source: NEMO/branches/2018/dev_r10190_ice_thd_zdf @ 10377

Name Size Rev Age Author Last Change
src 10193   3 years andmirek Ticket #2139 new approach
tests 10161   3 years clem debug ICEDYN confuguration (remove ln_zco)
cfgs 10190   3 years lovato Implement correction to sbcblk_algo_ncar for wave coupling (see #2014)
doc 10188   3 years nicolasmartin Move README-setup-configs to approriate location for further review
ext 9621   3 years nicolasmartin Reorganisation plan for NEMO repository: implementation of SVN externals …
INSTALL.rst 9.3 KB 10187   3 years nicolasmartin Push draft versions of RST root files
LICENSE 20.6 KB 9596   3 years nicolasmartin Reorganisation plan for NEMO repository: preliminary implementation of the …
README.rst 4.8 KB 10187   3 years nicolasmartin Push draft versions of RST root files
REFERENCES.rst 911 bytes 10187   3 years nicolasmartin Push draft versions of RST root files
RELEASE_NOTES.rst 16.8 KB 10187   3 years nicolasmartin Push draft versions of RST root files
  • Property svn:externals set to
    ^/utils/build/arch arch
    ^/utils/build/makenemo makenemo
    ^/utils/build/mk mk
    ^/utils/tools tools
    ^/vendors/AGRIF/dev ext/AGRIF
    ^/vendors/FCM ext/FCM
    ^/vendors/IOIPSL ext/IOIPSL


.. role:: rstblue
.. role:: rstgreen
.. role:: rstgrey
.. role:: rstgreysup(sup)

NEMO for *Nucleus for European Modelling of the Ocean* is a state-of-the-art modelling framework of 
ocean related engines for oceanographic research, operational oceanography, seasonal forecast and 
[paleo]climate studies.


Distributed under CeCILL license (GNU GPL compatible - see ``./LICENSE``),
the NEMO ocean model has 3 major components:

- :rstblue:`OPA` is fundamental to all users by modelling the ocean [thermo]dynamics and 
  solving the primitive equations         (``./src/OCE``); 
- :rstgrey:`SI`\ :rstgreysup:`3` for sea-ice simulates ice [thermo]dynamics, brine inclusions and 
  subgrid-scale thickness variations      (``./src/ICE``); 
- :rstgreen:`TOP-PISCES` models biogeochemistry with TOP for the on/offline oceanic tracers transport and 
  PISCES for the biogeochemical processes (``./src/MBG``).

These physical engines are described in their respective reference publications that must be cited for 
any work related to their use.

Applications and capabilities

Not only does the NEMO framework model the ocean circulation,
it offers various features to enable

- 2-way nesting package `AGRIF`_ to create embedded zooms seamlessly
- Flexible biogeomchemistry with online coarsening and possible integration of a customized model 
- Versatile data assimilation interface with 3 different modules
  (tangent linear, observational operators and increments)

lation a efficient XIOS_ server for outputing diagnostics a coupled via OASIS_ to alternative components or other models to enable Earth system modelling.

| Several builtins configurations are provided to assess the skills and performances of the model which
   can be used as templates for setting up a new configuration (``./cfgs``).
| The end user could also find some idealised test cases on the web to serve as examples and
   to study particular processes (``./tests``).

A set of tools is also provided to setup your own configuration and [pre|post]process your data (``./tools``).


| The NEMO reference manual and a quick start guide can be generated from Latex and RST source code files
   (``./doc``), either in PDF or in HTML format, but it might require some additional installations.
| In any case, both formats are available online: `HTML`_ | `PDF`_

| Since 2014 the project has a `Special Issue`_ in the Geoscientific Model Development (GMD) open-access journal
   from the European Geosciences Union (EGU).
   The main scope is to collect relevant manuscripts which cover a wide variety of topics like
   process studies, new parameterizations, implementation of new model features and new NEMO configurations.
| Also it provides a single portal to search, discover and understand about
   the NEMO modelling framework potential and evolution and to submit their contributions. 

Community development

| The NEMO Consortium gathering 6 European institutes organises the sustainable development in order to 
   keep a reliable evolving system since 2008.
| It defines the multi-year development strategy which is implemented by the NEMO System Team.

`Working groups`_ are regularly created or resumed to gather the expertise in the NEMO community in order to 
focus the development work on a specific subject or major component of NEMO.


   *Adaptive Grid Refinement In Fortran*, 
   package for the integration of full adaptive mesh refinement features within 
   an existing multidimensional finite difference model

SI\ :sup:`3`\ 
   *Sea Ice Integrated Initiative*, 
   unified sea ice model merging functionalities from CICE, GELATO and LIM into the NEMO framework

   *Ocean Atmosphere Sea Ice Soil*, 
   coupling software to synchronise numerical codes representing different components of the climate system

   *Pelagic Interactions Scheme for Carbon and Ecosystem Studies*, 
   biogeochemical model simulating marine ecosystems, cycles of carbon and the main nutrients

   *Tangent linear and Adjoint Model*, 
   tools to analyse and control the NEMO dynamical core for a wide range of applications such as
   sensitivity analysis, parameter estimation, vectors computation or data assimilation.

   *Tracers in Ocean Paradigm*, 
   on/off-line oceanic tracers transport and biogeochemistry models

   *XML Input Output Server*, 
   library dedicated to input/output management of climate code

.. _AGRIF:
.. _HTML: 
.. _NEMO: 
.. _OASIS:
.. _PDF:  
.. _Special Issue:
.. _Working groups:
.. _XIOS: 
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