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| software [2018/10/23 07:45] – sisamakis | software [2018/10/23 08:02] – sisamakis |
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| * [[software:PyCorrFit]] is a general-purpose FCS evaluation software that, amongst other formats, supports the established Zeiss ConfoCor3 ~.fcs file format. PyCorrFit comes with several built-in model functions, covering a wide range of applications in standard confocal FCS. In addition, it contains equations dealing with different excitation geometries like total internal reflection (TIR). | * [[software:PyCorrFit]] is a general-purpose FCS evaluation software that, amongst other formats, supports the established Zeiss ConfoCor3 ~.fcs file format. PyCorrFit comes with several built-in model functions, covering a wide range of applications in standard confocal FCS. In addition, it contains equations dealing with different excitation geometries like total internal reflection (TIR). |
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| | * [[http://flim-analyzer.ip-korea.org/|FLIM-FRET analyzer]]: open source software for automation of lifetime-based FRET analysis. This is a Microsoft Windows application originally developed in C#. The main goal of this application is to provide the FLIM community a user-friendly application. |
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| | /* * [[https://www.tu-ilmenau.de/bmti/forschung/ophthalmologische-technik/flimx/|FLIMX]]:A Software Package to Determine and Analyze the Fluorescence Lifetime in Time-Resolved Fluorescence Data from the Human Eye */ |
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| * [[http://www.fluortools.com/software|Fluortools]].Fluorescence Decay and Anisotropy Analysis. | * [[http://www.fluortools.com/software|Fluortools]].Fluorescence Decay and Anisotropy Analysis. |
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| * [[http://pycorrelate.readthedocs.io/en/latest/ | PyCorrelate]] | * [[http://pycorrelate.readthedocs.io/en/latest/ | PyCorrelate]]:Pycorrelate computes fast and accurate cross-correlation over arbitrary time lags. Cross-correlations can be calculated on “uniformly-sampled” signals or on “point-processes”, such as photon timestamps. Pycorrelate allows computing cross-correlation at log-spaced lags covering several orders of magnitude. This type of cross-correlation is commonly used in physics or biophysics for techniques such as fluorescence correlation spectroscopy (FCS) or dynamic light scattering (DLS). |
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| * [[http://www.dkfz.de/Macromol/quickfit|QuickFit 3.0]]: QuickFit 3 is our open-source data evaluation software for FCS and imagingFCS (imFCS) measurement. Actually QuickFit 3 itself is a project manager and all functionality is added as plugins. A set of tested plugins is supplied together with the software. | * [[http://www.dkfz.de/Macromol/quickfit|QuickFit 3.0]]: QuickFit 3 is our open-source data evaluation software for FCS and imagingFCS (imFCS) measurement. Actually QuickFit 3 itself is a project manager and all functionality is added as plugins. A set of tested plugins is supplied together with the software. |
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| /* * [[software:FCS viewer]] */ | /* * [[software:FCS viewer]] ..This became redundant as its developer released Pycorrfit*/ |
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| * [[https://github.com/dwaithe/FCS_point_correlator| FCS Point Correlator]] FCS Bulk Correlation Software accepting pt3 and ptu files. | * [[https://github.com/dwaithe/FCS_point_correlator| FCS Point Correlator]] FCS Bulk Correlation Software accepting pt3 and ptu files. |
