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pySPEEDY is a fork of the SPEEDY.f90 atmospheric model written by Sam Hatfield that uses a python interface for running and controlling the SPEEDY.f90 model. SPEEDY.f90 model is a modern Fortran implementation of the intermediate complexity atmospheric general circulation SPEEDY model, developed by Fred Kucharski, Franco Molteni, and Martin P. K…

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pySPEEDY

What is pySPEEDY?

pySPEEDY is a fork of the SPEEDY.f90 atmospheric model written by Sam Hatfield that uses a python interface for running and controlling the SPEEDY.f90 model.

The SPEEDY.f90 is a modern Fortran implementation of the intermediate complexity atmospheric general circulation SPEEDY model, developed by Fred Kucharski, Franco Molteni, and Martin P. King.

Documentation

Check the latest documentation of the project here.

Run you first SPEEDY forecast

Try pySPEEDY in a Google Colab interactive environment here

What are the differences between pySPEEDY and SPEEDY.f90?

The pySPEEDY model is built on top of the SPEEDY.f90. However, to control the SPEEDY.f90 model from python, the original SPEEDY.f90 code was considerably refactored to make it thread-safe and allow multiples instances of the Speedy model to run in parallel.

Perhaps the most significant change is the encapsulation of all the model state variables in a Fortran data type, called ModelState_t, and the use of the jinja template engine to generate the model state declarations and the python interface.

Additionally, to expose the state variables to python and facilitate memory management, pySPEEDY uses variable registry (the registry/model_state_def.py file) to define all the state variables. These changes were inspired by the "grid" data type and the registry used by the Weather Research and Forecasting (WRF) model for managing the state variables.

The pySPEEDY variable registry and the Jinja template engine are used to generate the necessary Fortran sources for defining the model state, the allocation/deallocation functions, and the python interface. One of the reasons to use programmatic generation of the sources is to facilitate the maintenance of the code.

Another important element regarding the python interface is how python communicates back and forth with Fortran. The interface mostly build using the F2PY–Fortran to Python interface generator. However, since F2PY does not support derived data types like the one used in the Model State, the variables contained in the Model State were exposed using the "container" approach described in Pletzer et al., 2008.

Finally, to allow running different instances of the speedy model in parallel, each Speedy instance was made self-contained. That means that all the variables needed to run the model are contained inside the "Model State". To make each model instance self-contained, all the global variables defined across the modules were removed and moved to the ModelState_t structure. This was done in two parts. First, the model state variables were directly added as attributes in the ModelState_t structure. The other change was encapsulating the Legendre, Fourier, Spectral, Diffusion, Geometry, and Implicit Fortran modules into a Fortran data type and add an instance of each module to the model state.

Example gallery

Check this example gallery with examples using pySPEEDY.

Installation

Dependencies

The following dependencies are needed to build and install the package:

  • Netcdf libraries (libnetcdf and libnetcdff)
  • numpy
  • jinja2
  • gfortran

To run pySPEEDY, you also need:

  • xarray
  • netCDF4
  • matplotlib (examples)
  • cartopy (examples)

Install the latest version from git

To install the latest development version in the main branch, run:

pip install -v -U git+https://github.com/aperezhortal/pySPEEDY.git

Installation from sources

To install the pySPEEDY model, you need jinja2 and numpy installed already in your system. To install the package from source:

# Clone the repo
git clone https://github.com/aperezhortal/pySPEEDY.git

If needed, specify the location of the NETCDF library (/usr by default). and the compilation mode for the SPEEDY.f90 model ("default", "profile", "debug"):

# Optional, specify the location of the NETCDF library
# Default value: /usr
export NETCDF=/usr

# Optional, specify the compilation mode.
# Default value: default
export SPEEDY_TARGET=default

# Install the package
pip install -v -e ./pySPEEDY

The "-e" option install the package in "editable" mode. This will leave the compiled extensions inside the source folder after the installation.

Runtime dependencies

These are the minimal dependencies needed to run pySPEEDY:

  • numpy
  • xarray
  • python-dateutil

About

pySPEEDY is a fork of the SPEEDY.f90 atmospheric model written by Sam Hatfield that uses a python interface for running and controlling the SPEEDY.f90 model. SPEEDY.f90 model is a modern Fortran implementation of the intermediate complexity atmospheric general circulation SPEEDY model, developed by Fred Kucharski, Franco Molteni, and Martin P. K…

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