Changes between Version 102 and Version 103 of 2016WP/2016SharedActions
- Timestamp:
- 2016-02-26T13:04:59+01:00 (8 years ago)
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2016WP/2016SharedActions
v102 v103 141 141 142 142 === === 143 === '''SIMPLI-5 / NOC - '''Reimplement Smagorinsky === 144 '''Motivation: '''The rationalisation of the LDF operators offers the possibility of[https://forge.ipsl.jussieu.fr/#6322077 cleanly] reintroducing the Smagorinsky parameterisation by adding an appropriate subroutine to set the three-dimensional coefficient array that already exists. This should represent an additional improvement over the previous implementation in that it will work with both harmonic and biharmonic operators. [[BR]]'''Status :''' [[BR]]'''Main tasks :''' [[BR]]'''Science Reviewer:[[BR]]System Reviewer:[[BR]]Deadline:''' [[BR]]'''Priority: '''[[BR]]'''Depends on:[[BR]]Principal Investigator : ''' 145 ---- 143 ==== '''SIMPLI-5 / NOC - '''Reimplement Smagorinsky ==== 144 '''Motivation: '''The rationalisation of the LDF operators offers the possibility of[https://forge.ipsl.jussieu.fr/#6322077 cleanly] reintroducing the Smagorinsky parameterisation by adding an appropriate subroutine to set the three-dimensional coefficient array that already exists. This should represent an additional improvement over the previous implementation in that it will work with both harmonic and biharmonic operators. [[BR]]'''Status :''' [[BR]]'''Main tasks :''' [[BR]]'''Science Reviewer:[[BR]]System Reviewer:[[BR]]Deadline:''' [[BR]]'''Priority: '''[[BR]]'''Depends on:[[BR]]Principal Investigator : '''[[BR]] 145 146 147 ---- 146 148 147 149 === === 148 150 === '''Configuration Manager''' === 151 149 152 ==== !ConfigMan-1 / MERCATOR - SIREN improvement and robustness ==== 150 ''' Motivation:''' 151 152 * test SIREN code (working group members and maybe some external users) 153 * extract from NEMO the meshmask creation (Mercator-Océan) 154 * main program (python) to manage all SIREN codes (Mercator-Océan) 155 * improve documentation readibility, and add tutorial (Mercator-Océan) 156 157 ''' [[BR]] ''' '''Status: [[BR]] Main Tasks: [[BR]] Science Pre-viewer: [[BR]] System Pre-viewer: [[BR]] Deadline: [[BR]] Priority: [[BR]] Depends on: [[BR]]''' '''Principal Investigator''' : julien PAUL 158 159 ==== ''' '''!ConfigMan-2 / NERC/CMCC - BDY tool developpement and tests ==== 160 ''' Motivation:''' 161 162 * finish last improvement of the BDY tool and add some documentation (NERC) 163 * test BDY tool (CMCC) 164 165 ''' [[BR]] ''' '''Status: [[BR]] Main Tasks: [[BR]] Science '''Pre-viewer''': [[BR]] System '''Pre-viewer''': [[BR]] Deadline: [[BR]] Priority: [[BR]] Depends on: [[BR]] Principal Investigator''' : james HARLE, stefania CILIBERTI 153 ''' Motivation:''' 154 * test SIREN code (working group members and maybe some external users)[[BR]] 155 * extract from NEMO the meshmask creation (Mercator-Océan)[[BR]] 156 * main program (python) to manage all SIREN codes (Mercator-Océan)[[BR]] 157 * improve documentation readibility, and add tutorial (Mercator-Océan)[[BR]] 158 ''' [[BR]] ''' '''Status: [[BR]] Main Tasks: [[BR]] Science Pre-viewer: [[BR]] System Pre-viewer: [[BR]] Deadline: [[BR]] Priority: [[BR]] Depends on: [[BR]]''' '''Principal Investigator''' : julien PAUL[[BR]] 159 160 ==== !ConfigMan-2 / NERC/CMCC - BDY tool developpement and tests ==== 161 ''' Motivation:'''[[BR]] 162 * finish last improvement of the BDY tool and add some documentation (NERC)[[BR]] 163 * test BDY tool (CMCC)[[BR]] 164 ''' [[BR]] ''' '''Status: [[BR]] Main Tasks: [[BR]] Science '''Pre-viewer''': [[BR]] System '''Pre-viewer''': [[BR]] Deadline: [[BR]] Priority: [[BR]] Depends on: [[BR]] Principal Investigator''' : james HARLE, stefania CILIBERTI[[BR]] 166 165 167 166 ==== !ConfigMan-3 / MERCATOR - publicise SIREN and get feedbacks from user ==== 168 ''' Motivation:''' 169 170 * publicise SIREN to NEMO user for test 171 * get feedback from user 172 173 ''' [[BR]] ''' '''Status: [[BR]] Main Tasks: [[BR]] Science '''Pre-viewer''': [[BR]] System '''Pre-viewer''': [[BR]] Deadline: [[BR]] Priority: [[BR]] Depends on: [[BR]] Principal Investigator :''' julien PAUL 174 175 ---- 176 === === 167 ''' Motivation:'''[[BR]] 168 * publicise SIREN to NEMO user for test[[BR]] 169 * get feedback from user[[BR]] 170 '''Status: [[BR]] Main Tasks: [[BR]] Science '''Pre-viewer''': [[BR]] System '''Pre-viewer''': [[BR]] Deadline: [[BR]] Priority: [[BR]] Depends on: [[BR]] Principal Investigator :''' julien PAUL[[BR]] 171 172 ---- 173 [[BR]] 177 174 === '''Wave Coupling''' === 178 175 ==== ''' '''WAVE-1 / INGV - Improvements in wave-current interaction processes implementation ==== 179 ''' Motivation: ''' INGV is responsible for the WAVE-WG and will continue improving the wave-current interaction processes implementation according to the WG needs (see Wave-coupling WG wiki page https://forge.ipsl.jussieu.fr/nemo/wiki/WorkingGroups/Wave_Coupling) [[BR]] ''' Status :''' Implementation of some of the identified processes has been started in 2014 and 2015 within the Wave coupling WG: 180 181 1. New Vertical Stokes Drift computation according to Breivik et al., 2014: “Approximate Stokes Drift Profiles in Deep Water” 182 1. Vertical Turbulence: implement the Qiao (2010) formulation (works with all the vertical closure schemes) 183 1. Modification of the surface vertical velocity accounting for the Stokes Drift 184 1. Computation of the Stokes-Coriolis Force 185 1. Inclusion of the Stokes drift components in the tracer advection term 186 1. Generalization of the surface boundary condition for momentum accounting for the wave effects 187 188 This work is included in the /2015/dev_r5936_INGV1_WAVE development branch [[BR]] ''' Main tasks :''' [[BR]] • Finalize the review and testing phase of /2015/dev_r5936_INGV1_WAVE by January 2016 [[BR]] • Merge the development branch into the trunk by January 2016 [[BR]] • Continue tests on the wave-current processes implemented [[BR]] • Continue implementation of already defined wave-current processes: [[BR]] 189 176 ''' Motivation: ''' INGV is responsible for the WAVE-WG and will continue improving the wave-current interaction processes implementation according to the WG needs (see Wave-coupling WG wiki page https://forge.ipsl.jussieu.fr/nemo/wiki/WorkingGroups/Wave_Coupling) [[BR]] ''' Status :''' Implementation of some of the identified processes has been started in 2014 and 2015 within the Wave coupling WG:[[BR]] 177 1. New Vertical Stokes Drift computation according to Breivik et al., 2014: “Approximate Stokes Drift Profiles in Deep Water” 178 1. Vertical Turbulence: implement the Qiao (2010) formulation (works with all the vertical closure schemes) 179 1. Modification of the surface vertical velocity accounting for the Stokes Drift 180 1. Computation of the Stokes-Coriolis Force 181 1. Inclusion of the Stokes drift components in the tracer advection term 182 1. Generalization of the surface boundary condition for momentum accounting for the wave effects[[BR]] 183 This work is included in the /2015/dev_r5936_INGV1_WAVE development branch [[BR]] 184 ''' Main tasks :''' [[BR]] • Finalize the review and testing phase of /2015/dev_r5936_INGV1_WAVE by January 2016 [[BR]] • Merge the development branch into the trunk by January 2016 [[BR]] • Continue tests on the wave-current processes implemented [[BR]] • Continue implementation of already defined wave-current processes: [[BR]] 190 185 o Vertical mixing enhancement due to wave-current interaction; [[BR]] o Contribute to the discussion on development of Langmuir circulation; [[BR]] o others if agreed by the WAVE-WG. [[BR]] 191 186 192 • Meeting organization with the WAVE-WG to discuss further issues to be investigated and implemented [[BR]] '''Science '''Pre-viewer''': ''' Nadia Pianrdi [[BR]] ''' System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' high [[BR]] '''Depends on: ''' [[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it) 187 Meeting organization with the WAVE-WG to discuss further issues to be investigated and implemented [[BR]] '''Science '''Pre-viewer''': ''' Nadia Pianrdi [[BR]] ''' System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' high [[BR]] '''Depends on: ''' [[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it)[[BR]] 193 188 194 189 ==== ''' '''WAVE-2 / INGV - Definition of wave-current interaction processes at small (coastal) scale ==== 195 ''' Motivation: ''' According to the WAVE-WG, in order to achieve a full wave-current coupling, the small (coastal) scale processes need to be investigated and integrated. This development is part of a second phase wave coupling development depending on the first one: INGV-1 dealing with processes acting at large to meso-scale. [[BR]] ''' Status :''' To be continued in 2016 [[BR]] ''' Main tasks :''' Contribute, within the WAVE-WG, in the analysis of this issue in order to finalize the discussions started in 2014 before proceeding with any new implementation. In particular main tasks are: • sink of wave momentum due to breaking and wave-turbulence interaction • sink of wave momentum due to bottom friction • wave-induced mean pressure [[BR]] '''Science '''Pre-viewer''': '''Nadia Pinardi [[BR]] '''System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' [[BR]] '''Depends on: ''' WAVE-1 [[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it) 190 ''' Motivation: ''' According to the WAVE-WG, in order to achieve a full wave-current coupling, the small (coastal) scale processes need to be investigated and integrated. This development is part of a second phase wave coupling development depending on the first one: INGV-1 dealing with processes acting at large to meso-scale. [[BR]] ''' Status :''' To be continued in 2016 [[BR]] ''' Main tasks :''' Contribute, within the WAVE-WG, in the analysis of this issue in order to finalize the discussions started in 2014 before proceeding with any new implementation. In particular main tasks are: • sink of wave momentum due to breaking and wave-turbulence interaction • sink of wave momentum due to bottom friction • wave-induced mean pressure [[BR]] '''Science '''Pre-viewer''': '''Nadia Pinardi [[BR]] '''System '''Pre-viewer''': '''Rachid Benshila [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' [[BR]] '''Depends on: ''' WAVE-1 [[BR]] '''Principal Investigator: ''' Emanuela Clementi (emanuela.clementi@ingv.it)[[BR]] 196 191 197 192 ==== ''' '''WAVE-3 / Met Office - Modification of coupling fields to allow coupling to a wave model ==== 198 ''' Motivation: ''' Allow the use of a wave model coupled to NEMO [[BR]] ''' Status :''' To be continued in 2016 [[BR]] ''' Main tasks :''' Add coupling fields so that fields required in Wave WG branch can be obtained from OASIS. Ensure ice fraction, currents etc. can be passed to OASIS for use by a wave model. [[BR]] '''Science '''Pre-viewer''': ''' [[BR]] '''System '''Pre-viewer''': ''' [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' [[BR]] '''Depends on: '''[[BR]] '''Principal Investigator: ''' Chris Harris/Juan Castillo193 ''' Motivation: ''' Allow the use of a wave model coupled to NEMO [[BR]] ''' Status :''' To be continued in 2016 [[BR]] ''' Main tasks :''' Add coupling fields so that fields required in Wave WG branch can be obtained from OASIS. Ensure ice fraction, currents etc. can be passed to OASIS for use by a wave model. [[BR]] '''Science '''Pre-viewer''': ''' [[BR]] '''System '''Pre-viewer''': ''' [[BR]] '''Deadline: ''' [[BR]] '''Priority: ''' [[BR]] '''Depends on: '''[[BR]] '''Principal Investigator: ''' Chris Harris/Juan Castillo 199 194 200 195 ---- … … 202 197 === '''ROBUSTNESS''' === 203 198 ==== ''' '''ROBUSTNESS-1 / CNRS - Integration of the SEABASS configuration as a test case ==== 204 ''' Motivation: '''SEABASS is the reference configuration for Data Assimilation, included in the NEMO v3.4_STABLE version. Various data assimilation experiments have been done with this configuration, with various data assimilation systems (e.g. Cosme et al, 2011, Bouttier et al. 2014, Yin et al., 2014). In this context, this configuration appears to be useful for data assimilation users, to couple their own DA system on NEMO and compare their results with thgose obtained on this configuration. SEABASS is also easy to take in hand. Also, it allows to update the configuration status to the future version of NEMO. For these reasons, this configuration is a relevant test case for Data Assimilation. [[BR]] ''' Status: ''' [[BR]] ''' Main Tasks: ''' [[BR]] ''' Science '''Pre-viewer''':''' [[BR]] ''' System '''Pre-viewer''': '''Simona Flavoni [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on: '''SIMPLIF-2/CNRS [[BR]] ''' Principal Investigator: '''Pierre-Antoine Bouttier199 ''' Motivation: '''SEABASS is the reference configuration for Data Assimilation, included in the NEMO v3.4_STABLE version. Various data assimilation experiments have been done with this configuration, with various data assimilation systems (e.g. Cosme et al, 2011, Bouttier et al. 2014, Yin et al., 2014). In this context, this configuration appears to be useful for data assimilation users, to couple their own DA system on NEMO and compare their results with thgose obtained on this configuration. SEABASS is also easy to take in hand. Also, it allows to update the configuration status to the future version of NEMO. For these reasons, this configuration is a relevant test case for Data Assimilation. [[BR]] ''' Status: ''' [[BR]] ''' Main Tasks: ''' [[BR]] ''' Science '''Pre-viewer''':''' [[BR]] ''' System '''Pre-viewer''': '''Simona Flavoni [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on: '''SIMPLIF-2/CNRS [[BR]] ''' Principal Investigator: '''Pierre-Antoine Bouttier 205 200 206 201 ==== ''' '''ROBUSTNESS-2 / Met Office - Improvements to EEN scheme with partial steps ====
