Starting serial execution BLN sequence of 46 beads read: B B B B B B B B B N N N L B L B L B L B N N N B B B B B B B B B N N N L B L B L B L B L B L BLN dihedral types: E E E E E E E T T T T E E E E E E E T T T T E E E E E E E E T T T T E E E E E E E E E B-B LJ coefficients: 1.00000 -1.00000 L-L LJ coefficients: 0.66667 0.66667 N-N LJ coefficients: 1.00000 0.00000 Helix dihedral coefficients: 1.20000 0.00000 1.20000 0.00000 Extended dihedral coefficients: 1.20000 0.00000 1.20000 0.00000 Turn dihedral coefficients: 0.00000 0.00000 0.20000 0.00000 Initial coordinates: -0.6228414349 0.6547969757 -4.1242191156 -0.6228414349 0.6547969757 -4.1242191156 -0.0899179441 0.2338842221 -3.3918825713 -0.7836134881 -0.2215668806 -2.8391162598 -0.2501055916 -0.6247686859 -2.0963245905 -0.9174608799 -1.1143793599 -1.5418897395 -0.3443912345 -1.4403254710 -0.7923445749 -0.9117437231 -1.9929993981 -0.2001981809 -0.2307207938 -2.1715101360 0.5149033384 -0.5800821016 -2.7576676777 1.2345428459 0.2343915393 -2.9469294818 1.8026544117 0.6225869982 -2.0539538969 2.0390781244 1.5870177104 -2.1537032186 2.2929923268 1.8759307279 -1.1938912421 2.3124586621 1.3639074629 -0.8438159216 1.5261694037 1.4953027620 0.1419722618 1.3982062135 0.8872667860 0.2678470054 0.6116266482 0.8342353213 1.2213512678 0.3103653143 0.1869570693 1.1153362221 -0.4508389757 0.0004577804 2.0007765525 -0.8778026513 0.0004577804 2.0007765525 -0.8778026513 -0.6411618946 1.7587131259 -1.6121588389 -0.8699262138 2.6232730527 -2.0558040201 -1.5673501969 2.3879759927 -2.7325462626 -0.0899179441 0.2338842221 -3.3918825713 -0.7836134881 -0.2215668806 -2.8391162598 -0.2501055916 -0.6247686859 -2.0963245905 -0.2501055916 -0.6247686859 -2.0963245905 -0.9174608799 -1.1143793599 -1.5418897395 -0.3443912345 -1.4403254710 -0.7923445749 -0.9117437231 -1.9929993981 -0.2001981809 -0.2307207938 -2.1715101360 0.5149033384 -0.5800821016 -2.7576676777 1.2345428459 0.2343915393 -2.9469294818 1.8026544117 0.6225869982 -2.0539538969 2.0390781244 1.5870177104 -2.1537032186 2.2929923268 1.8759307279 -1.1938912421 2.3124586621 1.3639074629 -0.8438159216 1.5261694037 1.4953027620 0.1419722618 1.3982062135 -0.9174608799 -1.1143793599 -1.5418897395 -0.3443912345 -1.4403254710 -0.7923445749 -0.9117437231 -1.9929993981 -0.2001981809 -0.2307207938 -2.1715101360 0.5149033384 -0.5800821016 -2.7576676777 1.2345428459 0.2343915393 -2.9469294818 1.8026544117 0.6225869982 -2.0539538969 2.0390781244 46 bead BLN model Sloppy quench tolerance for RMS gradient 0.0100000000 In run 1 temperature fixed at 0.3000 Step size and angular threshold will be adjusted for acceptance ratio 0.5000 initial values= 0.3000 0.3000 Configuration will be reset to quench geometry Sampling using Boltzmann weights Nocedal LBFGS minimization Number of updates before reset in LBFGS= 50 Maximum step size= 0.3000000000 Guess for initial diagonal elements in LBFGS= 10.00 Final quench tolerance for RMS gradient 0.0000001000 Energy difference criterion for minima= 0.0010000000 Maximum number of iterations: sloppy quenches 10000 final quenches 10000 Maximum allowed energy rise during a minimisation= 0.1000000000E-09 GA> Population= 100 GA> Offspring= 80 GA> Mutation rate= 0.100 GA> Tournament selection, size= 3 GA> Using 1-point crossover Calculating initial energy Qu 0 E= 17.1770415712 steps= 360 RMS= 0.96101E-02 Markov E= 17.17704157 t= 0.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 34.4682240669 steps= 391 RMS= 0.94204E-02 Markov E= 34.46822407 t= 0.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 18.9207665848 steps= 205 RMS= 0.91150E-02 Markov E= 18.92076658 t= 0.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.9066031271 steps= 411 RMS= 0.97086E-02 Markov E= -9.906603127 t= 0.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 32.0941073653 steps= 397 RMS= 0.96373E-02 Markov E= 32.09410737 t= 0.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.0730908499 steps= 351 RMS= 0.98533E-02 Markov E= 0.7309084988E-01 t= 0.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.4848206848 steps= 535 RMS= 0.86962E-02 Markov E= 5.484820685 t= 0.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 25.8007875166 steps= 578 RMS= 0.88117E-02 Markov E= 25.80078752 t= 0.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.3906166122 steps= 318 RMS= 0.87207E-02 Markov E= 24.39061661 t= 0.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 19.7722475392 steps= 331 RMS= 0.99259E-02 Markov E= 19.77224754 t= 0.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.2195218533 steps= 569 RMS= 0.83133E-02 Markov E= -0.2195218533 t= 0.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 22.5590047616 steps= 596 RMS= 0.88764E-02 Markov E= 22.55900476 t= 0.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 31.5700759704 steps= 404 RMS= 0.79040E-02 Markov E= 31.57007597 t= 0.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.4484931898 steps= 548 RMS= 0.93786E-02 Markov E= 12.44849319 t= 0.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 23.0500468280 steps= 525 RMS= 0.90808E-02 Markov E= 23.05004683 t= 0.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 20.3594923364 steps= 444 RMS= 0.82422E-02 Markov E= 20.35949234 t= 0.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.3040394824 steps= 549 RMS= 0.81400E-02 Markov E= 7.304039482 t= 0.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 32.8432452477 steps= 437 RMS= 0.87004E-02 Markov E= 32.84324525 t= 0.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 25.5233530372 steps= 459 RMS= 0.93655E-02 Markov E= 25.52335304 t= 0.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.5969003839 steps= 490 RMS= 0.91339E-02 Markov E= 1.596900384 t= 0.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 16.7639364235 steps= 429 RMS= 0.80503E-02 Markov E= 16.76393642 t= 0.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 25.7585083096 steps= 678 RMS= 0.80843E-02 Markov E= 25.75850831 t= 0.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.0084031875 steps= 651 RMS= 0.91991E-02 Markov E= 24.00840319 t= 0.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 27.8118944552 steps= 449 RMS= 0.91132E-02 Markov E= 27.81189446 t= 0.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.9711631690 steps= 865 RMS= 0.94835E-02 Markov E= 3.971163169 t= 1.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.4113169699 steps= 394 RMS= 0.93148E-02 Markov E= 13.41131697 t= 1.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 57.5422910811 steps= 373 RMS= 0.89528E-02 Markov E= 57.54229108 t= 1.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 23.9132295263 steps= 640 RMS= 0.78028E-02 Markov E= 23.91322953 t= 1.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.8204470221 steps= 514 RMS= 0.76366E-02 Markov E= 4.820447022 t= 1.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.7068720908 steps= 394 RMS= 0.87404E-02 Markov E= 3.706872091 t= 1.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.2226281434 steps= 754 RMS= 0.79313E-02 Markov E= 7.222628143 t= 1.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 18.0707784901 steps= 629 RMS= 0.97933E-02 Markov E= 18.07077849 t= 1.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.2985702419 steps= 553 RMS= 0.97545E-02 Markov E= 2.298570242 t= 1.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.8864535083 steps= 505 RMS= 0.96907E-02 Markov E= 4.886453508 t= 1.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.9342456317 steps= 540 RMS= 0.89512E-02 Markov E= -6.934245632 t= 1.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 20.9035649235 steps= 329 RMS= 0.86577E-02 Markov E= 20.90356492 t= 1.