K MODEL.DAT: Difference between revisions
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|name_de=K_MODEL.DAT | |name_de=K_MODEL.DAT | ||
|filetype=k_model.dat | |filetype=k_model.dat | ||
|version= | |version=8.x / January 2015 | ||
|version_descr= | |version_descr=January 2015 | ||
|significance=contains specific input data related to the software package (k-model). | |significance=contains specific input data related to the software package (k-model). | ||
|filecontents= | |filecontents= | ||
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## key '''"Integrated_Data_Output"''' prescribes '''initial date and time, final date and time''' as well as the '''time step''' to store '''integral wave data''' in BAW-specific data formats. | ## key '''"Integrated_Data_Output"''' prescribes '''initial date and time, final date and time''' as well as the '''time step''' to store '''integral wave data''' in BAW-specific data formats. | ||
## key '''"Spectral_Data_Output"''' prescribes '''initial date and time, final date and time''' as well as the '''time step''' to store '''wave spectra''' in BAW-specific data formats. | ## key '''"Spectral_Data_Output"''' prescribes '''initial date and time, final date and time''' as well as the '''time step''' to store '''wave spectra''' in BAW-specific data formats. | ||
## key '''"Integrated_Data_Output_Nc"''' prescribes '''initial date and time, final date and time''' as well as the '''time step''' to store '''integral wave data''' for a NetCDF file in BAW-specific data formats. | |||
# block '''Output_Files''' with '''names''' and '''types''' for the different BAW-specific data files: | # block '''Output_Files''' with '''names''' and '''types''' for the different BAW-specific data files: | ||
## key '''"Integrated_Data_File"''' contains the '''file name''' as well as the '''file type (BDF)''' to store integral wave parameters (filetypes [[DIRZ.BIN.R|dirz.bin.r]], | ## key '''"Integrated_Data_File"''' contains the '''file name''' as well as the '''file type (BDF)''' to store integral wave parameters (filetypes [[DIRZ.BIN.R|dirz.bin.r]], | ||
##: [[DIRZ.BIN.I|dirz.bin.i]] and [[DIRZ.BIN|dirz.bin]]). | ##: [[DIRZ.BIN.I|dirz.bin.i]] and [[DIRZ.BIN|dirz.bin]]). | ||
## key '''"Spectral_Data_File"''' contains the '''file name''' as well as the '''file type (NETCDF)''' to store spectral wave data (filetype [[NETCDF.CDF|netcdf.cdf]]). | ## key '''"Spectral_Data_File"''' contains the '''file name''' as well as the '''file type (NETCDF)''' to store spectral wave data (filetype [[NETCDF.CDF|netcdf.cdf]]). | ||
## key '''"Integrated_Data_File_Nc"''' contains the '''file name''' as well as the '''file type (NetCDF)''' to store integral wave parameters in [[CF-NETCDF.NC|UGRID- and CF-compliant NetCDF files]]. | |||
# block '''Output_Data''' for '''steering the amount of data output:''' | # block '''Output_Data''' for '''steering the amount of data output:''' | ||
## key '''"Wave_Data"''' to switch on or off '''output of wave data'''; | ## key '''"Wave_Data"''' to switch on or off '''output of wave data'''; |
Revision as of 15:06, 12 January 2015
Basic Information
File-Type
k_model.dat
File-Form
FORMATTED
Version
8.x / January 2015
Description-Date
January 2015
Significance of the File
contains specific input data related to the software package (k-model).
File-Contents (in Catchwords)
- block Test_Output to specify the level of datail for test output:
- key "Level" to steer the level of detail for test output with allowed values None, Low, Moderate, Medium, High and Extreme.
- block Start_Restart_Specifications different informations related to initial state:
- key "Cold_Start" with possible values Yes or No :
- if Yes, initial state will be constructed from data given in block Initial_Spectra; ;
- if No, initial data will be read from previously generated files
- BLFYYYYMMDDhhmmss and
- LAFYYYYMMDDhhmmss.
- These files must be available at start time YYYYMMDDhhmmss in the local working directory.
- key "Restart_Output_Timestep" with time step for output of restart files
- BLFYYYYMMDDhhmmss und
- LAFYYYYMMDDhhmmss.
- Restart files can be used in a later run to read the initial state from file.
- key "Cold_Start" with possible values Yes or No :
- block Initial_Spectra for a more detailed description of the initial state if Cold_Start=Yes was chosen:
- key "Type_Of_Spectra" describes the type of initial spectrum used; the following options exist:
- "Energy_Equal_Zero": no waves present;
- "Wind_Independent": wind-independent spectrum, which will be computed from subsequent spectra parameters;
- "Wind_Dependent": wind-dependent spectrum, which is computed from the subsequently given fetch length as well as the local wind speed valid at start time.
- key "Phillips_Parameter", to be computed using program WESPE;
- key "Peak_Frequency", to be computed using program WESPE;
- key "Overshoot_Factor", to be computed using program WESPE;
- key "Left_Peak_Width", to be computed using program WESPE;
- key "Right_Peak_Width", to be computed using program WESPE;
- key "Wave_Direction", direction, towards which the waves are travelling, e.g. North (0.0 deg) or East (90.0 deg);
- key "Fetch", fetch length in (m).
- key "Type_Of_Spectra" describes the type of initial spectrum used; the following options exist:
- block Timestep_For_Integration contains different time step data:
- key "Propagation_Timestep", time step for propagation of waves, as well as depth- and current refraction; if the user-prescribed time
- step violates the CFL-condition, the time step will be halved as often as necessary to fulfill the CFL-condition and therefore an emergency
- stop of the running program will no longer occur; the time step used internally will never be larger than the one prescribed by the user;
- key "Source_Timestep", time step for sources and sinks (wind, nonlinear dissipation, dissipation due to bottom interaction);
- key "Ratio_Propagation_Refraction", integer number to describe the ratio between sub steps for propagation and refraction.
