element(s): ['Fe'] AFLOW prototype label: A_tP1_123_a Parameter names: ['a', 'c/a'] model type (only 'standard' supported at this time): standard number of parameter sets: 1 Parameter values for parameter set 0: ['2.2256', '1.0359004'] model name: EAM_MagneticCubic_MendelevHanSrolovitz_2003_Fe__MO_856295952425_002 ==== Building ASE atoms object with: ==== representative atom symbols = ['Fe'] representative atom coordinates = [[0 0 0]] spacegroup = 123 cell = [[2.2256, 0, 0], [0, 2.2256, 0], [0, 0, 2.3055]] ========================================= Step Time Energy fmax BFGS: 0 09:50:00 -3.399828 0.947474 BFGS: 1 09:50:00 -3.413021 0.582939 BFGS: 2 09:50:00 -3.416783 0.259697 BFGS: 3 09:50:00 -3.417486 0.045795 BFGS: 4 09:50:00 -3.417508 0.006760 BFGS: 5 09:50:00 -3.417509 0.001981 BFGS: 6 09:50:00 -3.417509 0.000268 BFGS: 7 09:50:00 -3.417509 0.000022 BFGS: 8 09:50:00 -3.417509 0.000000 BFGS: 9 09:50:00 -3.417509 0.000000 Minimization converged after 9 steps. Maximum force component: 0.0 eV/Angstrom Maximum stress component: 6.205913782264105e-10 eV/Angstrom^3 ==== Minimized structure obtained from ASE ==== symbols = ['Fe'] basis = [[0. 0. 0.]] cellpar = Cell([[2.2421368890173534, -1.0543408142577415e-34, 1.6519501909814345e-36], [1.6065802483840617e-35, 2.242136889017353, -4.560395311174187e-18], [-3.211205603737113e-33, -4.534399664894013e-18, 2.24213688937012]]) forces = [[0. 0. 0.]] stress = [-6.20591378e-10 -6.20591378e-10 3.20462823e-11 -8.29910987e-26 -9.34712650e-43 -1.31547539e-58] energy per atom = -3.417509181942239 =============================================== Parameter sets [0] relaxed to duplicate structures, attempting to write only one of them. Prototype label changed during relaxation: test template prototype is A_tP1_123_a, while relaxed is A_cP1_221_a. Skipping parameter set 0. No parameter sets in this group successfully added a property instance. Skipping this group. Potential info: Fe Mendelev potential Atomic number: 26 Potential info: Fe Mendelev potential Atomic number: 26