Пример #1
0
def test_purification_TEBD(L=3):
    xxz_pars = dict(L=L, Jxx=1., Jz=3., hz=0., bc_MPS='finite')
    M = XXZChain(xxz_pars)
    for disent in [
            None, 'backwards', 'min(None,last)-renyi', 'noise-norm',
            'renyi-min(None,noise-renyi)'
    ]:
        psi = purification_mps.PurificationMPS.from_infiniteT(
            M.lat.mps_sites(), bc='finite')
        TEBD_params = {
            'trunc_params': {
                'chi_max': 16,
                'svd_min': 1.e-8
            },
            'disentangle': disent,
            'dt': 0.1,
            'verbose': 30,
            'N_steps': 2
        }
        eng = PurificationTEBD(psi, M, TEBD_params)
        eng.run()
        N = psi.expectation_value('Id')  # check normalization : <1> =?= 1
        npt.assert_array_almost_equal_nulp(N, np.ones([L]), 100)
        eng.run_imaginary(0.2)
        N = psi.expectation_value('Id')  # check normalization : <1> =?= 1
        npt.assert_array_almost_equal_nulp(N, np.ones([L]), 100)
        if disent == 'last-renyi':
            eng.run_imaginary(0.3)
            eng.disentangle_global()
Пример #2
0
def test_canoncial_purification(L=6, charge_sector=0, eps=1.e-14):
    site = spin_half
    psi = purification_mps.PurificationMPS.from_infiniteT_canonical(
        [site] * L, [charge_sector])
    psi.test_sanity()
    total_psi = psi.get_theta(0, L).take_slice(0, 'vL').take_slice(0, 'vR')
    total_psi.itranspose(['p' + str(i) for i in range(L)] +
                         ['q' + str(i) for i in range(L)])
    # note: don't `combine_legs`: it will permute the p legs differently than q due to charges
    total_psi_dense = total_psi.to_ndarray().reshape(2**L, 2**L)
    # now it should be diagonal
    diag = np.diag(total_psi_dense)
    assert np.all(
        np.abs(total_psi_dense - np.diag(diag) < eps))  # is it diagonal?
    # and the diagonal should be sqrt(L choose L//2) for states with fitting numbers
    pref = 1. / scipy.special.comb(L, L // 2 + charge_sector)**0.5
    Q_p = site.leg.to_qflat()[:, 0]
    for i, entry in enumerate(diag):
        Q_i = sum([Q_p[int(b)] for b in format(i, 'b').zfill(L)])
        if Q_i == charge_sector:
            assert abs(entry - pref) < eps
        else:
            assert abs(entry) < eps

    # and one quick test of TEBD
    xxz_pars = dict(L=L, Jxx=1., Jz=3., hz=0., bc_MPS='finite')
    M = XXZChain(xxz_pars)
    TEBD_params = {
        'trunc_params': {
            'chi_max': 16,
            'svd_min': 1.e-8
        },
        'disentangle': None,  # 'renyi' should work as well, 'backwards' not.
        'dt': 0.1,
        'N_steps': 2
    }
    eng = PurificationTEBD(psi, M, TEBD_params)
    eng.run_imaginary(0.2)
    eng.run()
    N = psi.expectation_value('Id')  # check normalization : <1> =?= 1
    npt.assert_array_almost_equal_nulp(N, np.ones([L]), 100)