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shrimPy: Smart High-throughput Robust Imaging & Measurement in Python

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shrimPy: Smart High-throughput Robust Imaging & Measurement in Python

acquisition and reconstruction schematic

shrimPy (pronounced: ʃrɪm-pai) is a pythonic framework for high-throughput smart microscopy and high-performance analysis. The current alpha version of the framework is specific to the mantis microscope, described in our manuscript, but extensible to a high throughput microscope that is controlled with Micro-Manager.

The acquisition engine synchronizes data collection using hardware triggering and carries out smart microscopy tasks such as autofocus and autoexposure.

The acquired multidimensional raw datasets are processed with the biahub library to generate registered multimodal data that can be used for analysis. Raw data are first converted to the OME-Zarr format using iohub to facilitate parallel processing and metadata management. Discrete data volumes then undergo deskewing of fluorescence channels, reconstruction of phase and orientation (using recOrder), registration and virtual staining (using VisCy).

This version of the code still uses the legacy name mantis, which overlaps with the name of the microscope which is used to acquire data. In a future release we will transition the codebase to the name shrimPy.

Installation

We recommend using a virtual conda environment with Python 3.10:

conda create -y --name mantis python=3.10
conda activate mantis

git clone https://github.com/czbiohub-sf/shrimPy.git
pip install ./mantis

Optionally, you can also install the biahub image analysis library in the same environment. biahub is currently used when characterizing the microscope point spread function, and will be used for real-time image processing in the future. You can install both libraries in a single step with:

conda create -y --name mantis python=3.10
conda activate mantis

git clone https://github.com/czbiohub-sf/shrimPy.git
git clone https://github.com/czbiohub-sf/biahub.git
pip install ./mantis ./biahub

Setting up the mantis microscope

The mantis microscope implements simultaneous label-free and light-sheet imaging as described in Ivanov et al. The two imaging modalities are acquired on two independent arms of the microscope running separate instances of Micro-Manager and pycromanager. shrimPy and biahub were developed to enable robust long-term imaging with mantis and efficient analysis of the resulting TB-scale datasets on a high-performance compute cluster.

The Setup Guide outlines how the mantis microscope is configured.

Data acquisition with mantis

Mantis acquisitions and analyses use a command-line interface.

A list of mantis commands can be displayed with:

mantis --help

Data are acquired using mantis run-acquisition, and a list of arguments can be displayed with:

mantis run-acquisition --help

The mantis acquisition is configured using a YAML file. An example of a configuration file can be found here.

This is an example of a command which will start an acquisition on the mantis microscope:

mantis run-acquisition \
    --config-filepath path/to/config.yaml \
    --output-dirpath ./YYYY_MM_DD_experiment_name/acquisition_name

The acquisition may also be run in "demo" mode with the Micro-manager MMConfig_Demo.cfg config. This does not require any microscope hardware. A demo run can be started with:

mantis run-acquisition \
    --config-filepath path/to/config.yaml \
    --output-dirpath ./YYYY_MM_DD_experiment_name/acquisition_name \
    --mm-config-filepath path/to/MMConfig_Demo.cfg

Data reconstruction

Data reconstruction is accomplished with the biahub library. Visit the link for the latest information on our reconstruction workflows.

Data and metadata format

The format of the raw and reconstructed data and associated metadata is documented here.

Contributing

We are updating the code to enable smart high throughput microscopy on any Micro-Manager controlled microscope. The code will have rough edges for the next several months. We appreciate the bug reports and code contributions if you use this package. If you would like to contribute to this package, please read the contributing guide.