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Coordination

Latest update : 6 March 2018.


Subsections

  • Meetings
  • Developments to be included in future versions
  • Preparation of the new versions of SURFEX
  • General presentation

  • Coordination

    • Meetings
    • Developments to be included in future versions
    • Preparation of the new versions of SURFEX
  • Get the code and browser

    • The versions management tool Subversion (SVN)
    • The versions management tool GIT
  • Scientific documentation

  • Technical documentation

    • General considerations
    • Rules of coding
    • About DR_HOOK
    • About the types from Surfex V8.0
  • Versions documentation

    • Surfex v9_0
    • Surfex V8_1
      • Novelties in V8_1
      • Practical changes
    • Surfex v8_0
    • Surfex v7_3
    • Surfex v7_2
    • Surfex v7.1
  • User’s guide

    • 1. How to install the software
    • 2. Overview of the externalized surface sequence
      • 2.2. The atmospheric models using the externalized surface
        • 2.2.1. In offline mode
        • 2.2.2. in MESONH
    • 3. Off-line Guide
      • 3.2. Forcing files
      • 3.3. One example of off-line surfex application
        • 3.3.1. netcdf format file
        • 3.3.2. ascii format files
      • 3.4. Some output of off-line simulation
    • 4. The physiographic fields
      • 4.1. Choice of the surface schemes
      • 4.2. Definition of the grid
        • 4.2.1. Choice of the grid type
        • 4.2.2. Conformal projection grids (Mercator, Lambert, Polar stereographic)
        • 4.2.3. Cartesian grids
        • 4.2.4. Longitude-latitude grids
        • 4.2.5. Regular Lambert grids
        • 4.2.6. Gaussian grids
      • 4.3. Orography, subgrid orography gaussian indices and bathymetry
      • 4.4. Land cover data
        • 4.4.1. Choice of the type of land cover data
        • 4.4.2. ECOCLIMAP is used
        • 4.4.3. some land cover data fields are defined by user
      • 4.5. Specificities of ECOCLIMAP II classification
      • 4.6. Namelist to add user's own fields
      • 4.7. Namelist for chemistry anthropogenic emissions
    • 5. Initialization of the prognostic fields
      • 5.2. Date initialization and default input data file for all schemes
      • 5.3. Sea scheme "SEAFLX"
      • 5.4. Lake scheme "WATFLX"
      • 5.5. Lake scheme "FLAKE"
      • 5.6. Vegetation scheme "ISBA "
      • 5.7. Town scheme "TEB "
    • 6. How to run the externalized surface physical schemes
      • 6.1. "SURF_ATM" general options available over all tiles
      • 6.2. "SEAFLX" sea scheme options
      • 6.3. "WATFLX" inland water scheme options
      • 6.4. "FLAKE" lake scheme options
      • 6.5. "ISBA " vegetation scheme options
      • 6.6. "TEB" town scheme options
      • 6.7. "IDEAL" ideal flux scheme options
      • 6.8. Coupling with TRIP model
      • 6.9. Coupling with TOPMODEL
    • 7. How to run the externalized surface chemical schemes
      • 7.1. Chemical settings control
      • 7.2. Chemical anthropogenic emissions
      • 7.3. Chemical deposition over ocean
      • 7.4. Chemical deposition over lakes
      • 7.5. Chemical deposition over towns
      • 7.6. Chemical deposition and biogenic emissions over vegetation
      • 7.7. Chemical aerosol scheme (ORILAM)
    • 8. Externalized surface diagnostics
      • 8.1. Diagnostics relative to the general surface monitor
      • 8.2. Diagnostics relative to the general surface monitor and to each surface scheme
      • 8.3. Diagnostics relative to the ISBA vegetation scheme
      • 8.4. Diagnostics relative to the TEB town scheme
      • 8.5. Diagnostics relative to the FLAKE scheme
      • 8.6. Diagnostics relative to the sea
    • 9. Externalized surface model output fields
      • 9.3. Physiographic fields
      • 9.1. Prognostic model output fields
      • 9.2. Diagnostic model output fields
    • 10. Data assimilation
      • 10.1 Interface and usage
      • 10.2 Sea
      • 10.3 Inland water
      • 10.4 Nature
        • 10.4.2.1 ISBA: OI soil assimilation
        • 10.4.2.2 ISBA: EKF soil assimilation
        • 10.4.2.3 ISBA: ENKF soil assimilation.
      • 10.5 Town
    • 11. Coupling with OASIS-MCT
  • Physiographic maps

  • Various tools

    • Converting SRTM 90 .tiff to .dir file
    • How to use EPyGrAM to plot the SURFEX OFFLIN outputs?
  • The STRATO tests base

    • Contents of the base (summary)
  • Training courses

  • Contact us

  • Useful links

  • Workshops

    • Journées Techniques Montagne
    • LAKE Workshop
    • Seminars
    • SURFEX Users Workshops
2011-2023  — SURFEX (Cnrm)

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