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.0810386165 steps= 312 RMS= 0.77199E-02 Markov E= 9.081038617 t= 1.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.5050860672 steps= 420 RMS= 0.92539E-02 Markov E= -10.50508607 t= 1.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.4761832711 steps= 367 RMS= 0.95765E-02 Markov E= 0.4761832711 t= 1.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 11.0656885924 steps= 521 RMS= 0.81340E-02 Markov E= 11.06568859 t= 1.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.2611427476 steps= 486 RMS= 0.97385E-02 Markov E= 8.261142748 t= 1.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.4770048764 steps= 333 RMS= 0.90098E-02 Markov E= 24.47700488 t= 1.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.4725273971 steps= 465 RMS= 0.83779E-02 Markov E= -0.4725273971 t= 1.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 48.9247729159 steps= 621 RMS= 0.75665E-02 Markov E= 48.92477292 t= 1.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.0556564369 steps= 247 RMS= 0.83289E-02 Markov E= 4.055656437 t= 1.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 16.0928165258 steps= 416 RMS= 0.89281E-02 Markov E= 16.09281653 t= 1.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.1440493265 steps= 495 RMS= 0.98927E-02 Markov E= 0.1440493265 t= 1.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 19.0890741240 steps= 227 RMS= 0.95190E-02 Markov E= 19.08907412 t= 1.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.1006775705 steps= 454 RMS= 0.97722E-02 Markov E= 9.100677570 t= 2.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 29.2823662139 steps= 480 RMS= 0.98611E-02 Markov E= 29.28236621 t= 2.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.0434534876 steps= 799 RMS= 0.99100E-02 Markov E= 1.043453488 t= 2.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.5225928073 steps= 323 RMS= 0.99270E-02 Markov E= 2.522592807 t= 2.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 20.6076298718 steps= 343 RMS= 0.90359E-02 Markov E= 20.60762987 t= 2.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.5285410661 steps= 390 RMS= 0.76393E-02 Markov E= 8.528541066 t= 2.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.9741998066 steps= 339 RMS= 0.93220E-02 Markov E= 4.974199807 t= 2.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.3891548370 steps= 416 RMS= 0.93754E-02 Markov E= 4.389154837 t= 2.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.5208406592 steps= 505 RMS= 0.96891E-02 Markov E= 24.52084066 t= 2.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 17.4375669711 steps= 388 RMS= 0.96926E-02 Markov E= 17.43756697 t= 2.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.9770256133 steps= 328 RMS= 0.97736E-02 Markov E= 13.97702561 t= 2.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 16.3038014163 steps= 490 RMS= 0.87404E-02 Markov E= 16.30380142 t= 2.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 20.2730431240 steps= 451 RMS= 0.85599E-02 Markov E= 20.27304312 t= 2.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 16.5931476968 steps= 303 RMS= 0.88738E-02 Markov E= 16.59314770 t= 2.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 28.9349488606 steps= 449 RMS= 0.97112E-02 Markov E= 28.93494886 t= 2.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 15.8537293044 steps= 317 RMS= 0.96413E-02 Markov E= 15.85372930 t= 2.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 26.7993822775 steps= 439 RMS= 0.92418E-02 Markov E= 26.79938228 t= 2.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.5969933514 steps= 513 RMS= 0.98357E-02 Markov E= 2.596993351 t= 2.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.8041931629 steps= 428 RMS= 0.97797E-02 Markov E= 13.80419316 t= 2.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 16.8670689946 steps= 377 RMS= 0.84490E-02 Markov E= 16.86706899 t= 2.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 14.6110793020 steps= 577 RMS= 0.98322E-02 Markov E= 14.61107930 t= 2.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.1375542738 steps= 797 RMS= 0.81328E-02 Markov E= 1.137554274 t= 2.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.1983624029 steps= 408 RMS= 0.87806E-02 Markov E= 24.19836240 t= 2.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.9863398330 steps= 383 RMS= 0.83994E-02 Markov E= 7.986339833 t= 2.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.2714378620 steps= 484 RMS= 0.97393E-02 Markov E= 24.27143786 t= 2.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.5821055524 steps= 243 RMS= 0.90939E-02 Markov E= -3.582105552 t= 2.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 28.7228007929 steps= 496 RMS= 0.87938E-02 Markov E= 28.72280079 t= 2.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.5725785904 steps= 319 RMS= 0.81979E-02 Markov E= -2.572578590 t= 3.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.9956255013 steps= 495 RMS= 0.83267E-02 Markov E= 6.995625501 t= 3.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 23.6425046666 steps= 344 RMS= 0.88280E-02 Markov E= 23.64250467 t= 3.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.7245838523 steps= 408 RMS= 0.99727E-02 Markov E= 24.72458385 t= 3.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.0902055397 steps= 334 RMS= 0.96778E-02 Markov E= 6.090205540 t= 3.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.6852944611 steps= 425 RMS= 0.86460E-02 Markov E= -2.685294461 t= 3.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.2666524489 steps= 393 RMS= 0.80804E-02 Markov E= 12.26665245 t= 3.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.1685470702 steps= 609 RMS= 0.96842E-02 Markov E= 3.168547070 t= 3.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.5236467556 steps= 564 RMS= 0.99578E-02 Markov E= 9.523646756 t= 3.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.3018248318 steps= 516 RMS= 0.88586E-02 Markov E= 1.301824832 t= 3.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 20.6317873628 steps= 503 RMS= 0.90719E-02 Markov E= 20.63178736 t= 3.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.1367819403 steps= 501 RMS= 0.70544E-02 Markov E= 2.136781940 t= 3.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.0898140689 steps= 576 RMS= 0.96159E-02 Markov E= -4.089814069 t= 3.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 18.2832074142 steps= 558 RMS= 0.95848E-02 Markov E= 18.28320741 t= 3.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.3379780102 steps= 582 RMS= 0.98975E-02 Markov E= -2.337978010 t= 3.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.2936723948 steps= 414 RMS= 0.93199E-02 Markov E= -2.293672395 t= 3.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 26.9708909703 steps= 374 RMS= 0.99119E-02 Markov E= 26.97089097 t= 3.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 11.1213226284 steps= 346 RMS= 0.95961E-02 Markov E= 11.12132263 t= 3.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 16.3274479883 steps= 542 RMS= 0.84984E-02 Markov E= 16.32744799 t= 3.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 18.7689888931 steps= 615 RMS= 0.78567E-02 Markov E= 18.76898889 t= 3.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.6633030851 steps= 400 RMS= 0.87103E-02 Markov E= 24.66330309 t= 3.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.5816034722 steps= 724 RMS= 0.99483E-02 Markov E= 7.581603472 t= 3.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.8103831698 steps= 325 RMS= 0.99135E-02 Markov E= 13.81038317 t= 3.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.3093358792 steps= 349 RMS= 0.98576E-02 Markov E= 8.309335879 t= 3.