defined by consulting the NEMO-ASSIM group[[BR]](4) Monitor advances in Automatic differentitation field and quantify its applicatibility to NEMO[[BR]] ''' Science Reviewer: '''Arthur Vidard, INRIA, LJK [[BR]] ''' System Reviewer: '''Arthur Vidard, INRIA, LJK [[BR]] ''' Deadline:''' 2nd semester 2015[[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' none[[BR]] ''' Principal Investigator : ''' Pierre-Antoine Bouttier 80 77 81 === '''CNRS-1 2- '''COMODO test cases ===78 === '''CNRS-11 - '''COMODO test cases === 82 79 ''' Motivation: ''' improve NEMO's reliability validation and allow better models comparison[[BR]] ''' Status :''' Cont. 2014[[BR]] ''' Main tasks :''' Decide which test configurations (including those valuating some of the NEMO abilities [[BR]] Finish the implementation/testing/validation work. At least the COMODO 2D upwelling.[[BR]] ''' Science Reviewer:''' [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' end 2015[[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : '''Simona Flavoni, Julien LeSommer 83 80 84 === '''CNRS-1 3- '''Finalisation of Energy trends diagnostics KE and PE ===81 === '''CNRS-12 - '''Finalisation of Energy trends diagnostics KE and PE === 85 82 ''' Motivation: ''' Finalize trends diagnostics (3D trends of tracers, momentum, kinetic energy and potential energy)[[BR]] ''' Status :''' Continuation of 2014[[BR]] ''' Main tasks :''' [[BR]] (1) implement the 3D output (using xIOS) of tracers and momentum trends (done with validation in 2013)[[BR]] (2) compute and output the 3D trends of PE and KE : vvl case to be validated[[BR]] (3) documentation[[BR]] ''' System Reviewer:[[BR]] Deadline:''' end 2014[[BR]] ''' Depends on: ''' the introduction of TEOS10 (for dynamical potential energy)[[BR]] ''' Principal Investigator : ''' Sebastien Masson, Gurvan Madec and Fabien Roquet 86 83 87 === '''CNRS-1 4- '''Subduction diagnostics ===84 === '''CNRS-13 - '''Subduction diagnostics === 88 85 ''' Motivation: '''add a useful diagnostics of subduction[[BR]] ''' Status :''' Already coded/tested in v3.4 [[BR]] ''' Main tasks :''' adapt to the current version[[BR]] ''' Science Reviewer:''' Gurvan Madec [[BR]] ''' System Reviewer:''' Gurvan Madec [[BR]] ''' Deadline:''' end 2014[[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : '''Christian Ethé 89 86 90 === '''CNRS-1 5- LIM3, '''multiple tracer interface ===87 === '''CNRS-14 - LIM3, '''multiple tracer interface === 91 88 ''' Motivation''' [[BR]] ''' Status :''' starting project[[BR]] ''' Main tasks :''' [[BR]](1) Introduce a tracer array (jpi,jpj,jpl,jpx) in sea ice; compute the associated terms of tendencies (volume and area tracer options)[[BR]](2) Plug existing tracers (age and bulk salinity) and test their reproducibility with control[[BR]](3) Plug all existing tracers[[BR]]'''Science Reviewer:''' Pas Olivier Aumont (bas bgc du tout). LLN ?[[BR]] ''' System Reviewer:''' Christian Ethé [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' none[[BR]] ''' Principal Investigator : ''' Martin Vancoppenolle 92 89 93 === '''CNRS-1 6- '''LIM3, FCT4 advection scheme ===90 === '''CNRS-15 - '''LIM3, FCT4 advection scheme === 94 91 ''' Motivation: ''' Rachid, using a classical test case of advection of a passive tracer, have shown that a 4th order Flux Corrected Transport (FCT4) had a behavior very close to the one of a Pather scheme, i.e. the one used in LIM. It is much cheaper as you don't have to advect second order moments in addition to the field itself. [[BR]] ''' Status :''' The FCT4 scheme has been coded and tested as part of a 3D advection scheme for ocean tracers. [[BR]] ''' Main tasks :''' adapt to LIM3 and test it. If it performs as expected, implement it is the current version of LIM3 [[BR]] ''' Science Reviewer:''' Martin Vancoppenolle [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : ''' Clément Rousset, Gurvan Madec 95 92 96 === '''CNRS-1 7- '''Vertical redistribution of salt rejection due to ice formation ===93 === '''CNRS-16 - '''Vertical redistribution of salt rejection due to ice formation === 97 94 ''' Motivation: ''' Introduce the sub-grid-scale brine rejection parameterization proposed by Nguyen et al JGR2009. Such a parameterization tends to reduced the mixed layer depth below sea-ice (which is generally to large). Improve the parameterization by taking into account the velocity difference between ice and ocean. [[BR]] ''' Status :''' Already coded and tested in v3.4 with ORCA1-LIM3. Ocean Modelling paper in revision (Barthélemy et al. 2014) [[BR]] ''' Main tasks :'''adapt to the current version[[BR]] ''' Science Reviewer:''' [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on:''' [[BR]] ''' Principal Investigator : ''' Gurvan Madec, Antoine Barthélémy