Exemplo n.º 1
0
    def test_classical_binary(self):
        """ classical binary test """
        training_input = {
            'A':
            np.asarray([[0.6560706, 0.17605998], [0.25776033, 0.47628296],
                        [0.79687342, 0.26933706], [0.39016555, -0.08469916],
                        [0.3994399, 0.13601573], [0.26752049, -0.03978988],
                        [0.24026485, 0.01953518], [0.49490503, 0.17239737],
                        [0.70171827, 0.5323737], [0.43221576, 0.42357294],
                        [0.62864856, 0.45504447], [0.6259567, 0.30917324],
                        [0.58272403, 0.20760754], [0.3938784, 0.17184466],
                        [0.14154948, 0.06201424], [0.80202323, 0.40582692],
                        [0.46779595, 0.39946754], [0.57660199, 0.21821317],
                        [0.51044761, 0.03699459], [0.8690704, 0.70847635]]),
            'B':
            np.asarray([[0.38857596, -0.33775802], [0.49946978, -0.48727951],
                        [-0.30119743, -0.11221681], [-0.16479252, -0.08640519],
                        [-0.21808884, -0.56508327], [-0.14683258, -0.46528508],
                        [-0.05888195, -0.51474852], [0.20517435, -0.66839091],
                        [0.25475584, -0.21239966], [0.55194854, 0.02789679],
                        [-0.11542951, -0.54157026], [0.44625538, -0.49485869],
                        [-0.14609118, -0.60719757], [0.18121305, -0.1922198],
                        [0.19283785, -0.31798925], [0.29626405, -0.54563098],
                        [-0.39044304, -0.36527253], [-0.29432215, -0.43924164],
                        [-0.40294517, -0.31381308], [0.49156185, -0.3660534]])
        }

        test_input = {
            'A':
            np.asarray([[0.57483139, 0.47120732], [0.48372348, 0.25438544],
                        [0.08791134, 0.11515506], [0.45988094, 0.32854319],
                        [0.53015085, 0.41539212], [0.5073321, 0.47346751],
                        [0.71081819, 0.19202569], [1., 0.51698289],
                        [0.630973, 0.19898666], [0.48142649, 0.15931707]]),
            'B':
            np.asarray([[-0.06048935, -0.48345293], [-0.01065613, -0.33910828],
                        [-0.17323832, -0.49535592], [0.14043268, -0.87869109],
                        [-0.15046837, -0.47340207], [-0.39600934, -0.21647957],
                        [-0.394202, -0.44705385], [0.15243621, -0.36695163],
                        [0.06195634, -0.23262325], [0.06183066, -0.53376975]])
        }

        temp = [test_input[k] for k in sorted(test_input)]
        total_array = np.concatenate(temp)

        try:
            result = SVM_Classical(training_input, test_input,
                                   total_array).run()
            self.assertEqual(result['testing_accuracy'], 1.0)
            self.assertEqual(result['predicted_classes'], [
                'A', 'A', 'A', 'A', 'A', 'A', 'A', 'A', 'A', 'A', 'B', 'B',
                'B', 'B', 'B', 'B', 'B', 'B', 'B', 'B'
            ])
        except NameError as ex:
            self.skipTest(str(ex))
Exemplo n.º 2
0
new_training_input = {}
new_test_input = {}

for key in training_input:
    array_train = []
    array_test= []
    for i in (range(len(training_input[key]))):
        if (i%2==0):
            array_train += [training_input[key][i]]
        else:
            array_test += [training_input[key][i]]
    new_training_input.update({key: array_train})
    new_test_input.update({key: array_train})

multi_ext_classical = OneAgainstRest(_RBF_SVC_Estimator)
svm = SVM_Classical(new_training_input, new_test_input, multiclass_extension=multi_ext_classical)

feature_map = PauliExpansion(feature_dimension=feature_dim, depth=2, paulis=['Z', 'ZZ'], entanglement='linear')
multi_ext_quantum = OneAgainstRest(_QSVM_Estimator, [feature_map])
qsvm = QSVM(feature_map, new_training_input, new_test_input, multiclass_extension=multi_ext_quantum)

seed = 1001
backend = Aer.get_backend('qasm_simulator')
#device = IBMQ.get_provider().get_backend('ibmqx2')
classical_instance = QuantumInstance(backend, shots=1024, seed=seed, seed_transpiler=seed)
quantum_instance = QuantumInstance(backend, shots=1024, seed=seed, seed_transpiler=seed, circuit_caching=False, skip_qobj_validation=False)

