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- from abp import GraphState, CircuitModel, clifford
- import numpy as np
- from numpy import random
- from tqdm import tqdm
- import itertools as it
- import mock
-
- REPEATS = 100
- DEPTH = 100
- PAULIS = ("px", "py", "pz")
-
- def test_hadamard():
- """ Test hadamards """
- circuit = [(0, "hadamard")]
- mock.test_circuit(circuit, 1)
-
-
- def test_local_rotations():
- """ Test local rotations """
- for i in tqdm(range(REPEATS), "Testing local rotations"):
- circuit = [(0, random.choice(range(24))) for j in range(DEPTH)]
- mock.test_circuit(circuit, 1)
-
-
- def test_times_table():
- """ Test times table """
- for i, j in it.product(range(24), range(24)):
- circuit = [(0, i), (0, j)]
- mock.test_circuit(circuit, 1)
-
-
- def test_cz_table():
- """ Test the CZ table """
- for i, j in it.product(range(24), range(24)):
- circuit = [(0, i), (1, j), ((0, 1), "cz")]
- mock.test_circuit(circuit, 2)
-
-
- def test_cz_hadamard(n=10):
- """ Test CZs and Hadamards at random """
- for i in tqdm(range(REPEATS), desc="Testing CZ and Hadamard against A&B"):
- circuit = random.choice(["cz", "hadamard"], DEPTH)
- circuit = [(mock.random_pair(n), gate) if gate == "cz"
- else (random.choice(range(n)), gate)
- for gate in circuit]
- mock.test_circuit(circuit, n)
-
-
- def test_all(n=10):
- """ Test everything """
- for i in tqdm(range(REPEATS), desc="Testing CZ and Hadamard against A&B"):
- circuit = random.choice(["cz"] * 10 + range(24), DEPTH)
- circuit = [(mock.random_pair(n), gate) if gate == "cz"
- else (random.choice(range(n)), gate)
- for gate in circuit]
- mock.test_circuit(circuit, n)
-
-
- def test_single_qubit_measurement():
- """ Determinstic test of all single-qubit situations """
- space = it.product(range(24), PAULIS, (0, 1))
- for rotation, measurement, outcome in tqdm(space, "Testing single qubit measurements"):
- a = mock.circuit_to_state(mock.ABPWrapper, 1, [(0, rotation)])
- b = mock.circuit_to_state(mock.AndersWrapper, 1, [(0, rotation)])
- result_a = a.measure(0, measurement, outcome)
- result_b = b.measure(0, measurement, outcome)
- assert result_a == result_b
- assert a == b
-
- def test_two_qubit_measurement():
- """ Various two-qubit measurements on a Bell state"""
- for measurement, outcome in it.product(PAULIS, (0, 1)):
- circuit = mock.bell_pair()
- a = mock.circuit_to_state(mock.ABPWrapper, 2, circuit)
- b = mock.circuit_to_state(mock.AndersWrapper, 2, circuit)
- assert a.measure(0, measurement, outcome) == \
- b.measure(0, measurement, outcome)
- assert a == b
-
- def test_graph_state_measurement(n = 10):
- """ Measuring random graph states """
- space = list(it.product(range(REPEATS), PAULIS, (0, 1)))
- for i, measurement, outcome in tqdm(space, "Measuring random graph states"):
- circuit = mock.random_graph_circuit(n, DEPTH)
- a = mock.circuit_to_state(mock.ABPWrapper, n, circuit)
- b = mock.circuit_to_state(mock.AndersWrapper, n, circuit)
- a.measure(0, measurement, outcome)
- b.measure(0, measurement, outcome)
- assert a == b
-
- def test_stabilizer_state_measurement(n = 10):
- """ Measuring random stabilizer states """
- space = list(it.product(range(REPEATS), PAULIS, (0, 1)))
- for i, measurement, outcome in tqdm(space, "Measuring random stabilizer states"):
- circuit = mock.random_stabilizer_circuit(n, DEPTH)
- a = mock.circuit_to_state(mock.ABPWrapper, n, circuit)
- b = mock.circuit_to_state(mock.AndersWrapper, n, circuit)
- a.measure(0, measurement, outcome)
- b.measure(0, measurement, outcome)
- assert a == b
-
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