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# Leaderboard | ||
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## Long run | ||
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### Add a new variable to compare against observations | ||
Computing errors against observations are all contained in the `leaderboard` folder. The | ||
files in the leaderboard folder are `data_sources.jl` and `leaderboard.jl`. Loading and | ||
preprocessing variables of interest are done in `data_sources.jl` and computing the errors | ||
and plotting are done in `leaderboard.jl`. To add a new variable, you ideally only need to | ||
modify `data_sources.jl`. | ||
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### Computation | ||
As of now, the leaderboard produces bias plots with the global bias and global root mean | ||
squared error (RMSE). These quantities are computed for each month with the first year of | ||
the simulation not considered as that is the spinup time. The start date of the simulation | ||
is 2012 which means that only the year 2013 is used to compare against observational data. | ||
See the plots below for what this look like. | ||
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![bias_with_custom_mask_plot](./leaderboard/images/global_rmse_and_bias_graphs.png) | ||
![gpp_bias_plot](./leaderboard/images/gpp_bias_plot.png) | ||
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### Add a new variable to the bias plots | ||
There are four dictionaries that you need to modify to add a new variable which are | ||
`sim_var_dict`, `obs_var_dict`, `mask_dict`, and `compare_vars_biases_plot_extrema`. | ||
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To add a variable for the leaderboard, add a key-value pair to the dictionary `sim_var_dict` | ||
whose key is the short name of the variable and the value is a function that returns a | ||
[`OutputVar`](https://clima.github.io/ClimaAnalysis.jl/dev/var/). Any preprocessing is done | ||
in the function which includes unit conversion and shifting the dates. | ||
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```julia | ||
sim_var_dict["et"] = | ||
() -> begin | ||
# Load in variable | ||
sim_var = get( | ||
ClimaAnalysis.SimDir(diagnostics_folder_path), | ||
short_name = "et", | ||
) | ||
# Shift to the first day and subtract one month as preprocessing | ||
sim_var = | ||
ClimaAnalysis.shift_to_start_of_previous_month(sim_var) | ||
return sim_var | ||
end | ||
``` | ||
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Then, add a key-value pair to the dictionary `obs_var_dict` whose key is the same short name | ||
as before and the value is a function that takes in a start date and returns a `OutputVar`. | ||
Any preprocessing is done in the function. | ||
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```julia | ||
obs_var_dict["et"] = | ||
(start_date) -> begin | ||
# We use ClimaArtifacts to use a dataset from ILAMB | ||
obs_var = ClimaAnalysis.OutputVar( | ||
ClimaLand.Artifacts.ilamb_dataset_path(; | ||
context = "evspsbl_MODIS_et_0.5x0.5.nc", | ||
), | ||
"et", | ||
# start_date is used to align the dates in the observational data | ||
# with the simulation data | ||
new_start_date = start_date, | ||
# Shift dates to the first day of the month before aligning the dates | ||
shift_by = Dates.firstdayofmonth, | ||
) | ||
# More preprocessing to match the units with the simulation data | ||
ClimaAnalysis.units(obs_var) == "kg/m2/s" && | ||
(obs_var = ClimaAnalysis.set_units(obs_var, "kg m^-2 s^-1")) | ||
# ClimaAnalysis cannot handle `missing` values, but does support handling NaNs | ||
obs_var = ClimaAnalysis.replace(obs_var, missing => NaN) | ||
return obs_var | ||
end | ||
``` | ||
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!!! tip "Preprocessing" | ||
Observational and simulational data should be preprocessed for dates and units. For | ||
simulation data, monthly averages correspond to the first day following the month. | ||
For instance, the monthly average corresponding to January 2010 is on the date | ||
2/1/2010. Preprocessing is done to shift this date to 1/1/2010. When preprocessing | ||
data, we follow the convention that the first day corresponds to the monthly average | ||
for that month. For observational data, you should check the convention being followed | ||
and preprocess the dates if necessary. | ||
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For `obs_var_dict`, the anonymous function must take in a start date. The start date is | ||
used in `leaderboard.jl` to adjust the seconds in the `OutputVar` to match between start | ||
date in the simulation data. | ||
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Units should be the same between the simulation and observational data. | ||
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Next, add a key-value pair to the dictionary `mask_dict` whose key is the same short name | ||
as before and the value is a function that takes in a `OutputVar` representing simulation | ||
data and a `OutputVar` representing observational data and returns a masking function or | ||
`nothing` if no masking function is needed. The masking function is used to correctly | ||
normalize the global bias and global RMSE. See the example below where a mask is made using | ||
the observational data. | ||
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```julia | ||
mask_dict["et"] = | ||
(sim_var, obs_var) -> begin | ||
return ClimaAnalysis.make_lonlat_mask( | ||
# We do this to get a `OutputVar` with only two dimensions: | ||
# longitude and latitude | ||
ClimaAnalysis.slice( | ||
obs_var, | ||
time = ClimaAnalysis.times(obs_var) |> first, | ||
); | ||
# Any values that are NaN should be 0.0 | ||
set_to_val = isnan, | ||
true_val = 0.0 | ||
) | ||
end | ||
``` | ||
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Finally, add a key-value pair to the dictionary `compare_vars_biases_plot_extrema` whose | ||
key is the same short name as before and the value is a tuple of floats which determine | ||
the range of the bias plots. | ||
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```julia | ||
compare_vars_biases_plot_extrema = Dict( | ||
"et" => (-0.00001, 0.00001), | ||
"gpp" => (-8.0, 8.0), | ||
"lwu" => (-40.0, 40.0), | ||
) | ||
``` |
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