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A tool for converting CESM time-series output into CMIP6 standard time-series.

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PyConform

A package for transforming a NetCDF dataset into a defined format suitable for publication according to a defined publication standard.

AUTHORS:Sheri Mickelson, Kevin Paul
COPYRIGHT:2020, University Corporation for Atmospheric Research
LICENSE:See the LICENSE.rst file for details

Send questions and comments to Kevin Paul ([email protected]) or Sheri Mickelson ([email protected]).

Overview

The PyConform package is a Python-based package for converting model time-series data into MIP-conforming (i.e., standardized) time-series data. It was designed for CMIP6 specifically for NCAR's CESM CMIP6 workflow, but we attempted to design the code in a way that is general purpose. PyConform attempts to divide the standardization problem specification step into two separate pieces:

  1. a specification of the standard, and
  2. a specification of the conversion process.

This separate was created to allow the standard to be defined by (for example) the MIP designers and the conversion process to be defined by the model developers (i.e., scientists). For CMIP6, we used the dreqpy utility to define the standard, and the scientists then just needed to provide one-line definitions for how to convert the raw CESM data into the requested standardized output.

Currently, the main considerations that need to be made when creating definitions are the following:

  1. physical units will be converted automatically, if possible according to the cf_units package,
  2. the dimensions of the resulting data variable produced by the definition operation must be mappable to requested dimensions specified in the standard, and
  3. special operations/computations that are not supplied with PyConform in the functions module may need to be written by hand and called explicitly in the output variable definition.

Warning

PyConform should only be used with caution! As mentioned, it was created specifically for NCAR's contributions to CMIP6. PyConform is not designed to fix problems with your input data, and as such is completely incapable of detecting many problems with your data! (That is, "garbage in, garbage out!")

The core part of PyConform was designed and implemented before a full understanding of the requirements could be obtained. Full testing of PyConform could not be done without knowing what all of the input (i.e., model output) data would look like! And, to make matters more difficult, the specification utility that PyConform depends upon (dreqpy) took quite a while to stabilize. As a result, much of PyConform's testing had to be done on-the-fly.

Warning

Deprecation: With the completion of CMIP6, this project is essentially deprecated. Much of the operations and core functionality of this tool can be reproduced in a much more robust way with Xarray. The parallelism provided via MPI in PyConform can be handled in a much better way with Dask, which already works with Xarray. It is our belief that this utility should be replaced in the future by a framework built on Xarray and Dask, but due to resource limitations, we cannot build that tool. We would certainly welcome any others to take on that challenge!

Dependencies

The PyConform package directly depends upon 4 main external packages:

  • ASAPTools (>=0.6)
  • cf-units
  • dreqpy
  • netCDF4-python
  • ply
  • python-dateutil

These dependencies imply the dependencies:

  • numpy (>=1.5)
  • netCDF4
  • MPI
  • UDUNITS2

Additionally, the entire package is designed to work with Python v2.7 and up to Python v3.8.

The version requirements have not been rigidly tested, so earlier versions may actually work. No version requirement is made during installation, though, so problems might occur if an earlier versions of these packages have been installed.

Obtaining the Source Code

Currently, the most up-to-date development source code is available via git from the site:

https://github.com/NCAR/PyConform

Check out the most recent stable tag. The source is available in read-only mode to everyone. Developers are welcome to update the source and submit Pull Requests via GitHub.

Building & Installing from Source

Installation of the PyConform package is very simple. After checking out the source from the above svn link, via:

$ git clone https://github.com/NCAR/PyConform

Enter the newly cloned directory:

$ cd PyConform

Then, run the Python setuptools setup script. On unix, this involves:

$  python setup.py install [--prefix=/path/to/install/location]

The prefix is optional, as the default prefix is typically /usr/local on linux machines. However, you must have permissions to write to the prefix location, so you may want to choose a prefix location where you have write permissions. Like most distutils installations, you can alternatively install the PyReshaper with the '--user' option, which will automatically select (and create if it does not exist) the $HOME/.local directory in which to install. To do this, type (on unix machines):

$  python setup.py install --user

This can be handy since the site-packages directory will be common for all user installs, and therefore only needs to be added to the PYTHONPATH once.

The documentation for PyConform is hosted on GitHub Pages.

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A tool for converting CESM time-series output into CMIP6 standard time-series.

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