| Version 63 (modified by weinreis, 14 years ago) (diff) |
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Masked data output
General
From release 3.7a (r483) output of masked data is implemented in PALM. This feature allows to output quantities at different mask locations, e.g. 3d volume data or 2d cross sections of arbitrary extension within the model domain; 0d or 1d data at any positions and of any amount.
NetCDF4 file format is already available for masked data output.
Default quantities (instantaneous and time averaged) are declared with the parameter data_output_masks, user-defined quantities can be output with data_output_masks_user.
Output steering
Different runtime parameters steers the output of the quantities assigned with data_output_masks and/or data_output_masks_user:
| mask_x | all x-coordinates of mask locations (in multiples of mask scale) |
| mask_y | all y-coordinates of mask locations (in multiples of mask scale) |
| mask_z | all z-coordinates of mask locations (in multiples of mask scale) |
| mask_x_loop | loop begin, end and stride for x-coordinates of mask locations for masks (in multiples of mask scale) |
| mask_y_loop | loop begin, end and stride for y-coordinates of mask locations for masks (in multiples of mask scale) |
| mask_z_loop | loop begin, end and stride for z-coordinates of mask locations for masks (in multiples of mask scale) |
These parameters defines the masks. Each mask can be steered with a separate set of x-, y- and z-parameters. By default all gridpoints along the respective direction are used.
| mask_scale_x | scaling length for masked data output in x-direction |
| mask_scale_y | scaling length for masked data output in y-direction |
| mask_scale_z | scaling length for masked data output in z-direction |
The scaling lengths can be used to scale the parameters which defines the masks (mask_x, mask_y, mask_z, mask_x_loop, mask_y_loop or mask_z_loop). The scaling lengths apply for all masks.
| dt_domask | temporal interval at which instantaneous masked data shall be output (in s) |
| skip_time_domask | no output of masked data before this interval has passed (in s) |
The time intervals of the output times for each mask are determined with dt_domask. Individual time interval for output of temporally averaged data can be assigned using the parameter dt_data_output_av. The length of the averaging interval is controlled with averaging_interval. No particular parameters are existent for steering the time averaged output of each separate mask.
An umlimited amount of different masks can be defined. Each mask is output to one local file:
Instantaneous data of mask 1 are output to file DATA_MASK_01_NETCDF, time averaged data to file DATA_MASK_01_AV_NETCDF.
Instantaneous data of mask 2 are output to file DATA_MASK_02_NETCDF, time averaged data to file DATA_MASK_02_AV_NETCDF.
Instantaneous data of mask 3 are output to file DATA_MASK_03_NETCDF, time averaged data to file DATA_MASK_03_AV_NETCDF.
...
By default 50 different masks can be assigned. The amount of masks is steered with max_masks (=50 by default), which can only be changed in modules.f90. If more than 50 masks are desired, max_masks has to be changed to the corresponding value.
Further assignments
Besides assigning the parameters listed above, the required output files have to be comment out in the mrun-configuration file?:
#---------------------------------------------------------------------------- # List of output-files #---------------------------------------------------------------------------- DATA_MASK_01_NETCDF out:loc ma#:maf $output_data _m01 nc DATA_MASK_01_AV_NETCDF out:loc ma#:maf $output_data _m01_av nc DATA_MASK_02_NETCDF out:loc ma#:maf $output_data _m02 nc DATA_MASK_02_AV_NETCDF out:loc ma#:maf $output_data _m02_av nc #DATA_MASK_03_NETCDF out:loc ma#:maf $output_data _m03 nc #DATA_MASK_03_AV_NETCDF out:loc ma#:maf $output_data _m03_av nc ...
Here output of masks 1 and 2 is done. Masks 3 will not be output even if the parameters are assigned.
Within the mrun call ma# has to be added to the mrun-option -r:
mrun -d example_cbl -h... -r "d3# ma#"
Examples
The following examples are given for the example_cbl run with a model domain size of 2000m x 2000m x 2000m and a resolution of 50.0m.
1. Output of one mask
Mask 1: 3d volume data with an extension of 500m x 200m x 2000m from x = 0m to x = 500m, from y = 800m to y = 1000m and from the bottom to the top of the model domain. Output of instantaneous data of the three wind components.