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 21.8657820404 steps= 382 RMS= 0.93903E-02 Markov E= 21.86578204 t= 3.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.8114543015 steps= 263 RMS= 0.78159E-02 Markov E= 3.811454302 t= 4.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.4956342955 steps= 291 RMS= 0.77506E-02 Markov E= 9.495634295 t= 4.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.1886694226 steps= 206 RMS= 0.80588E-02 Markov E= -2.188669423 t= 4.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.4149977600 steps= 494 RMS= 0.96087E-02 Markov E= -2.414997760 t= 4.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.4471267278 steps= 153 RMS= 0.92447E-02 Markov E= -2.447126728 t= 4.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.4350842438 steps= 185 RMS= 0.63747E-02 Markov E= 4.435084244 t= 4.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 11.5922135604 steps= 185 RMS= 0.83431E-02 Markov E= 11.59221356 t= 4.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.0283556151 steps= 431 RMS= 0.89436E-02 Markov E= -0.2835561506E-01 t= 4.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.6718133691 steps= 319 RMS= 0.98184E-02 Markov E= -5.671813369 t= 4.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.2666524489 steps= 0 RMS= 0.80804E-02 Markov E= 12.26665245 t= 4.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 16.7834343597 steps= 686 RMS= 0.89822E-02 Markov E= 16.78343436 t= 4.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.6713060464 steps= 117 RMS= 0.89984E-02 Markov E= 24.67130605 t= 4.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.1396449863 steps= 136 RMS= 0.94985E-02 Markov E= 8.139644986 t= 4.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 22.2588020170 steps= 440 RMS= 0.96909E-02 Markov E= 22.25880202 t= 4.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.2703915121 steps= 227 RMS= 0.89247E-02 Markov E= 1.270391512 t= 4.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.0805524670 steps= 196 RMS= 0.76734E-02 Markov E= 2.080552467 t= 4.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.7414441458 steps= 279 RMS= 0.92568E-02 Markov E= 7.741444146 t= 4.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.8124315787 steps= 232 RMS= 0.94967E-02 Markov E= -2.812431579 t= 4.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.5474707291 steps= 169 RMS= 0.99323E-02 Markov E= 13.54747073 t= 4.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.8865320764 steps= 315 RMS= 0.91389E-02 Markov E= 13.88653208 t= 4.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.9852513964 steps= 72 RMS= 0.87174E-02 Markov E= -3.985251396 t= 4.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 25.6033229397 steps= 229 RMS= 0.81362E-02 Markov E= 25.60332294 t= 4.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 14.5588962005 steps= 243 RMS= 0.88907E-02 Markov E= 14.55889620 t= 4.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 26.5206634094 steps= 321 RMS= 0.94293E-02 Markov E= 26.52066341 t= 4.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 21.1170546435 steps= 333 RMS= 0.97847E-02 Markov E= 21.11705464 t= 4.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.5092474995 steps= 302 RMS= 0.97147E-02 Markov E= 9.509247500 t= 4.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 25.1816512849 steps= 432 RMS= 0.90438E-02 Markov E= 25.18165128 t= 4.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.9307320669 steps= 516 RMS= 0.98059E-02 Markov E= 9.930732067 t= 4.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 22.7571281616 steps= 218 RMS= 0.85061E-02 Markov E= 22.75712816 t= 4.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.1359663789 steps= 408 RMS= 0.97025E-02 Markov E= -8.135966379 t= 4.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.0714308452 steps= 5 RMS= 0.93145E-02 Markov E= 24.07143085 t= 4.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.7254584079 steps= 341 RMS= 0.93893E-02 Markov E= 8.725458408 t= 4.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.9404110204 steps= 453 RMS= 0.91753E-02 Markov E= 4.940411020 t= 4.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.4890648491 steps= 433 RMS= 0.91571E-02 Markov E= 8.489064849 t= 4.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2561354006 steps= 327 RMS= 0.78817E-02 Markov E= -21.25613540 t= 4.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.0489311750 steps= 179 RMS= 0.80819E-02 Markov E= 1.048931175 t= 4.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.0238797488 steps= 257 RMS= 0.95236E-02 Markov E= 1.023879749 t= 4.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.8217987018 steps= 207 RMS= 0.93627E-02 Markov E= 3.821798702 t= 4.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.1367819403 steps= 0 RMS= 0.70544E-02 Markov E= 2.136781940 t= 4.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 15.0512264441 steps= 156 RMS= 0.80619E-02 Markov E= 15.05122644 t= 4.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 15.4624997471 steps= 16 RMS= 0.98979E-02 Markov E= 15.46249975 t= 4.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.9285953646 steps= 283 RMS= 0.85622E-02 Markov E= 24.92859536 t= 4.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.0713157684 steps= 133 RMS= 0.99113E-02 Markov E= -1.071315768 t= 4.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.3628728751 steps= 100 RMS= 0.99884E-02 Markov E= 5.362872875 t= 4.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 18.6826150001 steps= 137 RMS= 0.94620E-02 Markov E= 18.68261500 t= 4.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 15.3580492953 steps= 303 RMS= 0.87782E-02 Markov E= 15.35804930 t= 4.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.9416801445 steps= 409 RMS= 0.83870E-02 Markov E= 5.941680145 t= 5.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.0694042518 steps= 299 RMS= 0.97735E-02 Markov E= 10.06940425 t= 5.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.4483470807 steps= 453 RMS= 0.72562E-02 Markov E= 13.44834708 t= 5.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.0918615891 steps= 217 RMS= 0.99277E-02 Markov E= 10.09186159 t= 5.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.3525350034 steps= 414 RMS= 0.93804E-02 Markov E= 9.352535003 t= 5.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.0926905680 steps= 303 RMS= 0.89249E-02 Markov E= 1.092690568 t= 5.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.9044309069 steps= 123 RMS= 0.85208E-02 Markov E= 10.90443091 t= 5.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.6282128939 steps= 230 RMS= 0.96965E-02 Markov E= -0.6282128939 t= 5.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.6416275990 steps= 312 RMS= 0.95524E-02 Markov E= 6.641627599 t= 5.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.3966149898 steps= 567 RMS= 0.74332E-02 Markov E= 9.396614990 t= 5.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.1029529348 steps= 404 RMS= 0.98515E-02 Markov E= -0.1029529348 t= 5.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.6550134231 steps= 211 RMS= 0.93771E-02 Markov E= -0.6550134231 t= 5.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.6756712598 steps= 23 RMS= 0.86964E-02 Markov E= 3.675671260 t= 5.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 28.1648847510 steps= 604 RMS= 0.81173E-02 Markov E= 28.16488475 t= 5.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 23.4541245263 steps= 247 RMS= 0.88360E-02 Markov E= 23.45412453 t= 5.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 28.8694567046 steps= 220 RMS= 0.90678E-02 Markov E= 28.86945670 t= 5.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.1389164165 steps= 236 RMS= 0.96811E-02 Markov E= 10.13891642 t= 5.