#start_classical = timeit.default_timer()
#result_classical = svm.run(classical_instance)
#elapsed_classical = timeit.default_timer() - start_classical
Exemplo n.º 3
0
    def test_classical_multiclass_one_against_all(self):
        """ classical multiclass one against all test """
        training_input = {
            'A':
            np.asarray([[0.6560706, 0.17605998], [0.25776033, 0.47628296],
                        [0.79687342, 0.26933706], [0.39016555, -0.08469916],
                        [0.3994399, 0.13601573], [0.26752049, -0.03978988],
                        [0.24026485, 0.01953518], [0.49490503, 0.17239737],
                        [0.70171827, 0.5323737], [0.43221576, 0.42357294],
                        [0.62864856, 0.45504447], [0.6259567, 0.30917324],
                        [0.58272403, 0.20760754], [0.3938784, 0.17184466],
                        [0.14154948, 0.06201424], [0.80202323, 0.40582692],
                        [0.46779595, 0.39946754], [0.57660199, 0.21821317],
                        [0.51044761, 0.03699459], [0.8690704, 0.70847635]]),
            'B':
            np.asarray([[0.38857596, -0.33775802], [0.49946978, -0.48727951],
                        [-0.30119743, -0.11221681], [-0.16479252, -0.08640519],
                        [-0.21808884, -0.56508327], [-0.14683258, -0.46528508],
                        [-0.05888195, -0.51474852], [0.20517435, -0.66839091],
                        [0.25475584, -0.21239966], [0.55194854, 0.02789679],
                        [-0.11542951, -0.54157026], [0.44625538, -0.49485869],
                        [-0.14609118, -0.60719757], [0.18121305, -0.1922198],
                        [0.19283785, -0.31798925], [0.29626405, -0.54563098],
                        [-0.39044304, -0.36527253], [-0.29432215, -0.43924164],
                        [-0.40294517, -0.31381308], [0.49156185, -0.3660534]]),
            'C':
            np.asarray([[-0.68088231, 0.46824423], [-0.56167659, 0.65270294],
                        [-0.54323753, 0.67630888], [-0.57685569, -0.08515631],
                        [-0.67765364, 0.19654347], [-0.62129115, 0.22223066],
                        [-0.78040851, 0.65247848], [-0.50730279, 0.59898039],
                        [-0.64275805, 0.63381998], [-0.72854201, 0.14151325],
                        [-0.57004437, 0.12344874], [-0.55215973, 0.74331215],
                        [-0.60916047, 0.52006917], [-0.23093745, 1.],
                        [-0.84025337, 0.5564536], [-0.66952391, 0.57918859],
                        [-0.67725082, 0.60439934], [-1., 0.23715261],
                        [-0.62933025, 0.19055405], [-0.82139073, 0.29941512]])
        }

        test_input = {
            'A':
            np.asarray([[0.57483139, 0.47120732], [0.48372348, 0.25438544],
                        [0.08791134, 0.11515506], [0.45988094, 0.32854319],
                        [0.53015085, 0.41539212], [0.5073321, 0.47346751],
                        [0.71081819, 0.19202569], [1., 0.51698289],
                        [0.630973, 0.19898666], [0.48142649, 0.15931707]]),
            'B':
            np.asarray([[-0.06048935, -0.48345293], [-0.01065613, -0.33910828],
                        [-0.17323832, -0.49535592], [0.14043268, -0.87869109],
                        [-0.15046837, -0.47340207], [-0.39600934, -0.21647957],
                        [-0.394202, -0.44705385], [0.15243621, -0.36695163],
                        [0.06195634, -0.23262325], [0.06183066, -0.53376975]]),
            'C':
            np.asarray([[-0.74561108, 0.27047295], [-0.69942965, 0.11885162],
                        [-0.52649891, 0.35265538], [-0.54345106, 0.13113995],
                        [-0.57181448, 0.13594725], [-0.33713329, 0.05095243],
                        [-0.65741384, 0.477976], [-0.79986067, 0.41733195],
                        [-0.73856328, 0.80699537], [-0.66489165, 0.1181712]])
        }

        temp = [test_input[k] for k in sorted(test_input)]
        total_array = np.concatenate(temp)

        result = SVM_Classical(training_input,
                               test_input,
                               total_array,
                               multiclass_extension=OneAgainstRest()).run()

        self.assertEqual(result['testing_accuracy'], 1.0)
        self.assertEqual(result['predicted_classes'], [
            'A', 'A', 'A', 'A', 'A', 'A', 'A', 'A', 'A', 'A', 'B', 'B', 'B',
            'B', 'B', 'B', 'B', 'B', 'B', 'B', 'C', 'C', 'C', 'C', 'C', 'C',
            'C', 'C', 'C', 'C'
        ])