10.25380/iastate.11354111.v1
Christian Helanow
Christian
Helanow
Neal Iverson
Neal
Iverson
Lucas Zoet
Lucas
Zoet
Olivier Gagliardini
Olivier
Gagliardini
Data supporting "Sliding relations for glacier slip with cavities over three-dimensional beds"
Iowa State University
2019
Glaciology
Glacier sliding
Glacier dynamics
Numerical modeling
Glaciology
Numerical Computation
2019-12-13 22:36:01
Dataset
https://iastate.figshare.com/articles/dataset/Data_supporting_Sliding_relations_for_glacier_slip_with_cavities_over_three-dimensional_beds_/11354111
<div><div><p>This data
supports the paper “Sliding relations for glacier slip with cavities
over three-dimensional beds” (Geophysical Res. Lett. Paper
2019GL084924RR) by C. Helanow, N. Iverson, L. Zoet and O. Gagliardini.</p>
</div><div><p>The data consists of numerical
values for the variables used in equation 7 of the main paper to produce the
graphs plotted in figures 1b, 2b and 3 and figures S1 and S2 in the
supplementary information. Additionally the functions used to create the
bed topographies are provided in the form of Fortran functions.</p>
</div><div><p>The files and directories are:</p>
</div><div><ul><li><code>data/</code></li><li><code>read_and_print_data.py</code></li><li><code>data_print_output.txt</code></li><li><code>bed_functions.F90</code></li></ul>
</div><div><h2><code>data/</code></h2>
</div><div><p>Contains the data in a set of python dictionaries saved in JSON format (<code>.json</code>). The naming of the files follows the terminology of the main paper. For the repository this directory is zipped (<code>.zip</code>) and needs to be unzipped before the python script is executed.</p>
</div><div><h2><code>read_and_print_data.py</code></h2>
</div><div><p>A python script that reads (loads) the data contained <code>data/</code> and prints it onto the screen. Run as</p>
</div><div><pre><code>python read_and_print_data.py
</code></pre>
</div><div><p>If run interactively, the
script contains functions to explicitly load data and scale it accoring
to equation 7 in the main paper.</p>
</div><div><h2><code>data_print_output.txt</code></h2>
</div><div><p>A text file containing the output of <code>read_and_print_data.py</code> (i.e. what is printed on the screen when executed).</p>
</div><div><h2><code>bed_functions.F90</code></h2>
</div><div><p>A Fortran file containing the
functions used for the bed topographies in the main paper. Note that
these functions use Fortran modules that are specific to Elmer/Ice and
cannot be used stand alone.</p>
</div><div><pre><code>python read_and_print_data.py
</code></pre>
</div><div><p>If run interactively, the
script contains functions to explicitly load data and scale it according
to equation 7 in the main paper.</p>
</div><div><h2><code>data_print_output.txt</code></h2>
</div><div><p>A text file containing the output of <code>read_and_print_data.py</code> (i.e. what is printed on the screen when executed).</p>
</div><div><h2><code>bed_functions.F90</code></h2>
</div><div><p>A Fortran file containing the
functions used for the bed topographies in the main paper. Note that
these functions use Fortran modules that are specific to Elmer/Ice and
cannot be used stand alone.</p>
</div></div>