!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!! !!!!! !!!!! VERIFICATION CHECK: vc-dimer-continuity-c1 !!!!! !!!!! !!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! Description: Determines whether a model has a continuous energy and first derivative, i.e. belongs to the C^1 continuity class, for all possible dimers. For a model supporting N species, there are N + N!/(2(N-2)! distinct dimers for all possible species combinations. (For example if N=3, there are 3+3!/2=6 dimers. If the species are A,B,C, the 6 dimers are AA, BB, CC, AB, AC, BC.) For each dimer, the equilibrium separation and cutoff are determined. The continuity across the cutoff is assessed. Then an analysis is performed to detect any discontinuities from half the equilibrium distance to the cutoff. Although the verification check only requires C^1 continuity to pass, continuity up to 3rd order is checked and reported. Author: Ellad Tadmor ----------------------------------------------------------------------------------------------------- Results for KIM Model : Morse_Shifted_Glyde_1970_Ne__MO_169434419764_002 Supported species : Ne ----------------------------------------------------------------------------------------------------- DIMER Ne--Ne ----------------------------------------------------------------------------------------------------- E n e r g y E x t r e m a distance energy #iter #fn-calls warnings Equilibrium separation: 3.07780000e+00 -4.18783522e-03 34 68 none Cutoff separation: 8.15000001e+00 0.00000000e+00 28 30 none C u t o f f S m o o t h n e s s value continuous Energy 0.00000000e+00 yes 1st-Deriv 3.97505608e-07 yes 2nd-Deriv -8.38750033e-07 yes 3rd-Deriv 1.76865763e-06 ** NO ** C o n t i n u i t y Checking continuity for r = [1.53890,8.15000] at 662 points (Delta r = 0.01000) Local edge detection based on a normalized 5th-order local difference formula T^5 is used to determine the presence of discontinuities. The tolerance is |T^5|>1.00000. (For details see Anne Gelb and Eitan Tadmor, J. Sci. Comp., 28:279-306, 2006.) Checking Energy (energy vs. distance in file "dimer-energy-NeNe.dat") ... No discontinuities found. Checking 1st-Deriv (1st-deriv vs. distance in file "dimer-energy-deriv-1-NeNe.dat") ... No discontinuities found. Checking 2nd-Deriv (2nd-deriv vs. distance in file "dimer-energy-deriv-2-NeNe.dat") ... No discontinuities found. Checking 3rd-Deriv (3rd-deriv vs. distance in file "dimer-energy-deriv-3-NeNe.dat") ... No discontinuities found. ===================================================================================================== SUMMARY of Model Continuity Results Across All Dimers: continuous ----------------------------- Energy yes 1st-Deriv yes 2nd-Deriv yes 3rd-Deriv ** NO ** ===================================================================================================== Continuity must be C^1 or higher to pass this verification check. Grade: P Comment: The model is C^2 continuous. This means that the model has continuous energy and continuous derivatives up to order 2.