Pete Shadbolt
9 anni fa
1 ha cambiato i file con 18 aggiunte e 19 eliminazioni
-
+18 -19abp/make_tables.py
+ 18
- 19
abp/make_tables.py
Vedi File
| @@ -18,17 +18,14 @@ def find_clifford(needle, haystack): | |||
| """ Find the index of a given u within a list of unitaries, up to a global phase """ | |||
| needle = normalize_global_phase(needle) | |||
| for i, t in enumerate(haystack): | |||
| for phase in range(8): | |||
| if np.allclose(t, np.exp(1j * phase * np.pi / 4.) * needle): | |||
| return i | |||
| if np.allclose(t, needle): | |||
| return i | |||
| raise IndexError | |||
| def normalize_global_phase(m): | |||
| """ Normalize the global phase of a matrix """ | |||
| f = m.flatten() | |||
| v = f[np.flatnonzero(f)[0]] | |||
| print v | |||
| v = [x for x in m.flatten() if np.abs(x)>0.001][0] | |||
| phase = np.arctan2(v.imag, v.real) % np.pi | |||
| rot = np.exp(-1j*phase) | |||
| return rot * m if rot * v > 0 else -rot*m | |||
| @@ -39,6 +36,7 @@ def find_cz(bond, c1, c2, commuters, state_table): | |||
| # Figure out the target state | |||
| state = qi.bond if bond else qi.nobond | |||
| target = qi.cz.dot(state_table[bond, c1, c2]) | |||
| target = normalize_global_phase(target) | |||
| # Choose the sets to search over | |||
| s1 = commuters if c1 in commuters else xrange(24) | |||
| @@ -47,9 +45,8 @@ def find_cz(bond, c1, c2, commuters, state_table): | |||
| # Find a match | |||
| for bond, c1p, c2p in it.product([0, 1], s1, s2): | |||
| trial = state_table[bond, c1p, c2p] | |||
| for phase in range(8): | |||
| if np.allclose(target, np.exp(1j * phase * np.pi / 4.) * trial): | |||
| return bond, c1p, c2p | |||
| if np.allclose(target, trial): | |||
| return bond, c1p, c2p | |||
| # Didn't find anything - this should never happen | |||
| raise IndexError | |||
| @@ -58,7 +55,7 @@ def find_cz(bond, c1, c2, commuters, state_table): | |||
| def compose_u(decomposition): | |||
| """ Get the unitary representation of a particular decomposition """ | |||
| matrices = ({"x": qi.sqx, "z": qi.msqz}[c] for c in decomposition) | |||
| output = reduce(np.dot, matrices, np.matrix(np.eye(2, dtype=complex))) | |||
| output = reduce(np.dot, matrices, np.eye(2, dtype=complex)) | |||
| return normalize_global_phase(output) | |||
| @@ -115,16 +112,18 @@ if __name__ == "__main__": | |||
| by_name = get_by_name(unitaries) | |||
| conjugation_table = get_conjugation_table(unitaries) | |||
| times_table = get_times_table(unitaries) | |||
| # cz_table = get_cz_table(unitaries) | |||
| cz_table = get_cz_table(unitaries) | |||
| # Write it all to disk | |||
| directory = os.path.dirname(os.path.abspath(__file__)) | |||
| where = os.path.join(directory, "tables/") | |||
| os.chdir(where) | |||
| np.save("unitaries.npy", unitaries) | |||
| np.save("conjugation_table.npy", conjugation_table) | |||
| np.save("times_table.npy", times_table) | |||
| #print __file__ | |||
| #directory = os.path.dirname(os.path.realpath(__file__)) | |||
| #print directory | |||
| #where = os.path.join(directory, "tables/") | |||
| #os.chdir(where) | |||
| #np.save("unitaries.npy", unitaries) | |||
| #np.save("conjugation_table.npy", conjugation_table) | |||
| #np.save("times_table.npy", times_table) | |||
| # np.save("cz_table.npy", cz_table) | |||
| with open("by_name.json", "wb") as f: | |||
| json.dump(by_name, f) | |||
| #with open("by_name.json", "wb") as f: | |||
| #json.dump(by_name, f) | |||