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Read PicoQuant PTU and related files

Ptufile is a Python library to read image and metadata from PicoQuant PTU and related files: PHU, PCK, PCO, PFS, PUS, and PQRES. PTU files contain time correlated single photon counting (TCSPC) measurement data and instrumentation parameters.

Author:Christoph Gohlke
License:BSD 3-Clause
Version:2024.11.26
DOI:10.5281/zenodo.10120021

Quickstart

Install the ptufile package and all dependencies from the Python Package Index:

python -m pip install -U "ptufile[all]"

See Examples for using the programming interface.

Source code and support are available on GitHub.

Requirements

This revision was tested with the following requirements and dependencies (other versions may work):

Revisions

2024.11.26

  • Support bi-directional scanning (FLIMbee scanner).
  • Drop support for Python 3.9.

2024.10.10

  • Also trim leading channels without photons (breaking).
  • Add property to identify channels with photons.

2024.9.14

  • Improve typing.

2024.7.13

  • Detect point scans in image mode.
  • Deprecate Python 3.9, support Python 3.13.

2024.5.24

  • Fix docstring examples not correctly rendered on GitHub.

2024.4.24

  • Build wheels with NumPy 2.

2024.2.20

  • Change definition of PtuFile.frequency (breaking).
  • Add option to specify number of bins returned by decode_histogram.
  • Add option to return histograms of one period.

2024.2.15

  • Add PtuFile.scanner property.
  • Add numcodecs compatible PTU codec.

2024.2.8

  • Support sinusoidal scanning correction.

2024.2.2

  • Change positive dtime parameter from index to size (breaking).
  • Fix segfault with ImgHdr_TimePerPixel = 0.
  • Rename MultiHarp to Generic conforming with changes in PicoQuant reference.

2023.11.16

  • Fix empty line when first record is start marker.

2023.11.13

  • Change image histogram dimension order to TYXCH (breaking).
  • Change frame start to start of first line in frame (breaking).
  • Improve trimming of incomplete frames (breaking).
  • Remove trim_dtime option (breaking).
  • Fix selection handling in PtuFile.decode_image.
  • Add option to trim T, C, and H axes of image histograms.
  • Add option to decode histograms to memory-mapped or user-provided arrays.
  • Add __getitem__ interface to image histogram.

2023.11.1

  • Initial alpha release.

Notes

PicoQuant GmbH is a manufacturer of photonic components and instruments.

The PicoQuant unified file formats are documented at the PicoQuant-Time-Tagged-File-Format-Demos.

The following features are currently not implemented: PT2 and PT3 files, decoding images from T2 formats, bidirectional sinusoidal scanning, and deprecated image reconstruction. Line-scanning is not tested.

Other modules for reading or writing PicoQuant files are:

Examples

Read properties and tags from any type of PicoQuant unified tagged file:

>>> pq = PqFile('tests/Settings.pfs')
>>> pq.magic
<PqFileMagic.PFS: ...>
>>> pq.guid
UUID('86d428e2-cb0b-4964-996c-04456ba6be7b')
>>> pq.tags
{...'CreatorSW_Name': 'SymPhoTime 64', 'CreatorSW_Version': '2.1'...}
>>> pq.close()

Read metadata from a PicoQuant PTU FLIM file:

>>> ptu = PtuFile('tests/FLIM.ptu')
>>> ptu.magic
<PqFileMagic.PTU: ...>
>>> ptu.type
<PtuRecordType.PicoHarpT3: 66307>
>>> ptu.measurement_mode
<PtuMeasurementMode.T3: 3>
>>> ptu.measurement_submode
<PtuMeasurementSubMode.IMAGE: 3>

Decode TTTR records from the PTU file to numpy.recarray:

>>> decoded = ptu.decode_records()

Get global times of frame changes from markers:

>>> decoded['time'][(decoded['marker'] & ptu.frame_change_mask) > 0]
array([1571185680], dtype=uint64)

Decode TTTR records to overall delay-time histograms per channel:

>>> ptu.decode_histogram(dtype='uint8')
array([[ 5,  7,  7, ..., 10,  9,  2]], dtype=uint8)

Get information about the FLIM image histogram in the PTU file:

>>> ptu.shape
(1, 256, 256, 2, 3126)
>>> ptu.dims
('T', 'Y', 'X', 'C', 'H')
>>> ptu.coords
{'T': ..., 'Y': ..., 'X': ..., 'H': ...}
>>> ptu.dtype
dtype('uint16')
>>> ptu.active_channels
(0, 1)

Decode parts of the image histogram to numpy.ndarray using slice notation. Slice step sizes define binning, -1 being used to integrate along axis:

>>> ptu[:, ..., 0, ::-1]
array([[[103, ..., 38],
              ...
        [ 47, ..., 30]]], dtype=uint16)

Alternatively, decode the first channel and integrate all histogram bins to a xarray.DataArray, keeping reduced axes:

>>> ptu.decode_image(channel=0, dtime=-1, asxarray=True)
<xarray.DataArray (T: 1, Y: 256, X: 256, C: 1, H: 1)> ...
array([[[[[103]],
           ...
         [[ 30]]]]], dtype=uint16)
Coordinates:
  * T        (T) float64... 0.05625
  * Y        (Y) float64... -0.0001304 ... 0.0001294
  * X        (X) float64... -0.0001304 ... 0.0001294
  * C        (C) uint8... 0
  * H        (H) float64... 0.0
Attributes...
    frequency:      19999200.0
...
>>> ptu.close()

Preview the image and metadata in a PTU file from the console:

python -m ptufile tests/FLIM.ptu

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