Beispiel #1
0
# directories = [directories[0]]
for directory in directories:
    paths_simulations += sorted(
        glob(os.path.join(path_root, directory, "NS2D*")))

# Define lists
froudes = []
reynoldsb = []
reynolds8 = []
anisotropies = []
dissipations = []
markers = []

for path in paths_simulations:

    anisotropy, ratio_diss, F_h, Re_8, R_b, l_x, l_z = get_features_from_sim(
        path)
    res = _get_resolution_from_dir(path)

    # Append data to lists
    if res == "960":
        markers.append("o")
    elif res == "1920":
        markers.append("s")
    elif res == "3840":
        markers.append("^")
    elif res == "7680":
        markers.append("d")

    froudes.append(F_h)
    reynoldsb.append(R_b)
    reynolds8.append(Re_8)
Beispiel #2
0
# ax.text(0.6, 2e-12, r"$\log_{10} \left(\frac{k_{x, 1/2}}{k_{x, f}}\right)$", fontsize=16)
ax.tick_params(axis="x", labelsize=18)
ax.tick_params(axis="y", labelsize=18)
# ax.set_xlim([0.003, 1])
# ax.set_ylim([1e-9, 10])

for path in paths_simulations:
    gamma_str = _get_gamma_str_from_path(path)
    if gamma_str.startswith("2"):
        continue
    else:
        # F_h, Re_8, R_b = compute_buoyancy_reynolds(path)
        # anisotropy = compute_anisotropy(path)
        # dissipation = compute_ratio_dissipation(path)

        anisotropy, dissipation, F_h, Re_8, R_b = get_features_from_sim(path)
        res = _get_resolution_from_dir(path)
        lx, lz = compute_length_scales(path)

        # Compute
        ux_rms = []
        path_phys_files = glob(path + "/state_phys_t*")
        for path_file in path_phys_files[-10:]:
            with h5py.File(path_file, "r") as f:
                ux = f["state_phys"]["ux"][...]
            ux_rms.append(np.sqrt(np.mean(ux**2)))

        # Load parameters
        params = load_params_simul(path)

        lzs_billant.append(lz * params.N / np.mean(ux_rms))