Deconvoluted

Deconvoluted makes performing numerical integral transforms simple and pythonic!

Free software: MIT license
Documentation: https://deconvoluted.readthedocs.io.

Features

Fourier Transforms

As a first example, let's perform a Fourier transform:

t = np.linspace(0, 10, 201)
f = np.sin(3 * 2 * np.pi * t)
F, nu = fourier_transform(f, t)

By default, Fourier transforms use Fourier coefficients a = 0, b = − 2π. Using another convention is simple:

F, omega = fourier_transform(f, t, convention=(-1, 1))

As a physicist myself, I therefore switch the labelling of the output from ν for frequency, to ω for angular frequency.

Performing multidimensional transforms is just as easy. For example:

F_pq, p, q = fourier_transform(f_xy, x, y)

transforms both x and y at the same time. Transforming only one of the two variables can be done simply by setting those that shouldn't transform to None:

F_py, p = fourier_transform(f_xy, x, None)
F_xq, q = fourier_transform(f_xy, None, y)

See the documentation for more examples!

Name		Name	Last commit message	Last commit date
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.github		.github
deconvoluted		deconvoluted
docs		docs
tests		tests
.editorconfig		.editorconfig
.gitignore		.gitignore
.readthedocs.yml		.readthedocs.yml
.travis.yml		.travis.yml
AUTHORS.rst		AUTHORS.rst
CONTRIBUTING.rst		CONTRIBUTING.rst
HISTORY.rst		HISTORY.rst
LICENSE		LICENSE
MANIFEST.in		MANIFEST.in
Makefile		Makefile
README.rst		README.rst
requirements.txt		requirements.txt
requirements_dev.txt		requirements_dev.txt
requirements_docs.txt		requirements_docs.txt
setup.cfg		setup.cfg
setup.py		setup.py
tox.ini		tox.ini

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tBuLi/Deconvoluted

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Deconvoluted

Features

Fourier Transforms

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