Reverse Dependencies of ipyparallel

The following projects have a declared dependency on ipyparallel:

• adaptive — Parallel active learning of mathematical functions
• adaptive-scheduler — Run many `adaptive.Learner`s on many cores (>10k) using `mpi4py.futures`, `ipyparallel`, `dask-mpi`, or `process-pool`.
• adios4dolfinx — Checkpointing functionality for DOLFINx meshes/functions with ADIOS2
• astroslam — A forward model using SVR to estimate stellar parameters from spectra.
• bluepyemodel — Blue Brain Python E-Model Building Library
• bluepymm — Model Management Python Library (bluepymm)
• bluepyopt — Bluebrain Python Optimisation Library (bluepyopt)
• BluePyParallel — Provides an embarrassingly parallel tool with sql backend.
• bodo-platform-ipyparallel-kernel — A simple IPyParallel based wrapper around IPython Kernel for the Bodo Platform
• devito — Finite Difference DSL for symbolic computation.
• elfi — ELFI - Engine for Likelihood-free Inference
• fairmlhealth — Health-centered variation analysis
• georges-core — Georges' accelerator physics library - Core
• hpc05 — Client package for PBS and SLURM clusters with a headnode.
• hyperspy — Multidimensional data analysis toolbox
• ipcmagic-cscs — IPyParallel magics for Jupyter notebooks
• ipykernel — IPython Kernel for Jupyter
• ipython — IPython: Productive Interactive Computing
• ipython-cluster-helper — Simplify IPython cluster start up and use for multiple schedulers.
• kgpy — Generic Python utilities for use with Kankelborg Group repositories.
• kslhub — klshub - a datahub based on jupyterhub
• mesmerize — Calcium imaging analysis platform
• metakernel — no summary
• mmfutils — Small set of utilities: containers and interfaces.
• nbvalx — Collection of pytest utils built on top of nbval
• Operon — Dataflow pipeline development framework, powered by Parsl
• otwrapy — General purpose OpenTURNS python wrapper tools
• pug-nlp — Python Natural Language Processing by and for the Python User Group in Portland, OR
• pulsee — Program for the Simulation of Nuclear Spin Ensemble Evolution
• py4DSTEM — An open source python package for processing and analysis of 4D STEM data.
• pyfeyn2 — PyFeyn is a package which makes drawing Feynman diagrams simple and programmatic. Feynman diagrams are important constructs in perturbative field theory, so being able to draw them in a programmatic fashion is important if attempting to enumerate a large number of diagram configurations is important. The output quality of PyFeyn diagrams (into PDF or EPS formats) is very high, and special effects can be obtained by using constructs from PyX, which PyFeyn is based around
• pyIcarus — Tools library for Security Research
• pyMOR — Library for building model order reduction applications with Python
• pyphysim — Simulation of digital communication (physical layer) in python
• pyqmri — Model-based parameter quantification using OpenCL and Python
• pyrseus — ExecutorCtx factory, its plugins, and various serial Executors
• PySCeS — The Python Simulator for Cellular Systems - simulation and analysis tools for modelling biological systems
• pyVoxelStats — Python implementation of the VoxelStats toolbox for neuroimage analysis
• qp-prob — no summary
• saffron-spice — SAFFRON: Spectral Analysis Fitting Framework, Reduction Of Noise.
• sktmls — MLS SDK
• struphy — Multi-model plasma physics package
• vimms — A framework to develop, test and optimise fragmentation strategies in LC-MS metabolomics.
• wowp — Data-flow-actors-based workflow framework