1*c4762a1bSJed Brown 2*c4762a1bSJed Brown---- Minimum Surface Area Problem ----- 3*c4762a1bSJed Brownmx: 10 my: 8 4*c4762a1bSJed Brown 5*c4762a1bSJed Browniter = 0, Function value 1.45591, Residual: 1. 6*c4762a1bSJed Browniter = 1, Function value 1.53418, Residual: 0.0182909 7*c4762a1bSJed Browniter = 2, Function value 1.5314, Residual: 0.0103471 8*c4762a1bSJed Browniter = 3, Function value 1.52832, Residual: 0.00487195 9*c4762a1bSJed Browniter = 4, Function value 1.52832, Residual: 0.00334731 10*c4762a1bSJed Browniter = 5, Function value 1.52771, Residual: 0.00181092 11*c4762a1bSJed Browniter = 6, Function value 1.52771, Residual: 0.00143288 12*c4762a1bSJed Browniter = 7, Function value 1.52729, Residual: 0.000716629 13*c4762a1bSJed BrownTao Object: 2 MPI processes 14*c4762a1bSJed Brown type: bmrm 15*c4762a1bSJed Brown convergence tolerances: gatol=0.001, steptol=0., gttol=0. 16*c4762a1bSJed Brown Residual in Function/Gradient:=0.000716629 17*c4762a1bSJed Brown Objective value=1.52729 18*c4762a1bSJed Brown total number of iterations=7, (max: 2000) 19*c4762a1bSJed Brown total number of function/gradient evaluations=8, (max: 4000) 20*c4762a1bSJed Brown Solution converged: ||g(X)|| <= gatol 21