https://github.com/CiwPython/Ciw

Ciw is a simulation library for open queueing networks.
https://github.com/CiwPython/Ciw

discrete-events-simulations python queueing queueing-theory simulation

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Ciw is a simulation library for open queueing networks.

• Host: GitHub
• URL: https://github.com/CiwPython/Ciw
• Owner: CiwPython
• License: mit
• Created: 2015-12-14T19:10:50.000Z (over 8 years ago)
• Default Branch: master
• Last Pushed: 2024-02-07T05:33:59.000Z (5 months ago)
• Last Synced: 2024-02-27T19:04:26.234Z (4 months ago)
• Topics: discrete-events-simulations, python, queueing, queueing-theory, simulation
• Language: Python
• Homepage: http://ciw.readthedocs.io
• Size: 59.4 MB
• Stars: 143
• Watchers: 15
• Forks: 42
• Open Issues: 34
• Metadata Files:
  • Readme: README.rst
  • Changelog: CHANGES.rst
  • Contributing: CONTRIBUTING.rst
  • License: LICENSE.txt
  • Citation: CITATION.rst
  • Authors: AUTHORS.rst

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• awesome-stars - Ciw

README

        
Ciw

===

A discrete event simulation library for queueing networks

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.. image:: https://github.com/CiwPython/Ciw/actions/workflows/tests.yml/badge.svg

    :target: https://github.com/CiwPython/Ciw/actions/workflows/tests.yml

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    :target: https://pypi.python.org/pypi/Ciw

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.. figure:: https://github.com/CiwPython/Ciw/blob/master/docs/_static/logo_small.png?raw=true

    :width: 150px

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Ciw is a discrete event simulation library for open queueing networks.

It’s core features include the capability to simulate networks of queues, multiple customer classes, and implementation of Type I blocking for restricted networks.

- `Read the documentation `_

- `Contribution guidelines `_

- `Our great contributors `_

Install with :code:`pip install ciw`.

Current supported version of Python:

- Python 3.7

- Python 3.8

- Python 3.9

- Python 3.10

- Python 3.11

Usage

-----

Import Ciw::

    >>> import ciw

To define an M/M/3 queue, with λ = 0.2 and μ = 0.1::

    >>> N = ciw.create_network(

    ...     arrival_distributions=[ciw.dists.Exponential(rate=0.2)],

    ...     service_distributions=[ciw.dists.Exponential(rate=0.1)],

    ...     number_of_servers=[3]

    ... )

Now set a seed, create a Simulation object, and simulate for 1440 time units::

    >>> ciw.seed(1)

    >>> Q = ciw.Simulation(N)

    >>> Q.simulate_until_max_time(1440)

Collect results::

    >>> recs = Q.get_all_records()

Manipulate results to get useful statistics, e.g. average waiting time::

    >>> waits = [r.waiting_time for r in recs]

    >>> sum(waits) / len(waits)

    4.2305...

Features

--------

A number of other features are also implemented, including:

+ `Type I blocking `_

+ `A large range of sampling distributions `_

+ `Phase-Type distributions `_

+ `Time-dependent and state-dependent distributions `_

+ `Batch arrivals `_

+ `Baulking customers `_

+ `Reneging customers `_

+ `Processor sharing `_

+ `Multiple customer classes `_

+ `Priorities `_

+ `Server priorities `_

+ `Service disciplines `_

+ `Customers changing classes `_

+ `Server schedules `_

+ `Slotted services `_

+ `State tracking `_

+ `Stopping the simulation after a certain amount of customers `_

+ `Process-based routing `_

+ `Deadlock detection `_