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Anders and Briegel in Python
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abp/tests/test_clifford.py

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  1. from numpy import *

  2. from tqdm import tqdm

  3. import itertools as it

  4. from abp import clifford

  5. from abp import build_tables

  6. from abp import qi

  7. from nose.tools import raises

  8. 

  9. 

  10. def identify_pauli(m):

  11.     """ Given a signed Pauli matrix, name it. """

  12.     for sign in (+1, -1):

  13.         for pauli_label, pauli in zip("xyz", qi.paulis):

  14.             if allclose(sign * pauli, m):

  15.                 return sign, pauli_label

  16. 

  17. 

  18. def test_find_clifford():

  19.     """ Test that slightly suspicious function """

  20.     assert build_tables.find_clifford(qi.id, clifford.unitaries) == 0

  21.     assert build_tables.find_clifford(qi.px, clifford.unitaries) == 1

  22. 

  23. 

  24. @raises(IndexError)

  25. def test_find_non_clifford():

  26.     """ Test that looking for a non-Clifford gate fails """

  27.     build_tables.find_clifford(qi.t, clifford.unitaries)

  28. 

  29. 

  30. def get_action(u):

  31.     """ What does this unitary operator do to the Paulis? """

  32.     return [identify_pauli(u.dot(p.dot(qi.hermitian_conjugate(u)))) for p in qi.paulis]

  33. 

  34. 

  35. def format_action(action):

  36.     return "".join("{}{}".format("+" if s >= 0 else "-", p) for s, p in action)

  37. 

  38. 

  39. def test_we_have_24_matrices():

  40.     """ Check that we have 24 unique actions on the Bloch sphere """

  41.     actions = set(tuple(get_action(u)) for u in clifford.unitaries)

  42.     assert len(set(actions)) == 24

  43. 

  44. 

  45. def test_we_have_all_useful_gates():

  46.     """ Check that all the interesting gates are included up to a global phase """

  47.     for name, u in qi.by_name.items():

  48.         build_tables.find_clifford(u, clifford.unitaries)

  49. 

  50. 

  51. def test_group():

  52.     """ Test we are really in a group """

  53.     matches = set()

  54.     for a, b in tqdm(it.combinations(clifford.unitaries, 2), "Testing this is a group"):

  55.         i = build_tables.find_clifford(a.dot(b), clifford.unitaries)

  56.         matches.add(i)

  57.     assert len(matches) == 24

  58. 

  59. 

  60. def test_conjugation_table():

  61.     """ Check that the table of Hermitian conjugates is okay """

  62.     assert len(set(clifford.conjugation_table)) == 24

  63. 

  64. 

  65. def test_cz_table_makes_sense():

  66.     """ Test the CZ table is symmetric """

  67.     hadamard = clifford.by_name["hadamard"]

  68.     assert all(clifford.cz_table[0, 0, 0] == [1, 0, 0])

  69.     assert all(clifford.cz_table[1, 0, 0] == [0, 0, 0])

  70.     assert all(

  71.         clifford.cz_table[0, hadamard, hadamard] == [0, hadamard, hadamard])

  72. 

  73. def test_commuters():

  74.     """ Test that commutation is good """

  75.     assert len(build_tables.get_commuters(clifford.unitaries)) == 4