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.7790759481 steps= 178 RMS= 0.77190E-02 Markov E= 13.77907595 t= 5.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4397152658 steps= 587 RMS= 0.63301E-02 Markov E= -15.43971527 t= 5.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 19.4302492844 steps= 234 RMS= 0.91683E-02 Markov E= 19.43024928 t= 5.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 14.6108837520 steps= 14 RMS= 0.92267E-02 Markov E= 14.61088375 t= 5.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 20.3113134054 steps= 224 RMS= 0.90255E-02 Markov E= 20.31131341 t= 5.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 19.7441664870 steps= 312 RMS= 0.84918E-02 Markov E= 19.74416649 t= 5.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.8365083855 steps= 371 RMS= 0.96820E-02 Markov E= 6.836508385 t= 5.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.5347189341 steps= 17 RMS= 0.76850E-02 Markov E= 6.534718934 t= 5.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.3846525504 steps= 270 RMS= 0.99191E-02 Markov E= 12.38465255 t= 5.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 11.0160563416 steps= 461 RMS= 0.95778E-02 Markov E= 11.01605634 t= 5.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 11.7155850472 steps= 5 RMS= 0.93631E-02 Markov E= 11.71558505 t= 5.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.5478776751 steps= 354 RMS= 0.96874E-02 Markov E= 7.547877675 t= 5.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.7642746971 steps= 223 RMS= 0.80485E-02 Markov E= -0.7642746971 t= 5.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.4450471841 steps= 274 RMS= 0.95341E-02 Markov E= 6.445047184 t= 5.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.1129527395 steps= 45 RMS= 0.96608E-02 Markov E= 3.112952740 t= 5.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 19.0890001303 steps= 14 RMS= 0.89295E-02 Markov E= 19.08900013 t= 5.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 20.1052642356 steps= 224 RMS= 0.83586E-02 Markov E= 20.10526424 t= 5.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.2178060756 steps= 118 RMS= 0.76592E-02 Markov E= -2.217806076 t= 5.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.5238417306 steps= 153 RMS= 0.70237E-02 Markov E= 8.523841731 t= 5.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.5208156075 steps= 233 RMS= 0.93501E-02 Markov E= 9.520815608 t= 5.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.0739932553 steps= 406 RMS= 0.79061E-02 Markov E= 7.073993255 t= 5.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 14.1050257071 steps= 332 RMS= 0.67743E-02 Markov E= 14.10502571 t= 5.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 23.1343329504 steps= 203 RMS= 0.97661E-02 Markov E= 23.13433295 t= 5.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 24.4747380442 steps= 85 RMS= 0.98205E-02 Markov E= 24.47473804 t= 5.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 23.3766268453 steps= 91 RMS= 0.76315E-02 Markov E= 23.37662685 t= 5.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 29.0550921676 steps= 531 RMS= 0.98886E-02 Markov E= 29.05509217 t= 5.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.8777837210 steps= 86 RMS= 0.80759E-02 Markov E= 2.877783721 t= 5.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 22.7578479381 steps= 435 RMS= 0.97865E-02 Markov E= 22.75784794 t= 5.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 26.9886748868 steps= 191 RMS= 0.96470E-02 Markov E= 26.98867489 t= 5.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.4397990410 steps= 262 RMS= 0.79755E-02 Markov E= 7.439799041 t= 6.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.0449970566 steps= 74 RMS= 0.98084E-02 Markov E= 2.044997057 t= 6.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 21.4741263877 steps= 236 RMS= 0.98303E-02 Markov E= 21.47412639 t= 6.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.6343540833 steps= 454 RMS= 0.88151E-02 Markov E= 12.63435408 t= 6.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.2760992782 steps= 281 RMS= 0.91459E-02 Markov E= 5.276099278 t= 6.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.4569124083 steps= 152 RMS= 0.95799E-02 Markov E= -4.456912408 t= 6.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2564772248 steps= 132 RMS= 0.96025E-07 Markov E= -21.25647722 t= 6.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 1 Best= -21.256477 Mean= 2.844127 Worst= 11.016056 Time= 6.064078 GA> Generation= 1 Duplicates= 0.000000 Offspring in new pop.= 0.600000 Mutants in new pop.= 0.500000 Calculating initial energy Qu 0 E= 16.1732134465 steps= 315 RMS= 0.87102E-02 Markov E= 16.17321345 t= 6.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.2901669227 steps= 423 RMS= 0.85504E-02 Markov E= -4.290166923 t= 6.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.3175580164 steps= 324 RMS= 0.87187E-02 Markov E= 0.3175580164 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.5381238568 steps= 190 RMS= 0.97691E-02 Markov E= 7.538123857 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.0583598824 steps= 172 RMS= 0.91713E-02 Markov E= -11.05835988 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.6990879883 steps= 80 RMS= 0.91210E-02 Markov E= -2.699087988 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.7240962833 steps= 38 RMS= 0.93004E-02 Markov E= 1.724096283 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.9315870327 steps= 181 RMS= 0.94610E-02 Markov E= -1.931587033 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.2550817512 steps= 214 RMS= 0.91853E-02 Markov E= -9.255081751 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.2804140792 steps= 255 RMS= 0.79886E-02 Markov E= 0.2804140792 t= 6.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.1540329128 steps= 80 RMS= 0.92390E-02 Markov E= -0.1540329128 t= 6.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.5479267504 steps= 144 RMS= 0.89656E-02 Markov E= -6.547926750 t= 6.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.8951901150 steps= 214 RMS= 0.85828E-02 Markov E= -4.895190115 t= 6.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.1236164715 steps= 266 RMS= 0.81346E-02 Markov E= 3.123616471 t= 6.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.9603926624 steps= 251 RMS= 0.81864E-02 Markov E= -8.960392662 t= 6.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.0218081552 steps= 204 RMS= 0.79238E-02 Markov E= 8.021808155 t= 6.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.0047719276 steps= 178 RMS= 0.80996E-02 Markov E= -8.004771928 t= 6.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 23.2318018229 steps= 156 RMS= 0.91769E-02 Markov E= 23.23180182 t= 6.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.4892248450 steps= 577 RMS= 0.97341E-02 Markov E= 5.489224845 t= 6.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.4800839453 steps= 244 RMS= 0.95322E-02 Markov E= 9.480083945 t= 6.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.6019158946 steps= 331 RMS= 0.87807E-02 Markov E= 3.601915895 t= 6.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.0908727347 steps= 36 RMS= 0.88995E-02 Markov E= -0.9087273469E-01 t= 6.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.4220414682 steps= 251 RMS= 0.94686E-02 Markov E= -3.422041468 t= 6.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.1245578771 steps= 179 RMS= 0.91150E-02 Markov E= 1.124557877 t= 6.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4606703994 steps= 308 RMS= 0.83062E-02 Markov E= -15.46067040 t= 6.