23 | | ---- |
24 | | === '''CMCC-1 - Title''' === |
25 | | ''' Description:''' [[BR]] ''' Motivation (what is the benefit, and why in the reference): ''' [[BR]] ''' Status :''' [[BR]] ''' Main tasks :''' [[BR]] [[BR]] ''' Science Reviewer:''' [[BR]] ''' System Reviewer:''' [[BR]] ''' Deadline:''' [[BR]] ''' Priority:''' [[BR]] ''' Depends on''' : [[BR]] ''' Principal Investigator : ''' |
| 29 | === '''CMCC.1 Scalability Optimization''' === |
| 30 | ''' Motivation:''' Improve NEMO scalability. [[BR]] ''' Status:''' to be started[[BR]] ''' Main tasks:'''[[BR]] * Introduction of a new software layer in the NEMO stack software exploiting numerical optimized and parallel libraries such as pBLAS, ScaLAPACK and PETSc. [[BR]] * Continuation of the implementation of hybrid parallel approach based on the functional parallelism for the tracers, momentum equations and 3D domain decomposition.[[BR]] * Test performances of XIOS on CMCC architectures[[BR]] '''System Reviewer:''' [[BR]] ''' Deadline:''' 2013[[BR]] ''' Priority: '''Medium [[BR]] ''' Principal investigator:''' Italo Epicoco [[BR]] |
| 31 | |
| 32 | === '''CMCC.2 ''' Modification of masks === |
| 33 | ''' Motivation:''' Expand the modification of masks to the EEN scheme [[BR]] ''' Status:''' started in 2012, continued in 2013[[BR]] ''' Main tasks:''' Evaluate the impact of fmask on the EEN scheme and eventually make modifications. [[BR]] '''Science Reviewer:''' Gurvan Madec[[BR]] ''' Deadline:''' 2013[[BR]] ''' Priority:''' High[[BR]] ''' Principal investigator:''' Srdjan Dobricic [[BR]] |
| 34 | |
| 35 | === '''CMCC.3 ''' Direct interface with data assimilation === |
| 36 | ''' Motivation:''' Interface with data assimilation systems [[BR]] ''' Status:''' to be started[[BR]] ''' Main tasks:''' Develop software interface that will avoid the writing to the disk, provide the possibility to use a different domain decomposition in Nemo and the data assimilation, reduce the memory usage of Nemo when it is inactive. [[BR]] '''Science Reviewer:''' !MetOffice[[BR]] ''' Deadline:''' 2013 [[BR]] ''' Priority: '''Medium [[BR]] ''' Principal investigator:''' Srdjan Dobricic [[BR]] |
| 37 | |
| 38 | === '''CMCC.4 '''Divergence damping filter operator === |
| 39 | ''' Motivation:''' Additional diffusion on only the divergent component of the velocity could reduce the numerical noise at the high model topography (step topography, deep convection, etc.). [[BR]] ''' Status:''' continuation of 2012 activity. Tested but not documented[[BR]] ''' Main tasks:''' Add a routine that will apply the divergence filter in addition to the horizontal diffusion of the velocity.[[BR]] ''' System Reviewer:''' [[BR]]'''Science Reviewer:''' '''[[BR]]Deadline: '''2013[[BR]] ''' Priority:''' High [[BR]] ''' Principal investigator:''' Srdjan Dobricic[[BR]] |
| 40 | |
| 41 | === '''CMCC.5 '''Vertical stability of increment fields === |
| 42 | ''' Motivation:''' Modify the increment field in order to reduce the vertical instabilities. [[BR]] ''' Status:''' to be started[[BR]] ''' Main tasks:''' Modify the ASM code to add the diagnostics of the vertical stability and the modificatyions to the increment fields.[[BR]] ''' System Reviewer:''' [[BR]] ''' Science Reviewer:''' Met Office [[BR]]'''Deadline: ''' 2013[[BR]] ''' Priority:''' Medium[[BR]] ''' Principal investigator: '''Srdjan Dobricic |
| 43 | |
| 44 | === '''CMCC.6 '''Surface and lateral boundary conditions for tracers === |
| 45 | ''' Motivation:''' Add generic interfaces for surface and lateral boundary conditions for BGC tracers (river input, atmospheric deposition, open boundary conditions). [[BR]] ''' Status:''' started in 2012, first implementation waiting for the final choice of BDY[[BR]] ''' Main tasks:''' Port the interface used for transport routines to the surface and boundary condition routines currently used for T and S. [[BR]] ''' System Reviewer:''' C. Ethe'[[BR]] ''' Science Reviewer:''' C. Ethe', ?? [[BR]] '''Deadline:''' 2013[[BR]] ''' Priority:''' High [[BR]]''' Principal investigator: '''Marcello Vichi |
| 46 | |
| 47 | === '''CMCC.7 '''Testing of AGRIF: scalability and usage with biogeochemical variables === |
| 48 | ''' Motivation:''' evaluate AGRIF performances in realistic domains and utilization with the BFM[[BR]] ''' Status:''' to be started[[BR]] ''' Main tasks:''' check performances of AGRIF with an Atlantic refinement; assess the compatibility with BFM variables and the related computational overhead[[BR]] ''' System Reviewer:''' [[BR]] ''' Science Reviewer:''' [[BR]] '''Deadline:''' 2013-2014[[BR]] ''' Priority:''' Medium [[BR]]''' Principal investigator: '''Marcello Vichi and Italo Epicoco |