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Anders and Briegel in Python
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  1. .. abp documentation master file, created by

  2.    sphinx-quickstart on Sun Jul 24 18:12:02 2016.

  3.    You can adapt this file completely to your liking, but it should at least

  4.    contain the root `toctree` directive.

  5. 

  6. .. toctree::

  7.    :maxdepth: 2

  8. 

  9. 

  10. ``abp``

  11. ===============================

  12. 

  13. This is the documentation for ``abp``. It's a work in progress.

  14. 

  15. ``abp`` is a Python port of Anders and Briegel' s `method <https://arxiv.org/abs/quant-ph/0504117>`_ for fast simulation of Clifford circuits. 

  16. That means that you can make quantum states of thousands of qubits, perform any sequence of Clifford operations, and measure in any of :math:`\{\sigma_x, \sigma_y, \sigma_z\}`.

  17. 

  18. .. image:: ../examples/demo.gif

  19. 

  20. Installing

  21. ----------------------------

  22. 

  23. You can install from ``pip``:

  24. 

  25. .. code-block:: bash

  26. 

  27.    $ pip install --user abp

  28. 

  29. Alternatively, clone from the `github repo <https://github.com/peteshadbolt/abp>`_ and run ``setup.py``:

  30. 

  31. .. code-block:: bash

  32. 

  33.    $ git clone https://github.com/peteshadbolt/abp

  34.    $ cd abp

  35.    $ python setup.py install --user

  36. 

  37. If you want to modify and test ``abp`` without having to re-install, switch into ``develop`` mode:

  38. 

  39. .. code-block:: bash

  40. 

  41.    $ python setup.py develop --user  

  42. 

  43. Quickstart

  44. ----------------------------

  45. 

  46. It's pretty easy to build a graph state, act some gates, and do measurements::

  47. 

  48.     >>> from abp import GraphState

  49.     >>> g = GraphState(range(5))

  50.     >>> for i in range(5):

  51.     ...     g.act_hadamard(i)

  52.     ... 

  53.     >>> for i in range(4):

  54.     ...     g.act_cz(i, i+1)

  55.     ... 

  56.     >>> print g 

  57.     0:  IA	(1,)

  58.     1:  IA	(0,2)

  59.     2:  IA	(1,3)

  60.     3:  IA	(2,4)

  61.     4:  IA	(3,)

  62.     >>> g.measure(2, "px")

  63.     0

  64.     >>> print g

  65.     0:  IA	(3,)

  66.     1:  ZC	(3,)

  67.     2:  IA	-

  68.     3:  ZA	(0,1,4)

  69.     4:  IA	(3,)

  70. 

  71. Working with GraphStates

  72. -------------------------

  73. 

  74. The ``abp.GraphState`` class is your main interface to ``abp``.  

  75. Here follows complete documentation

  76. 

  77. .. autoclass:: abp.GraphState

  78. 

  79.     .. automethod:: abp.GraphState.__init__

  80. 

  81.     .. automethod:: abp.GraphState.add_node

  82. 

  83.     .. automethod:: abp.GraphState.add_nodes

  84. 

  85.     .. automethod:: abp.GraphState.act_local_rotation

  86. 

  87.     .. automethod:: abp.GraphState.act_hadamard

  88. 

  89.     .. automethod:: abp.GraphState.act_cz

  90. 

  91.     .. automethod:: abp.GraphState.act_circuit

  92. 

  93.     .. automethod:: abp.GraphState.measure

  94. 

  95.     .. automethod:: abp.GraphState.to_json

  96. 

  97.     .. automethod:: abp.GraphState.to_state_vector

  98. 

  99.     .. automethod:: abp.GraphState.to_stabilizer

  100. 

  101. The Clifford group

  102. ----------------------

  103. 

  104. .. automodule:: abp.clifford

  105. 

  106. |

  107. 

  108. The ``clifford`` module provides a few useful functions:

  109. 

  110. .. autofunction:: abp.clifford.use_old_cz

  111.     :noindex:

  112. 

  113. Visualization

  114. ----------------------

  115. 

  116. ``abp`` comes with a tool to visualize graph states in a WebGL compatible web browser (Chrome, Firefox, Safari etc). It uses a client-server architecture.

  117. 

  118. First, run ``abpserver`` in a terminal:

  119. 

  120. .. code-block:: bash

  121. 

  122.     $ abpserver

  123.     Listening on port 5000 for clients..

  124. 

  125. Then browse to ``http://localhost:5001/`` (in some circumstances ``abp`` will automatically pop a browser window).

  126. 

  127. Now, in another terminal, use ``abp.fancy.GraphState`` to run a Clifford circuit::

  128. 

  129.     >>> from abp.fancy import GraphState

  130.     >>> g = GraphState(range(10))

  131.     >>> g.act_circuit([(i, "hadamard") for i in range(10)])

  132.     >>> g.act_circuit([((i, i+1), "cz") for i in range(9)])

  133.     >>> g.update()

  134. 

  135. And you should see a 3D visualization of the state. You can call ``update()`` in a loop to see an animation.

  136. 

  137. .. image:: ../examples/viz.png

  138. 

  139. Reference

  140. ----------------------------

  141. 

  142. More detailed docs are available here:

  143. 

  144. * :ref:`genindex`

  145. * :ref:`modindex`

  146. * :ref:`search`