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.2942978539 steps= 408 RMS= 0.85323E-02 Markov E= -10.29429785 t= 6.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6867131079 steps= 577 RMS= 0.93587E-02 Markov E= -6.686713108 t= 6.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.9411980725 steps= 259 RMS= 0.85341E-02 Markov E= 2.941198072 t= 6.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.2298797104 steps= 265 RMS= 0.86720E-02 Markov E= -0.2298797104 t= 6.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.4302975926 steps= 235 RMS= 0.93471E-02 Markov E= -8.430297593 t= 6.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.8341082206 steps= 57 RMS= 0.98616E-02 Markov E= 8.834108221 t= 6.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.9554707272 steps= 89 RMS= 0.96615E-02 Markov E= -9.955470727 t= 6.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.7645633526 steps= 207 RMS= 0.92500E-02 Markov E= -11.76456335 t= 6.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.2455724141 steps= 190 RMS= 0.92642E-02 Markov E= 7.245572414 t= 6.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.0127358176 steps= 129 RMS= 0.94574E-02 Markov E= 1.012735818 t= 6.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.4417920893 steps= 265 RMS= 0.93832E-02 Markov E= -4.441792089 t= 6.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.1590221277 steps= 6 RMS= 0.91037E-02 Markov E= 7.159022128 t= 6.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.3384133646 steps= 233 RMS= 0.86386E-02 Markov E= -4.338413365 t= 6.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.3382168828 steps= 51 RMS= 0.71180E-02 Markov E= -2.338216883 t= 6.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.5521875457 steps= 367 RMS= 0.99040E-02 Markov E= -7.552187546 t= 6.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.0148673360 steps= 372 RMS= 0.86933E-02 Markov E= -9.014867336 t= 6.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 11.0025965222 steps= 126 RMS= 0.87574E-02 Markov E= 11.00259652 t= 6.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.1634510788 steps= 669 RMS= 0.83623E-02 Markov E= 8.163451079 t= 6.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.9365618598 steps= 190 RMS= 0.98683E-02 Markov E= 8.936561860 t= 6.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.6962756151 steps= 176 RMS= 0.75329E-02 Markov E= -9.696275615 t= 6.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.3543334863 steps= 435 RMS= 0.93965E-02 Markov E= 10.35433349 t= 7.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 18.7048582568 steps= 437 RMS= 0.85275E-02 Markov E= 18.70485826 t= 7.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.5387584250 steps= 286 RMS= 0.71641E-02 Markov E= 7.538758425 t= 7.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.1138800394 steps= 210 RMS= 0.94065E-02 Markov E= -7.113880039 t= 7.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.7113708117 steps= 166 RMS= 0.91371E-02 Markov E= 13.71137081 t= 7.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.8142658503 steps= 341 RMS= 0.82294E-02 Markov E= 1.814265850 t= 7.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.3613720799 steps= 193 RMS= 0.79537E-02 Markov E= -11.36137208 t= 7.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.1498483232 steps= 28 RMS= 0.82135E-02 Markov E= 6.149848323 t= 7.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 17.2260491387 steps= 143 RMS= 0.81937E-02 Markov E= 17.22604914 t= 7.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.7945653147 steps= 351 RMS= 0.86103E-02 Markov E= 1.794565315 t= 7.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.1667369485 steps= 269 RMS= 0.89379E-02 Markov E= -2.166736949 t= 7.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.6160333463 steps= 232 RMS= 0.92010E-02 Markov E= -4.616033346 t= 7.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.1979521297 steps= 268 RMS= 0.75767E-02 Markov E= -1.197952130 t= 7.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.1182302891 steps= 132 RMS= 0.89046E-02 Markov E= -9.118230289 t= 7.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.8952899489 steps= 324 RMS= 0.99093E-02 Markov E= -0.8952899489 t= 7.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.8867745857 steps= 216 RMS= 0.98288E-02 Markov E= 6.886774586 t= 7.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.4599760287 steps= 195 RMS= 0.94846E-02 Markov E= 7.459976029 t= 7.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.0734806339 steps= 416 RMS= 0.94847E-02 Markov E= -16.07348063 t= 7.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.3317942039 steps= 313 RMS= 0.85692E-02 Markov E= 0.3317942039 t= 7.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.3036320639 steps= 390 RMS= 0.89301E-02 Markov E= 7.303632064 t= 7.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.2414076308 steps= 269 RMS= 0.94596E-02 Markov E= 5.241407631 t= 7.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.5356206084 steps= 152 RMS= 0.98924E-02 Markov E= 7.535620608 t= 7.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.6002555897 steps= 292 RMS= 0.93192E-02 Markov E= 4.600255590 t= 7.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 13.3097566588 steps= 508 RMS= 0.98823E-02 Markov E= 13.30975666 t= 7.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.0091200498 steps= 225 RMS= 0.93797E-02 Markov E= -5.009120050 t= 7.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 14.5790368598 steps= 340 RMS= 0.91289E-02 Markov E= 14.57903686 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.2179659324 steps= 232 RMS= 0.99011E-02 Markov E= 10.21796593 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.6739105782 steps= 194 RMS= 0.84905E-02 Markov E= -3.673910578 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.0138012489 steps= 216 RMS= 0.94274E-02 Markov E= -5.013801249 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.2986351005 steps= 48 RMS= 0.91193E-02 Markov E= 2.298635100 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.6768108047 steps= 127 RMS= 0.98781E-02 Markov E= 3.676810805 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.8510251722 steps= 152 RMS= 0.85806E-02 Markov E= 5.851025172 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.5956054848 steps= 51 RMS= 0.95709E-02 Markov E= 2.595605485 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.0268729331 steps= 68 RMS= 0.91376E-02 Markov E= 1.026872933 t= 7.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.0958836093 steps= 203 RMS= 0.99012E-02 Markov E= 4.095883609 t= 7.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.7346507017 steps= 137 RMS= 0.84969E-02 Markov E= -5.734650702 t= 7.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.1658410190 steps= 203 RMS= 0.79386E-02 Markov E= -8.165841019 t= 7.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.5544033928 steps= 289 RMS= 0.86903E-02 Markov E= -0.5544033928 t= 7.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.5594904961 steps= 127 RMS= 0.82991E-02 Markov E= 2.559490496 t= 7.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.5628646778 steps= 344 RMS= 0.94686E-02 Markov E= 8.562864678 t= 7.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.1810548388 steps= 333 RMS= 0.97330E-02 Markov E= 5.181054839 t= 7.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.6874340407 steps= 338 RMS= 0.86273E-02 Markov E= -5.687434041 t= 7.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.4974490461 steps= 90 RMS= 0.97076E-02 Markov E= -0.4974490461 t= 7.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.1868352690 steps= 404 RMS= 0.94580E-02 Markov E= 2.186835269 t= 7.