Kinematic 1D driver
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KinematicDriver.jl is a Julia registered package.
See the Project.toml
for a full list of dependencies.
When using the KinematicDriver.jl,
the easiest way to obtain the package dependencies
is to use the Julia built-in package manager
(accessed by pressing ] in the Julia REPL):
julia --project
julia> ]
pkg> instantiateAdditional dependencies related to plotting and NetCDF output are
included in the test environment.
See the Pkg docs
for an overview of basic package manager features.
The KiD_driver.jl inside test/experiments/KiD_driver folder is
the main file for running the simulations.
It accepts some command line arguments,
see the --help for details.
julia --project=test/ test/experiments/KiD_driver/KiD_driver.jl --helpAn example command to run the Kid_driver.jl from terminal:
julia --color=yes --project=test test/experiments/KiD_driver/KiD_driver.jl --moisture_choice=NonEquilibriumMoisture --precipitation_choice=Precipitation1MTo run KiD_driver.jl interactively, open julia --project=test and run:
include("test/experiments/KiD_driver/parse_commandline.jl")
# Set arguments
config = parse_commandline()
config["FLOAT_TYPE"] = "FLOAT32"
config["moisture_choice"] = "EquilibriumMoisture"
include("test/experiments/KiD_driver/KiD_driver.jl")In addition to simulating the 1D rainshaft, KinematicDriver.jl provides tools for calibrating microphysics parameters against available data. The main program for running calibrations is given inside test/experiments/calibrations folder. This program is accompanied by the config.jl file that defines all the settings for the dynamics, observations, optimization process, and parameters to be calibrated. To run calibrations of microphysics schemes by using KinematicDriver the config.jl file needs to be adjusted. Then the program can be called from terminal:
julia --color=yes --project=test test/experiments/calibrations/run_calibrations.jl