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Add and test `GraphState.to_stabilizer()` :rage4:

master
Pete Shadbolt il y a 8 ans
Parent
révision
3dbd70e046
6 fichiers modifiés avec 74 ajouts et 26 suppressions
  1. +8
    -6
      abp/graphstate.py
  2. +42
    -13
      abp/stabilizer.py
  3. +3
    -0
      tests/mock.py
  4. +0
    -7
      tests/test_graphstate.py
  5. +0
    -0
      tests/test_mercedes.py
  6. +21
    -0
      tests/test_stabilizer.py

+ 8
- 6
abp/graphstate.py Voir le fichier

@@ -5,7 +5,7 @@ This module implements Anders and Briegel's method for fast simulation of Cliffo
import itertools as it
import json, random
import qi, clifford, util
from stabilizer import Stabilizer

class GraphState(object):

@@ -361,6 +361,9 @@ class GraphState(object):
>>> with open("graph.json") as f:
json.dump(graph.to_json(True), f)

.. todo::
Implement ``from_json()``!

"""
if stringify:
node = {str(key): value for key, value in self.node.items()}
@@ -370,11 +373,6 @@ class GraphState(object):
else:
return {"node": self.node, "adj": self.adj}

def from_json(self, data):
""" Reconstruct from JSON """
self.__init__([])
# TODO

def to_state_vector(self):
""" Get the full state vector corresponding to this stabilizer state. Useful for debugging, interface with other simulators.
This method becomes very slow for more than about ten qubits!
@@ -401,6 +399,10 @@ class GraphState(object):
state.act_local_rotation(mapping[i], clifford.unitaries[n["vop"]])
return state

def to_stabilizer(self):
""" Get the stabilizer representation of the state. """
return Stabilizer(self)

def __eq__(self, other):
""" Check equality between GraphStates """
return self.adj == other.adj and self.node == other.node


+ 42
- 13
abp/stabilizer.py Voir le fichier

@@ -1,18 +1,47 @@
"""
Implements a simple Stabilizer object.
"""

import itertools as it
from abp import clifford

I = clifford.by_name["identity"]
X = clifford.by_name["px"]
Z = clifford.by_name["pz"]

class Stabilizer(object):
def __init__(self, g):
""" Construct a Stabilizer from a Graphstate """
pass

def to_stabilizer(self):
""" Get the stabilizer tableau. Work in progress!
"""
for a, b in it.product(self.node, self.node):
output[a]["sign"] = 1
self.tableau = {i:{j: I for j in g.node} for i in g.node}
self.phases = {i: 1 for i in g.node}
for a, b in it.product(g.node, g.node):
if a == b:
output[a][b] = "X"
elif a in self.adj[b]:
output[a][b] = "Z"
else:
output[a][b] = "I"
return output
self.tableau[a][b] = X
elif a in g.adj[b]:
self.tableau[a][b] = Z
self.conjugate(a, b, g.node[b]["vop"])

def conjugate(self, a, b, vop):
""" Do a little conjugation """
op, phase = clifford.conjugate(self.tableau[a][b], vop)
self.tableau[a][b] = op
self.phases[a] *= phase

def to_dictionary(self):
""" For comparison with old A&B code """
m = {1: 0, 1j:1, -1: 2, -1j: 3}
return {"paulis": self.tableau,
"phases": {key: m[value] for key, value in self.phases.items()}}

def __str__(self):
""" Represent as a string """
s = ""
for i in sorted(self.phases):
sign = self.phases[i]
sign = {1: " ", -1: " -", 1j: " i", -1j: "-i"}[sign]
row = (self.tableau[i][j] for j in sorted(self.phases))
row = ("IXYZ"[i] for i in row)
row = " ".join(row)
s += "{} {}\n".format(sign, row)
return s


+ 3
- 0
tests/mock.py Voir le fichier

@@ -50,6 +50,9 @@ class ABPWrapper(GraphState):
def __init__(self, nodes=[]):
super(ABPWrapper, self).__init__(nodes, deterministic=True)

def print_stabilizer(self):
print self.to_stabilizer()

def __eq__(self, other):
return self.to_json() == other.to_json()



+ 0
- 7
tests/test_graphstate.py Voir le fichier

@@ -74,13 +74,6 @@ def test_cz():
assert g.has_edge(0, 1)


def test_stabilizer():
""" Test that we can generate stabilizers okay """
g = mock.simple_graph()
stab = g.to_stabilizer()
# TODO


def test_local_complementation():
""" Test that local complementation works okay """
pairs = (0, 1), (0, 3), (1, 3), (1, 2),


tests/mercedes.py → tests/test_mercedes.py Voir le fichier


+ 21
- 0
tests/test_stabilizer.py Voir le fichier

@@ -0,0 +1,21 @@
from abp import GraphState
from tqdm import tqdm
import mock

REPEATS = 1000

def test_stabilizers_against_anders_and_briegel(n=10):
""" Test that stabilizers are line-for-line equivalent """
for i in tqdm(range(REPEATS), "Stabilizer representation VS A&B"):
c = mock.random_stabilizer_circuit(n)
g = mock.AndersWrapper(range(n))
g.act_circuit(c)
da = g.get_full_stabilizer().to_dictionary()

g = mock.ABPWrapper(range(n))
g.act_circuit(c)
db = g.to_stabilizer().to_dictionary()

assert da == db


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