element(s): ['Si'] AFLOW prototype label: A_cI16_206_c Parameter names: ['a', 'x1'] model type (only 'standard' supported at this time): standard number of parameter sets: 1 Parameter values for parameter set 0: ['6.657', '0.10135586'] model name: MEAM_LAMMPS_JelinekGrohHorstemeyer_2012_AlSiMgCuFe__MO_262519520678_002 ==== Building ASE atoms object with: ==== representative atom symbols = ['Si'] representative atom coordinates = [[0.10135586 0.10135586 0.10135586]] spacegroup = 206 cell = [[6.657, 0, 0], [0, 6.657, 0], [0, 0, 6.657]] ========================================= Step Time Energy fmax BFGS: 0 15:38:05 -69.961205 0.778606 BFGS: 1 15:38:05 -70.065593 0.575558 BFGS: 2 15:38:05 -70.095343 0.518120 BFGS: 3 15:38:05 -70.118626 0.454016 BFGS: 4 15:38:05 -70.162618 0.330563 BFGS: 5 15:38:05 -70.200562 0.347846 BFGS: 6 15:38:05 -70.233862 0.268900 BFGS: 7 15:38:06 -70.253205 0.085379 BFGS: 8 15:38:06 -70.254711 0.017800 BFGS: 9 15:38:06 -70.254865 0.002185 BFGS: 10 15:38:06 -70.254868 0.000249 BFGS: 11 15:38:06 -70.254868 0.000008 BFGS: 12 15:38:06 -70.254868 0.000000 BFGS: 13 15:38:06 -70.254868 0.000000 Minimization converged after 13 steps. Maximum force component: 4.0412848463945606e-11 eV/Angstrom Maximum stress component: 2.2670422218415502e-11 eV/Angstrom^3 ==== Minimized structure obtained from ASE ==== symbols = ['Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si', 'Si'] basis = [[0.10244029 0.10244029 0.10244029] [0.39755971 0.89755971 0.60244029] [0.89755971 0.60244029 0.39755971] [0.60244029 0.39755971 0.89755971] [0.60244029 0.60244029 0.60244029] [0.89755971 0.39755971 0.10244029] [0.39755971 0.10244029 0.89755971] [0.10244029 0.89755971 0.39755971] [0.89755971 0.89755971 0.89755971] [0.60244029 0.10244029 0.39755971] [0.10244029 0.39755971 0.60244029] [0.39755971 0.60244029 0.10244029] [0.39755971 0.39755971 0.39755971] [0.10244029 0.60244029 0.89755971] [0.60244029 0.89755971 0.10244029] [0.89755971 0.10244029 0.60244029]] cellpar = Cell([[6.753209552269797, -6.202399735455148e-37, 0.0], [6.025867862174944e-37, 6.753209552269797, 0.0], [0.0, 0.0, 6.753209552269797]]) forces = [[-4.04128485e-11 -4.04128485e-11 -4.04128485e-11] [ 4.04128485e-11 4.04128485e-11 -4.04128485e-11] [ 4.04128485e-11 -4.04128485e-11 4.04128485e-11] [-4.04128485e-11 4.04128485e-11 4.04128485e-11] [-4.04128485e-11 -4.04128485e-11 -4.04128485e-11] [ 4.04128485e-11 4.04128485e-11 -4.04128485e-11] [ 4.04128485e-11 -4.04128485e-11 4.04128485e-11] [-4.04128485e-11 4.04128485e-11 4.04128485e-11] [ 4.04128485e-11 4.04128485e-11 4.04128485e-11] [-4.04128485e-11 -4.04128485e-11 4.04128485e-11] [-4.04128485e-11 4.04128485e-11 -4.04128485e-11] [ 4.04128485e-11 -4.04128485e-11 -4.04128485e-11] [ 4.04128485e-11 4.04128485e-11 4.04128485e-11] [-4.04128485e-11 -4.04128485e-11 4.04128485e-11] [-4.04128485e-11 4.04128485e-11 -4.04128485e-11] [ 4.04128485e-11 -4.04128485e-11 -4.04128485e-11]] stress = [-2.26704222e-11 -2.26704222e-11 -2.26704222e-11 0.00000000e+00 0.00000000e+00 -3.15316572e-34] energy per atom = -4.390929268958306 =============================================== Parameter sets [0] relaxed to duplicate structures, attempting to write only one of them. Successfully added property instance for parameter set 0