Software
SimPel - Simulation of PELDOR time traces (Python3, PyQt5)
SimPel is a open-source Python3 GUI application for the simulation of user-defined PELDOR time traces.
SimPel can be downloaded as executable binary for Windows and Linux. It was tested on various systems including Windows 7 (32-bit and 64-bit architecture), Windows 10 (32-bit and 64-bit architecture) and Ubuntu 16.04.
Download:
Source Code:
PyPI: https://pypi.org/project/SimPel
Install via Pip (Python >= 3.5 is required): pip install simpel
Run it on the console with: SimPel
License:
SimPel is distributed under a GPLv3 license.
Literature:
GloPel - (Global) Analysis of PELDOR time traces (Python3, PyQt5)
GloPel is a open-source Python3 GUI application for the analysis and global analysis of PELDOR time traces. GloPel was published in 2018, so please give credits citing the appropriate reference:
GloPel can be downloaded as executable binary for Windows and Linux. It was tested on various systems including Windows 7 (32-bit and 64-bit architecture), Windows 10 (32-bit and 64-bit architecture) and Ubuntu 16.04.
Download:
Source Code:
PyPI: https://pypi.org/project/GloPel
Install via Pip (Python >= 3.5 is required): pip install glopel
Run it on the console with: glopel
License:
GloPel is distributed under a GPLv3 license.
Test files
GloPel GUI:
SpecProFi - Spectra Processing and Fitting (MATLAB toolbox)
SpecProFi is an open-source MATLAB-based data-processing and fitting framework. SpecProFi supports the global analysis of multiple experimental data sets. The program relies on the EasySpin simulation routines [1] but can be used without any commercial toolbox.
Installation:
Download the SpecProFi folder, unzip it and link the path to your MATLAB workspace. Do the same for the current EasySpin version.
Update:
- 05.03.2021: Version 1.0.2 available.
- Typo fixed: symmterisize.m -> symmetrisize.m
- Updated check for Parallel Computing Toolbox.
- Fixed some plotting bugs caused by weighting.
- Parallel Computing bug fixed.
Download:
- Zip: SpecProFi
Literature:
[1] S. Stoll and A. Schweiger, J. Magn. Reson. 178(1), 42-55 (2006)