Reverse Dependencies of quantities

The following projects have a declared dependency on quantities:

• analyticlab — A library for experimental data calculation, treatment and display, which can be used for College Physics Experiment, Analytical Chemistry, etc.
• blueetl — Multiple simulations analysis tool
• bone-pytex — 一个用来简化LaTex编写的Python库
• bsb-core — `bsb-core` is the backbone package contain the essential code of the BSB: A component
• ChefScript — An esolang for storing, creating and using recipes
• chemistry-tools — Python tools for analysis of chemical compounds.
• chempy — ChemPy is a Python package useful for solving problems in chemistry.
• django-unitology — Height / Weight fields for Django models & forms with unit conversion
• elephant — Elephant is a package for analysis of electrophysiology data in Python
• expipe — Experiment-data management platform
• ezephys — Tools for working with electrophysiological data.
• GANrec — A deep neural network data reconstruction platform
• instrumentkit — Test and measurement communication library
• LongTermBiosignals — Python library for easy managing and processing of large Long-Term Biosignals.
• MiV-OS — Python software for analysis and computing framework used in MiV project.
• mwtoolbox — Microwave Toolbox
• napari-tyssue — A napari plugin for use with the tyssue library
• nat — Module to use the annotations created with NeuroCurator.
• neo — Neo is a package for representing electrophysiology data in Python, together with support for reading a wide range of neurophysiology file formats
• neuronunitopt — A SciUnit library for data-driven testing of single-neuron physiology models.
• neurotic — Curate, visualize, annotate, and share your behavioral ephys data using Python
• nwb4fp — Description of my package
• nwb4fprobe — Description of my package
• openmnglab — A Python framework for microneurography analysis
• orbitronomy — The Orbitronomy library is designed to simplify the process of plotting, calculating, visualizing, and animating the orbits of celestial bodies in 3D space. It employs Kepler's elliptical orbit equations and Keplerian Elements, in conjunction with PyAstronomy, to perform precise orbital calculations. For 3D plotting, it integrates the capabilities of Matplotlib, enhancing its utility in astronomical simulations and analyses.
• py2ls — py(thon)2(too)ls
• pydoxtools — This library contains a set of tools in order to extract and synthesize structured information from documents
• pyintan — Python package for parsing INTAN data.
• PyNN — A Python package for simulator-independent specification of neuronal network models
• pyopenephys — Python package for parsing Open Ephys data.
• pype9 — PYthon PipelinEs for 9ML (Pype9) is a collection of Python pipelines for simulating networks of neuron models described in 9ML with various simulator backends.
• pyrfume — A validation library for human olfactory psychophysics research.
• python-swan — Python based tool for tracking single units from spike sorted data across several electrophysiological recording sessions.
• scityping — Serializable data types for science applications
• sciunit — A test-driven framework for formally validating scientific models against data.
• sPyNNaker — Tools for simulating neural models generated using PyNN on the SpiNNaker platform
• syris — X-ray imaging simulation
• tdms2axg — A simple script for converting LabVIEW TDMS files to AxoGraph files
• TottyEphys — A package containing helper functions for in vivo ephys data analysis