def test_deutschjozsa(self, dj_input):
backend = get_aer_backend('qasm_simulator')
oracle = DeutschJozsaOracle(dj_input)
algorithm = DeutschJozsa(oracle)
result = algorithm.run(backend)
if sum([int(v) for v in dj_input.values()]) == len(dj_input) / 2:
self.assertTrue(result['result'] == 'balanced')
else:
self.assertTrue(result['result'] == 'constant')
def test_deutschjozsa(self, dj_input, mct_mode, optimization='off'):
backend = BasicAer.get_backend('qasm_simulator')
oracle = TruthTableOracle(dj_input, optimization=optimization, mct_mode=mct_mode)
algorithm = DeutschJozsa(oracle)
result = algorithm.run(backend)
# print(result['circuit'].draw(line_length=10000))
if sum([int(i) for i in dj_input]) == len(dj_input) / 2:
self.assertTrue(result['result'] == 'balanced')
else:
self.assertTrue(result['result'] == 'constant')
def test_using_dj_with_balanced_func(self):
""" using dj with balanced func test """
q_v = QuantumRegister(2, name='v')
q_o = QuantumRegister(1, name='o')
circuit = QuantumCircuit(q_v, q_o)
circuit.cx(q_v[0], q_o[0])
oracle = CustomCircuitOracle(variable_register=q_v, output_register=q_o, circuit=circuit)
algorithm = DeutschJozsa(oracle)
result = algorithm.run(
quantum_instance=QuantumInstance(BasicAer.get_backend('qasm_simulator')))
self.assertEqual(result['result'], 'balanced')
def test_deutsch_jozsa(self, dj_input, mct_mode, optimization, simulator):
""" Deutsch Jozsa test """
backend = BasicAer.get_backend(simulator)
oracle = TruthTableOracle(dj_input, optimization=optimization, mct_mode=mct_mode)
algorithm = DeutschJozsa(oracle)
quantum_instance = QuantumInstance(backend)
result = algorithm.run(quantum_instance=quantum_instance)
# print(result['circuit'].draw(line_length=10000))
if sum([int(i) for i in dj_input]) == len(dj_input) / 2:
self.assertTrue(result['result'] == 'balanced')
else:
self.assertTrue(result['result'] == 'constant')
def test_using_dj_with_constant_func(self):
qv = QuantumRegister(2, name='v')
qo = QuantumRegister(1, name='o')
circuit = QuantumCircuit(qv, qo)
circuit.x(qo[0])
oracle = CustomCircuitOracle(variable_register=qv,
output_register=qo,
circuit=circuit)
algorithm = DeutschJozsa(oracle)
result = algorithm.run(quantum_instance=QuantumInstance(
BasicAer.get_backend('qasm_simulator')))
self.assertTrue(result['result'] == 'constant')
def test_aqua_algorithm() -> None:
backends: List[Backend] = [AerBackend(), AerStateBackend()]
if use_qulacs:
backends.append(QulacsBackend())
for b in backends:
for comp in (None, b.default_compilation_pass()):
if use_qulacs and type(b) == QulacsBackend and comp is None:
continue
tb = TketBackend(b, comp)
ora = TruthTableOracle(bitmaps="01100110")
alg = BernsteinVazirani(oracle=ora, quantum_instance=tb)
result = alg.run()
assert result["result"] == "011"
alg = DeutschJozsa(oracle=ora, quantum_instance=tb)
result = alg.run()
assert result["result"] == "balanced"
ora = TruthTableOracle(bitmaps="11111111")
alg = DeutschJozsa(oracle=ora, quantum_instance=tb)
result = alg.run()
assert result["result"] == "constant"
import qiskit
from qiskit import IBMQ
IBMQ.load_account()
from qiskit import BasicAer
from qiskit.aqua import QuantumInstance
from qiskit.aqua import run_algorithm
from qiskit.aqua.algorithms import DeutschJozsa
from qiskit.aqua.components.oracles import TruthTableOracle
bitstr = '11110000'
oracle = TruthTableOracle(bitstr)
oracle.circuit.draw(output='mpl')
dj = DeutschJozsa(oracle)
backend = BasicAer.get_backend('qasm_simulator')
result = dj.run(QuantumInstance(backend, shots=1024))
print('The truth table {} represents a {} function.'.format(
bitstr, result['result']))
bitstr = '11110000'
params = {
'problem': {
'name': 'functionevaluation',
},
'algorithm': {
'name': 'DeutschJozsa'
},
'oracle': {
'name': 'TruthTableOracle',
'bitmaps': [bitstr]
def test_deutschjozsa(self, dj_input):
backend = get_aer_backend('qasm_simulator')
oracle = DeutschJozsaOracle(dj_input)
algorithm = DeutschJozsa(oracle)
result = algorithm.run(backend)
self.assertTrue(result['oracle_evaluation'])