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.8215688132 steps= 274 RMS= 0.92739E-02 Markov E= -0.8215688132 t= 7.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.0214060614 steps= 441 RMS= 0.95133E-02 Markov E= 5.021406061 t= 7.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 9.8507870251 steps= 244 RMS= 0.91615E-02 Markov E= 9.850787025 t= 7.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 19.2616556846 steps= 171 RMS= 0.89828E-02 Markov E= 19.26165568 t= 7.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.1151083891 steps= 43 RMS= 0.68703E-02 Markov E= -7.115108389 t= 7.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.8125826858 steps= 155 RMS= 0.88574E-02 Markov E= 1.812582686 t= 8.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 17.1549898920 steps= 94 RMS= 0.92297E-02 Markov E= 17.15498989 t= 8.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.9122068816 steps= 198 RMS= 0.94041E-02 Markov E= -3.912206882 t= 8.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2564772248 steps= 0 RMS= 0.96025E-07 Markov E= -21.25647722 t= 8.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 2 Best= -21.256477 Mean= -3.434868 Worst= 2.298635 Time= 7.984786 GA> Generation= 2 Duplicates= 0.000000 Offspring in new pop.= 0.575000 Mutants in new pop.= 0.588235 Calculating initial energy Qu 0 E= -12.7634482103 steps= 272 RMS= 0.72762E-02 Markov E= -12.76344821 t= 8.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.6292326594 steps= 169 RMS= 0.96407E-02 Markov E= -0.6292326594 t= 8.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.8304863874 steps= 346 RMS= 0.99800E-02 Markov E= -1.830486387 t= 8.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.8609124843 steps= 241 RMS= 0.82797E-02 Markov E= -0.8609124843 t= 8.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.7420510627 steps= 76 RMS= 0.99148E-02 Markov E= 0.7420510627 t= 8.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.0317171610 steps= 294 RMS= 0.95249E-02 Markov E= 6.031717161 t= 8.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.8556214457 steps= 252 RMS= 0.94156E-02 Markov E= 10.85562145 t= 8.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.8134970097 steps= 363 RMS= 0.91424E-02 Markov E= 8.813497010 t= 8.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.0437375894 steps= 238 RMS= 0.99388E-02 Markov E= -11.04373759 t= 8.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.1242120901 steps= 122 RMS= 0.95880E-02 Markov E= -11.12421209 t= 8.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.5022199642 steps= 218 RMS= 0.79063E-02 Markov E= -3.502219964 t= 8.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.7090745921 steps= 416 RMS= 0.99936E-02 Markov E= -14.70907459 t= 8.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.2538114848 steps= 401 RMS= 0.91865E-02 Markov E= -10.25381148 t= 8.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.7338038260 steps= 544 RMS= 0.94605E-02 Markov E= -4.733803826 t= 8.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6689065961 steps= 454 RMS= 0.92715E-02 Markov E= -6.668906596 t= 8.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.3487980833 steps= 304 RMS= 0.96538E-02 Markov E= -1.348798083 t= 8.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.9015988850 steps= 164 RMS= 0.99685E-02 Markov E= -10.90159889 t= 8.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.8243575184 steps= 133 RMS= 0.85801E-02 Markov E= -12.82435752 t= 8.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.8044555980 steps= 402 RMS= 0.92040E-02 Markov E= -23.80445560 t= 8.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.1516519636 steps= 395 RMS= 0.84556E-02 Markov E= 3.151651964 t= 8.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.9198961717 steps= 116 RMS= 0.98827E-02 Markov E= -10.91989617 t= 8.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.6666697680 steps= 383 RMS= 0.93804E-02 Markov E= -21.66666977 t= 8.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.2771038722 steps= 135 RMS= 0.84385E-02 Markov E= -7.277103872 t= 8.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.3524246602 steps= 206 RMS= 0.81774E-02 Markov E= -12.35242466 t= 8.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.3067295407 steps= 155 RMS= 0.80663E-02 Markov E= -2.306729541 t= 8.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.4143438903 steps= 315 RMS= 0.99384E-02 Markov E= 12.41434389 t= 8.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.3344763037 steps= 193 RMS= 0.90079E-02 Markov E= -13.33447630 t= 8.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.7642746971 steps= 0 RMS= 0.80485E-02 Markov E= -0.7642746971 t= 8.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.6629669120 steps= 345 RMS= 0.92010E-02 Markov E= -13.66296691 t= 8.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.9238430645 steps= 229 RMS= 0.90825E-02 Markov E= -3.923843065 t= 8.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.6224393349 steps= 299 RMS= 0.91309E-02 Markov E= -20.62243933 t= 8.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.1375542738 steps= 0 RMS= 0.81328E-02 Markov E= 1.137554274 t= 8.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.8806293619 steps= 203 RMS= 0.97069E-02 Markov E= -2.880629362 t= 8.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.9717455875 steps= 333 RMS= 0.90686E-02 Markov E= -9.971745588 t= 8.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.8922559321 steps= 205 RMS= 0.86807E-02 Markov E= 10.89225593 t= 8.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.1265548222 steps= 217 RMS= 0.89802E-02 Markov E= 0.1265548222 t= 8.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.4793311477 steps= 269 RMS= 0.89217E-02 Markov E= -17.47933115 t= 8.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.0021046174 steps= 231 RMS= 0.65104E-02 Markov E= 0.2104617406E-02 t= 8.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.4220597841 steps= 32 RMS= 0.97816E-02 Markov E= -3.422059784 t= 8.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.2883437814 steps= 501 RMS= 0.71378E-02 Markov E= -2.288343781 t= 8.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.9875420501 steps= 194 RMS= 0.84038E-02 Markov E= -7.987542050 t= 8.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.7281303136 steps= 113 RMS= 0.79202E-02 Markov E= 5.728130314 t= 8.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.8525704006 steps= 215 RMS= 0.86897E-02 Markov E= -16.85257040 t= 8.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.6898342365 steps= 252 RMS= 0.83659E-02 Markov E= -17.68983424 t= 8.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.5105995929 steps= 406 RMS= 0.90219E-02 Markov E= 6.510599593 t= 8.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.8499613513 steps= 307 RMS= 0.83862E-02 Markov E= -1.849961351 t= 9.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.6739105782 steps= 0 RMS= 0.84905E-02 Markov E= -3.673910578 t= 9.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.0498298408 steps= 206 RMS= 0.84609E-02 Markov E= -4.049829841 t= 9.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.6938385783 steps= 421 RMS= 0.99985E-02 Markov E= 3.693838578 t= 9.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 11.5117909337 steps= 658 RMS= 0.93660E-02 Markov E= 11.51179093 t= 9.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.9365477640 steps= 282 RMS= 0.92263E-02 Markov E= -12.93654776 t= 9.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.5202963491 steps= 253 RMS= 0.76635E-02 Markov E= -1.520296349 t= 9.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.6852698300 steps= 7 RMS= 0.87031E-02 Markov E= -2.685269830 t= 9.