Anders and Briegel in Python
Pete Shadbolt e60abeab35 Bump version: 0.6.2 → 0.6.3 5 days ago
abp Not much 1 week ago
doc Bump version: 0.6.2 → 0.6.3 5 days ago
examples Not much 1 week ago
tests Test passing 1 week ago
.bumpversion.cfg Bump version: 0.6.2 → 0.6.3 5 days ago
.gitignore Readme 1 week ago
.gitlab-ci.yml Gitlab-CI 1 week ago
Makefile Dependencies 5 days ago
README.md Bump version: 0.6.2 → 0.6.3 5 days ago
README.rst Pushed to PyPI 1 year ago
requirements.txt Tox passing 1 week ago
setup.py Bump version: 0.6.2 → 0.6.3 5 days ago
tox.ini Tox passing 1 week ago

README.md

abp 0.6.3

Python port of Anders and Briegel’ s method for fast simulation of Clifford circuits.

Usage

import abp
from abp.util import xyz
g = abp.GraphState()
g.add_qubit("alice", position=xyz(0, 0, 0))
g.add_qubit("bob", position=xyz(0, 0, 0))
g.act_hadamard("alice")
g.act_hadamard("bob")
g.act_cz("alice", "bob")
g.push() # Sends for visualization

Demo

Demo video

Installation

Install from source

$ git clone http://gitlab.psiquantum.lan/pete/abp
$ cd abp
$ virtualenv env
$ source env/bin/activate
$ python setup.py develop 

Documentation

You can read the full documentation here. You can also build it locally using Sphinx with make doc.

To install Sphinx on OSX, use pip install sphinx. If after doing so make doc still does not work, some OSX users may also need to install sphinxcontrib-napoleon by running pip install sphinxcontrib-napoleon.