- key "Propagation_Timestep", time step for propagation of waves, as well as depth- and current refraction; if the user-prescribed time
- block Options with steering data for consideration of time- and space-varying water depth as well as current velocity and computation of radiation
- stress as well as various steering parameters for interpolation of boundary values as well as computational results between different grids:
- key "Depth_Option" to describe the influence of water depth:
- Deep_Water: deep water approximation;
- Time_Variable_Depth: transient water depth
- key "Current_Option" to describe the influence of current velocity:
- No_Current: no influence due to currents;;
- Time_Variable_Current: transient cuurrent velocity
- key "Radiation_Option" to trigger computation of radiation stress terms:
- No_Radiation_Stress: radiation stress terms will not be computed;
- With_Radiation_Stress: radiation stress terms will be computed;
- (optional) key "Import_Max_Radius" to prescribe the max. (search) radius in meters during import of data (interpolation of water level as
- well as current velocity onto the grid of the wave model); if this key is not present, a radius of 2000.0 m will be used.
- (optional) key "Import_Min_Nearest" to prescribe the minimum number of required interpolation points during import of data; for
- every computational point of the wave model within a distance of "Import_Max_Radius" a minimum number of data points with given water
- level an current velocity must be available; if this key is not prescribed, 3 interpolation points are going to be used.
- (optional) key "Export_Max_Radius" to prescribe the max. (search) radius in meters during export of data (interpolation of wave model results onto the
- grid for water level as well as current velocity); if this key is not present, a radius of 2000.0 m will be used.
- (optional) key "Export_Min_Nearest" to prescribe the minimum number of required interpolation points during export of data; for
- every point of the computational grid for water level and current velocity (e.g. computational grid of a coupled hydrodynamic numerical model)
- within a distance of "Export_Max_Radius" a minimum number of data points with wave model results must be available; if this key is not
- prescribed, 3 interpolation points are going to be used.
- block Wave_Discretisation gives the discretisation of the wave spectrum:
- key "Nof_Wave_Numbers" prescribes the number of discrete wave numbers or frequencies used;
- key "Nof_Wave_Directions" prescribes the number of discrete wave directions used;
- key "Lowest_Wave_Number" determines the smallest wave number of the discrete spectrum.
- block Output_Times_And_Timesteps contains different informations relatated to output of computed results in different BAW- as well as GKSS-specific formats:
- key "Intrinsic_Data_Timestep" gives the time steps for data output in GKSS-specific formats; the results are stored in
- MAPYYYYMMDDhhmmss (integral wave data) and
- OUTYYYYMMDDhhmmss (spectral wave data).
- key "Integrated_Data_Output" prescribes initial date and time, final date and time as well as the time step to store integral wave data in BAW-specific data formats.
- key "Spectral_Data_Output" prescribes initial date and time, final date and time as well as the time step to store wave spectra in BAW-specific data formats.
- key "Integrated_Data_Output_Nc" prescribes initial date and time, final date and time as well as the time step to store integral wave data for a NetCDF file in BAW-specific data formats.
- key "Intrinsic_Data_Timestep" gives the time steps for data output in GKSS-specific formats; the results are stored in
- block Output_Files with names and types for the different BAW-specific data files:
- key "Integrated_Data_File" contains the file name as well as the file type (BDF) to store integral wave parameters (filetypes dirz.bin.r,
- dirz.bin.i and dirz.bin).
- key "Spectral_Data_File" contains the file name as well as the file type (NETCDF) to store spectral wave data (filetype netcdf.cdf).
- key "Integrated_Data_File_Nc" contains the file name as well as the file type (NetCDF) to store integral wave parameters in UGRID- and CF-compliant NetCDF files.
- key "Integrated_Data_File" contains the file name as well as the file type (BDF) to store integral wave parameters (filetypes dirz.bin.r,
- block Output_Data for steering the amount of data output:
- key "Wave_Data" to switch on or off output of wave data;
- key "Sea_Data" to switch on or off output of sea data;
- key "Swell_Data" to switch on or off output of swell data.
- block Open_Boundary_Data with auxilary informations to compute the wave spectrum along open model boundaries:
- key "Fetch_Length" with different wind wave direction dependent fetch lengths (in km) which will be used to determine the boundary spectrum.
- block Area_To_Be_Printed with geometric informations concerning the printer output of results within a tile of the computational domain:
- Key "First_X": coordinate for the left boundary;
- Key "Last_X": coordinate for the right boundary;
- Key "First_Y": coordinate for the bottom boundary;
- Key Key "Last_Y": coordinate for the top boundary;
- Key "X_Increment": grid size in x-direction;
- Key "Y_Increment": grid size in y-direction
- (optional) block Input_Files with several additional input files:
- (optional) key "Specific_Locations" : name and type of file location.dat, with definition of one or several locations for wave spectra
- output, using the format of file geopos.dat to describe an individual location;
- (optional) key "Alternative_Grid_File" : name and type (GITTER05, UNTRIM_BAW) of a file with an alternative computational grid (filetype untrim_grid.dat or gitter05.dat/bin), on which the wave spectrum shall be computed.
- (optional) key "Specific_Locations" : name and type of file location.dat, with definition of one or several locations for wave spectra
Notice:
- dictionary-file k_model_dico.dat, usually present in directory $PROGHOME/dic/, will be automatically read by the application program in addition to the user-specified
- input file.
Programs using this Type of File
Example-File
please refer to $PROGHOME/examples/unk/k_model.dat
back to: File Descriptions