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.0623968485 steps= 162 RMS= 0.91418E-02 Markov E= -4.062396848 t= 9.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.3661302285 steps= 170 RMS= 0.94624E-02 Markov E= 6.366130228 t= 9.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.7414669455 steps= 308 RMS= 0.98403E-02 Markov E= 10.74146695 t= 9.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.0121599961 steps= 279 RMS= 0.90759E-02 Markov E= -8.012159996 t= 9.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.5885043137 steps= 228 RMS= 0.92188E-02 Markov E= -5.588504314 t= 9.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.6878045947 steps= 198 RMS= 0.82422E-02 Markov E= 2.687804595 t= 9.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.3551053734 steps= 240 RMS= 0.99127E-02 Markov E= -4.355105373 t= 9.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.9101618696 steps= 408 RMS= 0.86236E-02 Markov E= -2.910161870 t= 9.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.1804417763 steps= 529 RMS= 0.93402E-02 Markov E= -0.1804417763 t= 9.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.5409157230 steps= 265 RMS= 0.86937E-02 Markov E= -7.540915723 t= 9.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.0068402062 steps= 232 RMS= 0.93576E-02 Markov E= -4.006840206 t= 9.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.7840938653 steps= 153 RMS= 0.98658E-02 Markov E= -2.784093865 t= 9.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.6718133691 steps= 0 RMS= 0.98184E-02 Markov E= -5.671813369 t= 9.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.8333737707 steps= 177 RMS= 0.73949E-02 Markov E= 0.8333737707 t= 9.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 5.5762156720 steps= 298 RMS= 0.95358E-02 Markov E= 5.576215672 t= 9.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.1661992595 steps= 206 RMS= 0.95413E-02 Markov E= 1.166199260 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.7645633526 steps= 0 RMS= 0.92500E-02 Markov E= -11.76456335 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.9286363257 steps= 251 RMS= 0.73252E-02 Markov E= -1.928636326 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.8626267050 steps= 232 RMS= 0.66509E-02 Markov E= 1.862626705 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.8861462392 steps= 23 RMS= 0.96273E-02 Markov E= -7.886146239 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.0272417318 steps= 280 RMS= 0.97449E-02 Markov E= -6.027241732 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.5422389156 steps= 61 RMS= 0.97894E-02 Markov E= -0.5422389156 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.5380263170 steps= 303 RMS= 0.79728E-02 Markov E= -15.53802632 t= 9.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.8889845670 steps= 310 RMS= 0.88192E-02 Markov E= 4.888984567 t= 9.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.6857786315 steps= 222 RMS= 0.69472E-02 Markov E= -18.68577863 t= 9.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.6372128023 steps= 182 RMS= 0.82984E-02 Markov E= -12.63721280 t= 9.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.4860272857 steps= 169 RMS= 0.86810E-02 Markov E= 0.4860272857 t= 9.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.4105531196 steps= 348 RMS= 0.93620E-02 Markov E= 6.410553120 t= 9.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.3160103010 steps= 258 RMS= 0.94506E-02 Markov E= -8.316010301 t= 9.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6855558015 steps= 85 RMS= 0.90504E-02 Markov E= -6.685555802 t= 9.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.7566715846 steps= 217 RMS= 0.99924E-02 Markov E= -0.7566715846 t= 9.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.7150184001 steps= 317 RMS= 0.65549E-02 Markov E= -3.715018400 t= 9.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.6739984311 steps= 416 RMS= 0.90721E-02 Markov E= 0.6739984311 t= 9.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.6766278417 steps= 337 RMS= 0.77877E-02 Markov E= 1.676627842 t= 9.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.6754640773 steps= 104 RMS= 0.84164E-02 Markov E= -2.675464077 t= 9.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.2587312569 steps= 152 RMS= 0.79949E-02 Markov E= 2.258731257 t= 9.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.0496565508 steps= 244 RMS= 0.74465E-02 Markov E= -14.04965655 t= 9.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.3019699682 steps= 312 RMS= 0.98114E-02 Markov E= -0.3019699682 t= 9.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.6840911389 steps= 160 RMS= 0.97430E-02 Markov E= -2.684091139 t= 9.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.7843345505 steps= 38 RMS= 0.97891E-02 Markov E= -2.784334551 t= 9.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9161191337 steps= 238 RMS= 0.79483E-07 Markov E= -23.91611913 t= 9.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 3 Best= -23.916119 Mean= -8.380565 Worst= -2.447127 Time= 9.892496 GA> Generation= 3 Duplicates= 0.000000 Offspring in new pop.= 0.562500 Mutants in new pop.= 0.538462 Calculating initial energy Qu 0 E= -9.7623969619 steps= 97 RMS= 0.94370E-02 Markov E= -9.762396962 t= 9.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.3160103010 steps= 0 RMS= 0.94506E-02 Markov E= -8.316010301 t= 9.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.5400631244 steps= 367 RMS= 0.79471E-02 Markov E= -8.540063124 t= 9.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.9818349724 steps= 367 RMS= 0.98866E-02 Markov E= 0.9818349724 t= 10.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.1533235747 steps= 108 RMS= 0.93726E-02 Markov E= -14.15332357 t= 10.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.1049600662 steps= 82 RMS= 0.88842E-02 Markov E= -11.10496007 t= 10.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8089941171 steps= 349 RMS= 0.82966E-02 Markov E= -17.80899412 t= 10.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.4159617025 steps= 218 RMS= 0.83228E-02 Markov E= -12.41596170 t= 10.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.9365171440 steps= 200 RMS= 0.83635E-02 Markov E= -14.93651714 t= 10.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.0457507672 steps= 279 RMS= 0.89369E-02 Markov E= -11.04575077 t= 10.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4606703994 steps= 0 RMS= 0.83062E-02 Markov E= -15.46067040 t= 10.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.3007013007 steps= 210 RMS= 0.88921E-02 Markov E= -18.30070130 t= 10.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.0968942222 steps= 193 RMS= 0.78578E-02 Markov E= -11.09689422 t= 10.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.8267053134 steps= 5 RMS= 0.84493E-02 Markov E= -6.826705313 t= 10.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.2239745768 steps= 293 RMS= 0.99507E-02 Markov E= 7.223974577 t= 10.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.7851868804 steps= 199 RMS= 0.98333E-02 Markov E= 0.7851868804 t= 10.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.7636452550 steps= 372 RMS= 0.83739E-02 Markov E= -2.763645255 t= 10.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.3475038819 steps= 137 RMS= 0.70964E-02 Markov E= -14.34750388 t= 10.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.5864592951 steps= 198 RMS= 0.87525E-02 Markov E= -4.586459295 t= 10.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.9066356088 steps= 213 RMS= 0.93870E-02 Markov E= -4.906635609 t= 10.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.3560189841 steps= 10 RMS= 0.94682E-02 Markov E= -4.356018984 t= 10.