Ignoring 3 constraints. I INITIAL X(I) D(I) 1 .250000E+00 .100E+01 2 .500000E+00 .100E+01 3 .750000E+00 .100E+01 IT NF F RELDF PRELDF RELDX STPPAR D*STEP NPRELDF 0 1 .556E-01 1 3 .209E-01 .62E+00 .68E+00 .3E-01 .1E+02 .6E-01 .36E+01 2 4 .685E-02 .67E+00 .17E+01 .5E-01 .2E+01 .1E+00 .18E+01 3 5 .467E-03 .93E+00 .13E+01 .2E-01 .0E+00 .5E-01 .13E+01 4 6 .661E-05 .99E+00 .87E+00 .4E-02 .0E+00 .1E-01 .87E+00 5 7 .852E-08 .10E+01 .10E+01 .6E-03 .0E+00 .1E-02 .10E+01 6 8 .144E-12 .10E+01 .10E+01 .2E-04 .0E+00 .5E-04 .10E+01 7 9 .325E-20 .10E+01 .10E+01 .8E-07 .0E+00 .2E-06 .10E+01 ***** ABSOLUTE FUNCTION CONVERGENCE ***** FUNCTION .325288E-20 RELDX .833E-07 FUNC. EVALS 9 GRAD. EVALS 8 PRELDF .100E+01 NPRELDF .100E+01 I FINAL X(I) D(I) G(I) 1 .146447E+00 .100E+01 .112E-09 2 .500000E+00 .100E+01 .333E-10 3 .853553E+00 .100E+01 -.185E-09 mng: Absolute Function Convergence; function = 3.2528777751399436e-21 RELDX = 8.33e-08; PRELDF = 1; NPRELDF = 1 9 func. evals; 8 grad. evals