Anders and Briegel in Python
25'ten fazla konu seçemezsiniz Konular bir harf veya rakamla başlamalı, kısa çizgiler ('-') içerebilir ve en fazla 35 karakter uzunluğunda olabilir.

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  1. """
  2. Provides an extremely basic graph structure, based on neighbour lists
  3. """
  4. from collections import defaultdict
  5. import itertools as it
  6. import tables as clifford
  7. class GraphState(object):
  8. def __init__(self):
  9. self.ngbh = defaultdict(set)
  10. self.vops = defaultdict(int)
  11. def add_edge(self, v1, v2):
  12. """ Add an edge between two vertices in the self """
  13. if not v1 in self.ngbh:
  14. self.vops[v1] = clifford.by_name["hadamard"]
  15. if not v2 in self.ngbh:
  16. self.vops[v2] = clifford.by_name["hadamard"]
  17. self.ngbh[v1].add(v2)
  18. self.ngbh[v2].add(v1)
  19. def del_edge(self, v1, v2):
  20. """ Delete an edge between two vertices in the self """
  21. self.ngbh[v1].remove(v2)
  22. self.ngbh[v2].remove(v1)
  23. def has_edge(self, v1, v2):
  24. """ Test existence of an edge between two vertices in the self """
  25. return v2 in self.ngbh[v1]
  26. def toggle_edge(self, v1, v2):
  27. """ Toggle an edge between two vertices in the self """
  28. if self.has_edge(v1, v2):
  29. self.del_edge(v1, v2)
  30. else:
  31. self.add_edge(v1, v2)
  32. def edgelist(self):
  33. """ Describe a graph as an edgelist """
  34. edges = frozenset(tuple(sorted((i, n)))
  35. for i, v in self.ngbh.items()
  36. for n in v)
  37. return [tuple(e) for e in edges]
  38. def remove_vop(self, a, avoid):
  39. """ Reduces VOP[a] to the identity """
  40. others = self.ngbh[a] - {avoid}
  41. swap_qubit = others.pop() if others else avoid
  42. for v in reversed(clifford.decompositions[self.vops[a]]):
  43. self.local_complementation(a if v == "x" else swap_qubit)
  44. def local_complementation(self, v):
  45. """ As defined in LISTING 1 of Anders & Briegel """
  46. for i, j in it.combinations(self.ngbh[v], 2):
  47. self.toggle_edge(i, j)
  48. # Update VOPs
  49. self.vops[v] = clifford.times_table[
  50. self.vops[v]][clifford.by_name["sqx"]]
  51. for i in self.ngbh[v]:
  52. self.vops[i] = clifford.times_table[
  53. self.vops[i]][clifford.by_name["msqz"]]
  54. def cphase(self, a, b):
  55. """ Act a controlled-phase gate on two qubits """
  56. if self.ngbh[a] - {b}:
  57. self.remove_vop(a, b)
  58. if self.ngbh[b] - {a}:
  59. self.remove_vop(b, a)
  60. if self.ngbh[a] - {b}:
  61. self.remove_vop(a, b)
  62. edge = self.has_edge(a, b)
  63. new_edge, vops[a], vops[b] = cphase_table[edge, vops[a], vops[b]]
  64. if new_edge != edge:
  65. self.toggle_edge(a, b)