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pyclustring is a python data mining library

Project description

Documentation DOI

PyClustering

pyclustering is a Python, C++ data mining library (clustering algorithm, oscillatory networks, neural networks). The library provides Python and C++ implementations (via CCORE library) of each algorithm or model. CCORE library is a part of pyclustering and supported only for 32, 64-bit Linux and 32, 64-bit Windows operating systems.

Official repository: https://github.com/annoviko/pyclustering/

Dependencies

Required packages: scipy, matplotlib, numpy, PIL

Python version: >=3.4 (32-bit, 64-bit)

C++ version: >= 14 (32-bit, 64-bit)

Performance

Each algorithm is implemented using Python and C/C++ language, if your platform is not supported then Python implementation is used, otherwise C/C++. Implementation can be chosen by ccore flag (by default it is always ‘True’ and it means that C/C++ is used), for example:

xmeans_instance = xmeans(data_points, start_centers, 20, ccore = True);

Installation

Installation using pip3 tool:

$ pip3 install pyclustering

Manual installation from official repository using GCC:

# get sources of the pyclustering library, for example, from repository
$ mkdir pyclustering
$ cd pyclustering/
$ git clone https://github.com/annoviko/pyclustering.git .

# compile CCORE library (core of the pyclustering library).
$ cd pyclustering/ccore
$ make ccore_x64        # build for 64-bit OS

# $ make ccore_x86      # build for 32-bit OS
# $ make ccore          # build for both (32 and 64-bit)

# return to parent folder of the pyclustering library
cd ../

# add current folder to python path
PYTHONPATH=`pwd`
export PYTHONPATH=${PYTHONPATH}

Manual installation using Visual Studio:

  1. Clone repository from: https://github.com/annoviko/pyclustering.git

  2. Open folder pyclustering/ccore

  3. Open Visual Studio project ccore.sln

  4. Select solution platform: ‘x86’ or ‘x64’

  5. Build ‘ccore’ project.

  6. Add pyclustering folder to python path.

Proposals, Questions, Bugs

In case of any questions, proposals or bugs related to the pyclustering please contact to pyclustering@yandex.ru.

Issue tracker: https://github.com/annoviko/pyclustering/issues

Library Content

Clustering algorithms (module pyclustering.cluster):

  • Agglomerative (pyclustering.cluster.agglomerative);

  • BIRCH (pyclustering.cluster.birch);

  • CLARANS (pyclustering.cluster.clarans);

  • CURE (pyclustering.cluster.cure);

  • DBSCAN (pyclustering.cluster.dbscan);

  • EMA (pyclustering.cluster.ema);

  • GA (Genetic Algorithm) (pyclustering.cluster.ga);

  • HSyncNet (pyclustering.cluster.hsyncnet);

  • K-Means (pyclustering.cluster.kmeans);

  • K-Means++ (pyclustering.cluster.center_initializer);

  • K-Medians (pyclustering.cluster.kmedians);

  • K-Medoids (PAM) (pyclustering.cluster.kmedoids);

  • OPTICS (pyclustering.cluster.optics);

  • ROCK (pyclustering.cluster.rock);

  • SOM-SC (pyclustering.cluster.somsc);

  • SyncNet (pyclustering.cluster.syncnet);

  • Sync-SOM (pyclustering.cluster.syncsom);

  • X-Means (pyclustering.cluster.xmeans);

Oscillatory networks and neural networks (module pyclustering.nnet):

  • Oscillatory network based on Hodgkin-Huxley model (pyclustering.nnet.hhn);

  • fSync: Oscillatory Network based on Landau-Stuart equation and Kuramoto model (pyclustering.nnet.fsync);

  • Hysteresis Oscillatory Network (pyclustering.nnet.hysteresis);

  • LEGION: Local Excitatory Global Inhibitory Oscillatory Network (pyclustering.nnet.legion);

  • PCNN: Pulse-Coupled Neural Network (pyclustering.nnet.pcnn);

  • SOM: Self-Organized Map (pyclustering.nnet.som);

  • Sync: Oscillatory Network based on Kuramoto model (pyclustering.nnet.sync);

  • SyncPR: Oscillatory Network based on Kuramoto model for pattern recognition (pyclustering.nnet.syncpr);

  • SyncSegm: Oscillatory Network based on Kuramoto model for image segmentation (pyclustering.nnet.syncsegm);

Graph Coloring Algorithms (module pyclustering.gcolor):

  • DSATUR (pyclustering.gcolor.dsatur);

  • Hysteresis Oscillatory Network for graph coloring (pyclustering.gcolor.hysteresis);

  • Sync: Oscillatory Network based on Kuramoto model for graph coloring (pyclustering.gcolor.sync);

Containers (module pyclustering.container):

  • CF-Tree (pyclustering.container.cftree);

  • KD-Tree (pyclustering.container.kdtree);

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