def test_clique_vqe(self): """ VQE Clique test """ algorithm_cfg = {'name': 'VQE', 'max_evals_grouped': 2} optimizer_cfg = {'name': 'COBYLA'} var_form_cfg = {'name': 'RY', 'depth': 5, 'entanglement': 'linear'} params = { 'problem': { 'name': 'ising', 'random_seed': 10598 }, 'algorithm': algorithm_cfg, 'optimizer': optimizer_cfg, 'variational_form': var_form_cfg } backend = BasicAer.get_backend('statevector_simulator') result = run_algorithm(params, self.algo_input, backend=backend) x = sample_most_likely(result['eigvecs'][0]) ising_sol = clique.get_graph_solution(x) np.testing.assert_array_equal(ising_sol, [1, 1, 1, 1, 1]) oracle = self._brute_force() self.assertEqual(clique.satisfy_or_not(ising_sol, self.w, self.k), oracle)
def test_clique_direct(self): """ Clique Direct test """ algo = ExactEigensolver(self.qubit_op, k=1, aux_operators=[]) result = algo.run() x = sample_most_likely(result['eigvecs'][0]) ising_sol = clique.get_graph_solution(x) np.testing.assert_array_equal(ising_sol, [1, 1, 1, 1, 1]) oracle = self._brute_force() self.assertEqual(clique.satisfy_or_not(ising_sol, self.w, self.k), oracle)
def test_clique(self): """ Clique test """ algo = NumPyMinimumEigensolver(self.qubit_op, aux_operators=[]) result = algo.run() x = sample_most_likely(result.eigenstate) ising_sol = clique.get_graph_solution(x) np.testing.assert_array_equal(ising_sol, [1, 1, 1, 1, 1]) oracle = self._brute_force() self.assertEqual(clique.satisfy_or_not(ising_sol, self.w, self.k), oracle)
def test_clique(self): """ Clique test """ params = { 'problem': {'name': 'ising'}, 'algorithm': {'name': 'ExactEigensolver'} } result = run_algorithm(params, EnergyInput(self.qubit_op)) x = sample_most_likely(result['eigvecs'][0]) ising_sol = clique.get_graph_solution(x) np.testing.assert_array_equal(ising_sol, [1, 1, 1, 1, 1]) oracle = self._brute_force() self.assertEqual(clique.satisfy_or_not(ising_sol, self.w, self.k), oracle)
def test_clique_vqe(self): """ VQE Clique test """ aqua_globals.random_seed = 10598 result = VQE(self.qubit_op, RY(self.qubit_op.num_qubits, depth=5, entanglement='linear'), COBYLA(), max_evals_grouped=2).run( QuantumInstance(BasicAer.get_backend('statevector_simulator'), seed_simulator=aqua_globals.random_seed, seed_transpiler=aqua_globals.random_seed)) x = sample_most_likely(result['eigvecs'][0]) ising_sol = clique.get_graph_solution(x) np.testing.assert_array_equal(ising_sol, [1, 1, 1, 1, 1]) oracle = self._brute_force() self.assertEqual(clique.satisfy_or_not(ising_sol, self.w, self.k), oracle)
def _brute_force(self): # brute-force way: try every possible assignment! def bitfield(n, length): result = np.binary_repr(n, length) return [int(digit) for digit in result] nodes = self.num_nodes # length of the bitstring that represents the assignment maximum = 2**nodes has_sol = False for i in range(maximum): cur = bitfield(i, nodes) cur_v = clique.satisfy_or_not(np.array(cur), self.w, self.k) if cur_v: has_sol = True break return has_sol