Пример #1
0
class JKUBackendTestCase(QiskitTestCase):
    """Tests for the JKU backend."""

    def setUp(self):
        super().setUp()
        self.backend = QasmSimulator(silent=True)

    def test_configuration(self):
        """Test backend.configuration()."""
        configuration = self.backend.configuration()
        return configuration

    def test_properties(self):
        """Test backend.properties()."""
        properties = self.backend.properties()
        self.assertEqual(properties, None)

    def test_status(self):
        """Test backend.status()."""
        status = self.backend.status()
        return status

    def test_run_circuit(self):
        """Test running a single circuit."""
        result = execute(bell(), self.backend, seed_transpiler=34342).result()
        self.assertEqual(result.success, True)
        return result
Пример #2
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    def test_circuit_multi(self):
        """Test circuit multi regs declared at start.
        """
        qreg0 = QuantumRegister(2, 'q0')
        creg0 = ClassicalRegister(2, 'c0')
        qreg1 = QuantumRegister(2, 'q1')
        creg1 = ClassicalRegister(2, 'c1')
        circ = QuantumCircuit(qreg0, qreg1)
        circ.x(qreg0[1])
        circ.x(qreg1[0])

        meas = QuantumCircuit(qreg0, qreg1, creg0, creg1)
        meas.measure(qreg0, creg0)
        meas.measure(qreg1, creg1)

        qc = circ + meas

        backend_sim = QasmSimulator(silent=True)
        qobj_qc = compile(qc, backend_sim, seed_mapper=34342)
        qobj_circ = compile(circ, backend_sim, seed_mapper=3438)

        result = backend_sim.run(qobj_qc).result()
        counts = result.get_counts(qc)

        target = {'01 10': 1024}

        result = backend_sim.run(qobj_circ).result()
        state = result.get_statevector(circ)

        self.assertEqual(counts, target)
        self.assertAlmostEqual(state_fidelity(basis_state('0110', 4), state),
                               1.0,
                               places=7)
Пример #3
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 def setUp(self):
     super().setUp()
     self.backend = QasmSimulator(silent=True)
     qr = QuantumRegister(2)
     self.q_circuit = QuantumCircuit(qr)
     self.q_circuit.h(qr[0])
     self.q_circuit.cx(qr[0], qr[1])
 def setUp(self):
     self.seed = 88
     self.backend = QasmSimulator(silent=True)
     qasm_filename = os.path.join(os.path.dirname(__file__), 'qasms',
                                  'example.qasm')
     compiled_circuit = QuantumCircuit.from_qasm_file(qasm_filename)
     compiled_circuit.name = 'test'
     self.circuit = compiled_circuit
Пример #5
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import random
import unittest

import numpy
from scipy.stats import chi2_contingency

from qiskit import execute
from qiskit import QuantumCircuit
from qiskit import QuantumRegister
from qiskit import ClassicalRegister
from qiskit import BasicAer
from qiskit_jku_provider import QasmSimulator

try:
    global_pq_simulator = QasmSimulator(silent=True)
except ImportError:
    _skip_class = True
else:
    _skip_class = False

from ._random_circuit_generator import RandomCircuitGenerator
from .common import QiskitTestCase


@unittest.skipIf(_skip_class, 'JKU C++ simulator unavailable')
class TestQasmSimulatorJKU(QiskitTestCase):
    """
    Test JKU simulator.
    """
Пример #6
0
 def setUp(self):
     super().setUp()
     self.backend = QasmSimulator(silent=True)