&inipar
nx = 39, ny = 39, nz = 40,
dx = 50.0, dy = 50.0, dz = 50.0,
.../
&d3par
...
data_output_masks (1,:) = 'u','v','w',
mask_x_loop (1,:) = 0., 500. ,50. ,
mask_y_loop (1,:) = 800., 1000., 50. ,/
If mask_x, mask_y, mask_z or mask_x_loop, mask_y_loop, mask_z_loop are not assigned, all gridpoints are used along the corresponding direction.
Output is done at t = dt_data_output since dt_domask is not assigned.
2. Output of two different masks
Mask 1: xy cross section from x = 500m to x = 1000m and from y = 1000m to 2000m at heights 0m, 50m, 100m, 500m, 1000m and 1200m. Output of instantaneous and time averaged data of the three wind components.
Mask 2: Every second gridpoint in all directions. Output of instantaneous data of the potential temperature.
&inipar
nx = 39, ny = 39, nz = 40,
dx = 50.0, dy = 50.0, dz = 50.0,
.../
&d3par
...
data_output_masks (1,:) = 'u','v','w','u_av','v_av','w_av',
data_output_masks (2,:) = 'pt'
mask_x_loop (1,:) = 500.,1000.,50. ,
mask_y_loop (1,:) = 1000.,2000.,50. ,
mask_z (1,:) = 0.,50.,100.,500.,1000.,1200.,
mask_x_loop (2,:) = 0.,2000.,100.,
mask_y_loop (2,:) = 0.,2000.,100.,
mask_z_loop (2,:) = 0.,2000.,100.,
dt_domask = 600.,1800.,
skip_time_domask = 3600.,3600.,/
Output starts after 1h simulation time (see skip_time_domask) for both masks and is done every 10 minutes for mask 1 and every 30 minutes for mask 2 (see dt_domask).
3. Output of three different masks
Mask 1: 1d data along x-direction at y = 50m, 200m, 500m and 1000m and every fifth grid point in z-dircetion. Output of instantaneous data of the w-velocity component.
Mask 2: Output of the potential temperature at position x = 0m, y = 500m, z = 200m, 300m and 400m.
Mask 3: xz cross section at y = 400m, 450m, 600m. Output of time averaged data of the three wind components.
&inipar
nx = 39, ny = 39, nz = 40,
dx = 50.0, dy = 50.0, dz = 50.0,
.../
&d3par
...
data_output_masks (1,:) = 'w',
data_output_masks (2,:) = 'pt',
data_output_masks (3,:) = 'u_av','v_av','w_av',
mask_y (1,:) = 50., 200., 500., 1000.,
mask_z_loop (1,:) = 0.,2000.,250.,
mask_x (2,:) = 0.,
mask_y (2,:) = 500.,
mask_z_loop (2,:) = 200.,400.,100.,
mask_y (3,:) = 400., 450., 600.,
dt_domask = 1800.,
skip_time_domask = 0.,3600.,3600.,/
Output starts from the beginning for mask 1 and after 1h simulation time (see skip_time_domask) for mask 2 and 3. It is done every 30 minutes for mask 1 and at time intervals of dt_data_output for mask 2 and 3 (see dt_domask).
4. Output of three different masks with scaling length
Mask 1, 2 and 3 as in example 3
&inipar
nx = 39, ny = 39, nz = 40,
dx = 50.0, dy = 50.0, dz = 50.0,
.../
&d3par
...
data_output_masks (1,:) = 'w',
data_output_masks (2,:) = 'pt',
data_output_masks (3,:) = 'u_av','v_av','w_av',
mask_scale_x = 10.0,
mask_scale_y = 10.0,
mask_y (1,:) = 5., 20., 50., 100.,
mask_z_loop (1,:) = 0.,2000.,250.,
mask_x (2,:) = 0.,
mask_y (2,:) = 50.,
mask_z_loop (2,:) = 200.,400.,100.,
mask_y (3,:) = 40., 45., 60.,
dt_domask = 1800.,
skip_time_domask = 0.,3600.,3600.,/
Output starts from the beginning for mask 1 and after 1h simulation time (see skip_time_domask) for mask 2 and 3. It is done every 30 minutes for mask 1 and at time intervals of dt_data_output for mask 2 and 3 (see dt_domask).
Since mask_scale_x and mask_scale_y are assigned, the parameters for steering the mask locations along x- and y-direction (here mask_x and mask_y) has to be given in multiples of mask_scale_x and mask_scale_y.
