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Qmatlab

A library for running/parsing Gaussian, Ampac, and Indo outputs from Matlab.

Automation API

All of the specifc programs that are automated inherit from the Base class. This class defines the common API.

The Base class has a minimal implementation with just three properties and two methods. Each subclass from this should implement both of these methods.

Base
    properties
        dataPath % the path in which the template resides
        template % the name of the template without a file extension
        params   % a struct with parameter names and their corresponding values to replace them with.
        filename % the name of the file with all the parameters added to it without any file extensions or path
    end
    methods
        Base(dataPath, template, params) % creates the Base object
        run(obj) % handles all of the running of the respective program
        parse(obj) % takes the output from run and parses it
    end

As a minimum, a new program can be added based on the following template.

classdef Name < Base
    properties
        % some parsed properties
    end
    methods
        function obj = Name(dataPath, template, params)
           obj = obj@Base(dataPath, template, params);
           % anything else for the constructor
        end
        function run(obj)
            % what it needs run
            obj.parse()
        end
        function parse(obj)
            % some parsing code
        end
    end
end

Automating a Program

All of the automation of running any program is facilitated by the Controller class.

Controller(PATH_TO_TEMPLATE, TEMPLATE_NAME_WITHOUT_EXTENSION, PARAMETERS, @PROGRAM_CLASS_NAME)

Upon initialization the Controller class creates all of the class objects that will be iterated over. The objects are not run through the program at this time to allow for just parsing files. To then run all of the files one just uses Controller.runAll(). This calls the run() method of all of the objects created in the initalization step.

All of the objects are stored in the Controller.outputs cell array.

So, for example, this would run the template h2 at some/path through Gaussian. After running the calculation, the energey of the molecule is extracted.

c = Controller('some/path', 'h2', struct, @Gaussian);
c.runAll();
e = c.ouputs{1}.Ehf;

Templates

Template files are just normal input files with variable parameters in the file. The parameters can be any property within the file and can be any name so long as nothing else in the file contains that name other than the parameter that is being swapped out.

Here is an example Gaussian template for Hydrogen with two possible parameters to swap out (METHOD and BASIS).

%chk=temp.chk
# METHOD/BASIS

title

0 1
 H
 H                  1            B1

   B1             0.60000000

NOTE: The using temp.chk for the name of the checkfile is not a suggestion, it is a requirement.

Parameters

Parameters take the form of a struct where the struct field names are the parameter names to be replaced. Each field has a cell array inside of it with two values. 1) the possible replacement values and 2) and a boolean value of whether or not that parameter gets added to the name of the job. The part in name is optional, if a value is not given, false will be assumed.

params.PARAM1 = {{P1, P2, ..., PN},  PART_OF_NAME};
params.PARAM2 = {{P1, P2, ..., PN},  PART_OF_NAME};

A basic example of a parameter set is as follows:

params.METHOD = {{'mp2'}, 1};
params.BASIS = {{'6-21G'}, 1};

When applied to the template mentioned above this will create/run a single hydrogen molecule with the method mp2, the basis 6-21G and a final filename of h2_mp2_6-21G.

This example can easily be expanded to include many more basis sets or methods.

params.METHOD = {{'mp2', 'B3LYP'}, 1};
params.BASIS = {{'6-21G', 'STO-3G', '6-31G'}, 1};

This will create/run 6 hydrogen molecules with the basis sets/methods.

{'mp2' '6-21G'}
{'mp2' 'STO-3G'}
{'mp2' '6-31G'}
{'B3LYP' '6-21G'}
{'B3LYP' 'STO-3G'}
{'B3LYP' '6-31G'}

Now, if there was another parameter that was added to the template file, say BONDLEN.

params.METHOD = {{'mp2', 'B3LYP'}, 1};
params.BASIS = {{'STO-3G', '6-21G', '6-31G'}, 1};
params.BONDLEN = {[.5:.1:2.5], 1};

This would create/run 114 (2*3*19) hydrogen molecules with all of the combinations of those parameters.

{'mp2' '6-21G', .2}
{'mp2' '6-21G', .3}
...
{'B3LYP' '6-31G', 1.8}
{'B3LYP' '6-31G', 2}

Run Single Instance

A single instance of a molecule can be done by using the class for that respective program.

params.METHOD = {'B3LYP', 1};
params.BASIS = {'STO-3G', 1};

g = Gaussian('a\path\to\the\files', 'H2', params);
g.run()

Notes

There is a problem with the difference in the way that Gaussian and Matlab interpret types, so if you are making a parameter that uses integers it might not work.

The change from cell arrays to structs was to better accommodate the workflow for INDO. This change also allows for a simpler access to specific parameter names.

Currently, there is an optimization for running calculations that assumes that if there is an output file for a job already, then it has already been done. For example, if the log file for a Gaussian calculation is already in the folder, the calculation will not run. It will skip the calculation and just parse the file. This can be problematic if you do not delete old/invalid output files.

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