SPINS MATLAB tools

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Many versatile MATLAB functions have been written to easily read and analyze SPINS outputs. They are accessible for use on Belize and Boogaloo, and can also be pulled from github at https://github.com/ddeepwel/SPINSmatlab.git.

The main functionality is:

  • parse spins.conf file into a matlab structure
  • automatic calculation of secondary grid parameters (spacing, expansion type, ...)
  • easy reading of grid
  • easy cross-sectional plotting
  • plotting of spins diagnostics
  • functions for calculating characteristics (amplitude, wavelength) of waves
  • SPINS resize

See David Deepwell (ddeepwel@uwaterloo.ca) or the github page for more information on usage, making bug reports, or suggesting other options or functions to add.

SPINSmatlab has a host of useful functions. Some are very general, while some are specialized. Below is a list of every function included in SPINSmatlab (as of October 2021), as well as a short description of what the function does. In parentheses is the directory in which the described script is located.

Following the description of the scripts, a list of "MUST KNOW" scripts is included. These scripts are the most widely used on the day-to-day and fluency in them is imperative to a smooth workflow. Many of these codes rely on the spins.conf, so ensure that the working directory contains it. For this software to work wherever the user needs it, include a file called startup.m in your ~/Documents/MATLAB folder (on Unix based systems). A sample startup.m file is included below.

sm_loc = genpath('<path to wherever you installed SPINSmatlab>');
addpath(sm_loc);
% remove all hidden subdirectories
all_subs =  strsplit(sm_loc,':');
for ii = 1:length(all_subs)
	    if ~isempty(strfind(all_subs{ii},'.')) 
	        rmpath(all_subs{ii});
	    end
end
% clean work space
clear all


Reading in parameters from the spins.conf

Reading in parameters from the spins.conf takes place in two steps. The first is to generate a MATLAB structure containing all the parameters from the spins.conf. This is done by writing params = spins_gridparams(). The output params is a structure containing all of the parameters from the spins.conf.

The second step is to access the variables within the structure params and recast then as workspace variables. This is done by writing par2var(params). Now, all parameters from the spins.conf can be accessed as MATLAB variables. To learn more about the size and datatype of each parameter, type whos in the MATLAB command window.


spins_reader()

spins_reader() is the function one uses to read in SPINS output into a MATLAB array. The basic functionality comes rom specifying the field name as a character vector, as well as the output index. As an example, if one would like to import the file rho.14 (i.e. the density field at the 14th output), they could write my_rho = spins_reader('rho',14).

For larger datasets, it is often impractical to load the entire dataset into MATLAB. To this end, the user can specify certain subsets of the data they wish to import. This is done by specifying index ranges in the dimension (xrange), dimension (yrange), and/or dimension (zrange). Each of the range arguments take an index or set of indices and return the field values at those indices. To access this functionality, one could write my_rho = spins_reader('rho',14,xstart:xend,y_slice_ind,[]). For the dimension, a custom range of indices beginning at xstart and ending at xend was used. For the dimension, the field was sliced at a single location indicated by y_slice_ind. Finally, the entire dimension was imported by using [].

If data is two-dimensional, accessing custom subsets of the data is done by ignoring the fifth argument. When only four arguments are supplied, spins_reader() assumes that the data only has an and dimension and no dimension.


plot_diagnos()

plot_diagnos() is the function used to parse and plot data from diagnostics.txt (a text file containing certain information about a simulation saved at every iteration). Entering info = plot_diagnos() saves the information from the diagnostics.txt in a MATLAB structure called info, and plots several figures with information pertaining to the simulation. To suppress the plots, enter diagnos = plot_diagnos(false).

The MATLAB structure info contains several structures within it, each holding related information. They are diagnos, Scales, EnergyBudget, EnergyRates, and Mixing.

Scales holds information on the Kolmogorov and Batchelor scales of the simulation.

Mixing contains information pertaining to mixing (efficiency, cumulative efficiency, and coefficients).

EnergyBudget contains information about the energy reservoirs in the flow. Information on total, kinetic, available, and available potential energy are found here. (cite winters) Additionally, information on the total energy exchange between different reservoirs is contained here.

EnergyRate contains information about the rate of energy exchange between the reservoirs in the flow.

diagnos is a catch-all, and should be used as a first order assessment of the dynamics. It holds timing information, domain averaged quantities such as kinetic energy, enstrophy, and dissipation, and maximum quanities. It also hold diagnostics such as total mass and maximum density, which can be used to quickly assess whether or not there are significant numerical instabilities in a simulation.


cmocean()

cmocean() is a package of perceptually uniform colourmaps(Add Thyng reference). These colourmaps should be used whenever possible, as they avoid artificial gradients created by using some other colourmaps.

To access the colourmaps within the package, when writing the colormap command, write colormap(cmocean(my_colourmap)) where my_colourmap(character vector) is any of the available colourmaps found by typing help cmocean.


print_figure()

print_figure() is used to print the contents of a figure to a file whose filetype is specified by the user. To use the basic functionality, write print_figure(filename,'opt1',val1,'opt2',val2,...). The filename is a character vector. The different options, opt1, opt2, ... and values val1, val2, ... are given in the following table.

print_figure() options
Option Value Description
fig_hand integer/figure handle Figure window
format 'pdf', 'pdf', 'eps' (not recommended) ... File format to save figure
units 'inches', 'cm' Units of figure size
size [width height] Vector of dimensions (in units specified by units)
res integer Resolution in dpi
renderer 'painters', 'opengl' This option can often be ignored


resize_all()

resize_all() is used to spectrally interpolate existing SPINS data onto a finer (or more coarse) grid where the size of the grid is specified by the user. The intention of this function is to refine data from a chosen output so as to manually restart a simulation to achieve a higher resolution. These scripts can be used with Fourier and Chebyshev( only) grids.

To use resize_all(), go to the directory where the data is located, and run resize_all(output, [Nx_new Ny_new Nz_new]). This script will create a new directory called resized/ that holds the new refined data to be used as the initial condition for the refined simulation. Included in this directory is the executable, and the spins.conf updated to reflect the new grid and restarting information.

To use resize_all() in two dimensions, in the directory with the unrefined data, simply enter resize_all(output, [Nx_new Nz_new]) (the code implicitly assume two dimensional data is in the plane).


extend_all()