def test_h2_one_qubit_qasm(self):
"""Test H2 with tapering and qasm backend"""
two_qubit_reduction = True
qubit_mapping = 'parity'
core = Hamiltonian(transformation=TransformationType.FULL,
qubit_mapping=QubitMappingType.PARITY,
two_qubit_reduction=two_qubit_reduction,
freeze_core=False,
orbital_reduction=[])
qubit_op, _ = core.run(self.molecule)
num_orbitals = core.molecule_info['num_orbitals']
num_particles = core.molecule_info['num_particles']
# tapering
z2_symmetries = Z2Symmetries.find_Z2_symmetries(qubit_op)
# know the sector
tapered_op = z2_symmetries.taper(qubit_op)[1]
var_form = RY(tapered_op.num_qubits, depth=1)
optimizer = SPSA(max_trials=50)
eom_vqe = QEomVQE(tapered_op, var_form, optimizer, num_orbitals=num_orbitals,
num_particles=num_particles, qubit_mapping=qubit_mapping,
two_qubit_reduction=two_qubit_reduction,
z2_symmetries=tapered_op.z2_symmetries, untapered_op=qubit_op)
backend = BasicAer.get_backend('qasm_simulator')
quantum_instance = QuantumInstance(backend, shots=65536)
result = eom_vqe.run(quantum_instance)
np.testing.assert_array_almost_equal(self.reference, result['energies'], decimal=2)
def test_h2_two_qubits_statevector(self):
"""Test H2 with parity mapping and statevector backend."""
two_qubit_reduction = True
qubit_mapping = 'parity'
core = Hamiltonian(transformation=TransformationType.FULL,
qubit_mapping=QubitMappingType.PARITY,
two_qubit_reduction=two_qubit_reduction,
freeze_core=False,
orbital_reduction=[])
qubit_op, _ = core.run(self.molecule)
num_orbitals = core.molecule_info['num_orbitals']
num_particles = core.molecule_info['num_particles']
initial_state = HartreeFock(qubit_op.num_qubits, num_orbitals=num_orbitals,
num_particles=num_particles, qubit_mapping=qubit_mapping,
two_qubit_reduction=two_qubit_reduction)
var_form = UCCSD(num_qubits=qubit_op.num_qubits, depth=1, num_orbitals=num_orbitals,
num_particles=num_particles,
initial_state=initial_state,
qubit_mapping=qubit_mapping, two_qubit_reduction=two_qubit_reduction)
optimizer = COBYLA(maxiter=1000, tol=1e-8)
eom_vqe = QEomVQE(qubit_op, var_form, optimizer, num_orbitals=num_orbitals,
num_particles=num_particles, qubit_mapping=qubit_mapping,
two_qubit_reduction=two_qubit_reduction)
backend = BasicAer.get_backend('statevector_simulator')
quantum_instance = QuantumInstance(backend)
result = eom_vqe.run(quantum_instance)
np.testing.assert_array_almost_equal(self.reference, result['energies'], decimal=4)
def test_h2_one_qubit_statevector(self):
"""Test H2 with tapering and statevector backend."""
two_qubit_reduction = True
qubit_mapping = 'parity'
warnings.filterwarnings('ignore', category=DeprecationWarning)
core = Hamiltonian(transformation=TransformationType.FULL,
qubit_mapping=QubitMappingType.PARITY,
two_qubit_reduction=two_qubit_reduction,
freeze_core=False,
orbital_reduction=[])
warnings.filterwarnings('always', category=DeprecationWarning)
qubit_op, _ = core.run(self.molecule)
num_orbitals = core.molecule_info['num_orbitals']
num_particles = core.molecule_info['num_particles']
# tapering
z2_symmetries = Z2Symmetries.find_Z2_symmetries(qubit_op)
# know the sector
tapered_op = z2_symmetries.taper(qubit_op)[1]
initial_state = HartreeFock(num_orbitals=num_orbitals,
num_particles=num_particles,
qubit_mapping=qubit_mapping,
two_qubit_reduction=two_qubit_reduction,
sq_list=tapered_op.z2_symmetries.sq_list)
var_form = UCCSD(num_orbitals=num_orbitals,
num_particles=num_particles,
initial_state=initial_state,
qubit_mapping=qubit_mapping,
two_qubit_reduction=two_qubit_reduction,
z2_symmetries=tapered_op.z2_symmetries)
optimizer = SPSA(maxiter=50)
eom_vqe = QEomVQE(tapered_op,
var_form,
optimizer,
num_orbitals=num_orbitals,
num_particles=num_particles,
qubit_mapping=qubit_mapping,
two_qubit_reduction=two_qubit_reduction,
z2_symmetries=tapered_op.z2_symmetries,
untapered_op=qubit_op)
backend = BasicAer.get_backend('statevector_simulator')
quantum_instance = QuantumInstance(backend)
result = eom_vqe.run(quantum_instance)
np.testing.assert_array_almost_equal(self.reference,
result['energies'],
decimal=5)
