Anders and Briegel in Python
Vous ne pouvez pas sélectionner plus de 25 sujets Les noms de sujets doivent commencer par une lettre ou un nombre, peuvent contenir des tirets ('-') et peuvent comporter jusqu'à 35 caractères.

index.rst 3.6KB

il y a 8 ans
il y a 8 ans
il y a 8 ans
il y a 8 ans
il y a 8 ans
il y a 8 ans
il y a 8 ans
il y a 8 ans
il y a 8 ans
123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147
  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. .. toctree::
  6. :maxdepth: 2
  7. ``abp``
  8. ===============================
  9. This is the documentation for ``abp``. It's a work in progress.
  10. ``abp`` is a Python port of Anders and Briegel' s `method <https://arxiv.org/abs/quant-ph/0504117>`_ for fast simulation of Clifford circuits.
  11. 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\}`.
  12. .. image:: ../examples/demo.gif
  13. Installing
  14. ----------------------------
  15. You can install from ``pip``:
  16. .. code-block:: bash
  17. $ pip install --user abp
  18. Alternatively, clone from the `github repo <https://github.com/peteshadbolt/abp>`_ and run ``setup.py``:
  19. .. code-block:: bash
  20. $ git clone https://github.com/peteshadbolt/abp
  21. $ cd abp
  22. $ python setup.py install --user
  23. If you want to modify and test ``abp`` without having to re-install, switch into ``develop`` mode:
  24. .. code-block:: bash
  25. $ python setup.py develop --user
  26. Quickstart
  27. ----------------------------
  28. It's pretty easy to build a graph state, act some gates, and do measurements::
  29. >>> from abp import GraphState
  30. >>> g = GraphState(range(5))
  31. >>> for i in range(5):
  32. ... g.act_hadamard(i)
  33. ...
  34. >>> for i in range(4):
  35. ... g.act_cz(i, i+1)
  36. ...
  37. >>> print g
  38. 0: IA (1,)
  39. 1: IA (0,2)
  40. 2: IA (1,3)
  41. 3: IA (2,4)
  42. 4: IA (3,)
  43. >>> g.measure(2, "px")
  44. 0
  45. >>> print g
  46. 0: IA (3,)
  47. 1: ZC (3,)
  48. 2: IA -
  49. 3: ZA (0,1,4)
  50. 4: IA (3,)
  51. Working with GraphStates
  52. -------------------------
  53. The ``abp.GraphState`` class is your main interface to ``abp``.
  54. Here follows complete documentation
  55. .. autoclass:: abp.GraphState
  56. .. automethod:: abp.GraphState.__init__
  57. .. automethod:: abp.GraphState.add_node
  58. .. automethod:: abp.GraphState.add_nodes
  59. .. automethod:: abp.GraphState.act_local_rotation
  60. .. automethod:: abp.GraphState.act_hadamard
  61. .. automethod:: abp.GraphState.act_cz
  62. .. automethod:: abp.GraphState.act_circuit
  63. .. automethod:: abp.GraphState.measure
  64. .. automethod:: abp.GraphState.to_json
  65. .. automethod:: abp.GraphState.to_state_vector
  66. .. automethod:: abp.GraphState.to_stabilizer
  67. The Clifford group
  68. ----------------------
  69. .. automodule:: abp.clifford
  70. |
  71. The ``clifford`` module provides a few useful functions:
  72. .. autofunction:: abp.clifford.use_old_cz
  73. :noindex:
  74. Visualization
  75. ----------------------
  76. ``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.
  77. First, run ``abpserver`` in a terminal:
  78. .. code-block:: bash
  79. $ abpserver
  80. Listening on port 5000 for clients..
  81. Then browse to ``http://localhost:5001/`` (in some circumstances ``abp`` will automatically pop a browser window).
  82. Now, in another terminal, use ``abp.fancy.GraphState`` to run a Clifford circuit::
  83. >>> from abp.fancy import GraphState
  84. >>> g = GraphState(range(10))
  85. >>> g.act_circuit([(i, "hadamard") for i in range(10)])
  86. >>> g.act_circuit([((i, i+1), "cz") for i in range(9)])
  87. >>> g.update()
  88. And you should see a 3D visualization of the state. You can call ``update()`` in a loop to see an animation.
  89. .. image:: ../examples/viz.png
  90. Reference
  91. ----------------------------
  92. More detailed docs are available here:
  93. * :ref:`genindex`
  94. * :ref:`modindex`
  95. * :ref:`search`