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.3785320933 steps= 267 RMS= 0.99526E-02 Markov E= -1.378532093 t= 10.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.1000900309 steps= 346 RMS= 0.85108E-02 Markov E= -9.100090031 t= 10.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.2076974939 steps= 322 RMS= 0.92590E-02 Markov E= -13.20769749 t= 10.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6685652286 steps= 83 RMS= 0.93221E-02 Markov E= -6.668565229 t= 10.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.9226858218 steps= 459 RMS= 0.85605E-02 Markov E= -4.922685822 t= 10.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.0934279459 steps= 258 RMS= 0.90438E-02 Markov E= -17.09342795 t= 10.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.3519673866 steps= 218 RMS= 0.97472E-02 Markov E= -3.351967387 t= 10.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9158025233 steps= 51 RMS= 0.79746E-02 Markov E= -23.91580252 t= 10.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.4021441305 steps= 236 RMS= 0.91442E-02 Markov E= 1.402144131 t= 10.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.7413452550 steps= 101 RMS= 0.92487E-02 Markov E= -4.741345255 t= 10.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.3723440800 steps= 235 RMS= 0.96759E-02 Markov E= -5.372344080 t= 10.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.5387810675 steps= 34 RMS= 0.80780E-02 Markov E= -3.538781067 t= 10.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.7909518709 steps= 168 RMS= 0.97340E-02 Markov E= -13.79095187 t= 10.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.5916168749 steps= 109 RMS= 0.98240E-02 Markov E= -13.59161687 t= 10.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.1768268607 steps= 259 RMS= 0.96340E-02 Markov E= -15.17682686 t= 10.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.4751593222 steps= 307 RMS= 0.98033E-02 Markov E= -20.47515932 t= 10.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.0899985340 steps= 7 RMS= 0.93761E-02 Markov E= -4.089998534 t= 10.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.3850979570 steps= 199 RMS= 0.85945E-02 Markov E= -1.385097957 t= 10.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.5077184189 steps= 202 RMS= 0.76487E-02 Markov E= -18.50771842 t= 10.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.0141946904 steps= 293 RMS= 0.83855E-02 Markov E= -0.1419469037E-01 t= 10.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.6677895196 steps= 281 RMS= 0.88632E-02 Markov E= -8.667789520 t= 10.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.9838352713 steps= 213 RMS= 0.95035E-02 Markov E= -13.98383527 t= 10.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.9175559777 steps= 345 RMS= 0.79617E-02 Markov E= 12.91755598 t= 10.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.6720679859 steps= 341 RMS= 0.99495E-02 Markov E= -9.672067986 t= 10.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.0904618330 steps= 247 RMS= 0.99186E-02 Markov E= -8.090461833 t= 10.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.9177002592 steps= 271 RMS= 0.92611E-02 Markov E= -17.91770026 t= 10.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 8.8206160089 steps= 254 RMS= 0.98430E-02 Markov E= 8.820616009 t= 10.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.5326197600 steps= 263 RMS= 0.84713E-02 Markov E= -8.532619760 t= 10.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.6890574069 steps= 206 RMS= 0.87496E-02 Markov E= -7.689057407 t= 10.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.8175524826 steps= 336 RMS= 0.87382E-02 Markov E= -11.81755248 t= 10.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6685092657 steps= 33 RMS= 0.90297E-02 Markov E= -6.668509266 t= 10.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.3991991980 steps= 253 RMS= 0.83258E-02 Markov E= -10.39919920 t= 10.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1316936486 steps= 414 RMS= 0.95663E-02 Markov E= -20.13169365 t= 10.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.6691859874 steps= 248 RMS= 0.94389E-02 Markov E= -16.66918599 t= 10.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.0628491721 steps= 216 RMS= 0.76310E-02 Markov E= -4.062849172 t= 10.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.1916653571 steps= 143 RMS= 0.87173E-02 Markov E= -6.191665357 t= 10.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.5487577555 steps= 101 RMS= 0.91395E-02 Markov E= -6.548757755 t= 10.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8284111185 steps= 256 RMS= 0.98716E-02 Markov E= -17.82841112 t= 10.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.3907413567 steps= 240 RMS= 0.89250E-02 Markov E= -8.390741357 t= 11.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.9525280352 steps= 162 RMS= 0.86270E-02 Markov E= -4.952528035 t= 11.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.3948142721 steps= 219 RMS= 0.93458E-02 Markov E= -8.394814272 t= 11.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.5845519620 steps= 503 RMS= 0.97292E-02 Markov E= -3.584551962 t= 11.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.5521992697 steps= 87 RMS= 0.95672E-02 Markov E= -3.552199270 t= 11.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.9317831207 steps= 203 RMS= 0.95955E-02 Markov E= -10.93178312 t= 11.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.6326016597 steps= 63 RMS= 0.97427E-02 Markov E= -9.632601660 t= 11.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.9056572045 steps= 271 RMS= 0.76631E-02 Markov E= -12.90565720 t= 11.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.2498307257 steps= 140 RMS= 0.95599E-02 Markov E= -17.24983073 t= 11.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1724255092 steps= 134 RMS= 0.71854E-02 Markov E= -20.17242551 t= 11.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.0799297637 steps= 135 RMS= 0.92505E-02 Markov E= -3.079929764 t= 11.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.2277365235 steps= 208 RMS= 0.67741E-02 Markov E= -10.22773652 t= 11.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.1593390283 steps= 175 RMS= 0.83523E-02 Markov E= -15.15933903 t= 11.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.7065503996 steps= 210 RMS= 0.92155E-02 Markov E= -0.7065503996 t= 11.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.1054564863 steps= 153 RMS= 0.89274E-02 Markov E= -12.10545649 t= 11.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.8304196796 steps= 225 RMS= 0.95947E-02 Markov E= -12.83041968 t= 11.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.1330694222 steps= 299 RMS= 0.74045E-02 Markov E= -4.133069422 t= 11.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.6962576677 steps= 172 RMS= 0.98904E-02 Markov E= -9.696257668 t= 11.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.7792389312 steps= 143 RMS= 0.95358E-02 Markov E= -2.779238931 t= 11.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.0499672382 steps= 13 RMS= 0.68465E-02 Markov E= -4.049967238 t= 11.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.7632493191 steps= 445 RMS= 0.98477E-02 Markov E= -18.76324932 t= 11.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2560162267 steps= 88 RMS= 0.74481E-02 Markov E= -21.25601623 t= 11.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.1218946735 steps= 194 RMS= 0.95796E-02 Markov E= -12.12189467 t= 11.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.4475891292 steps= 327 RMS= 0.93884E-02 Markov E= 3.447589129 t= 11.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.2629131879 steps= 250 RMS= 0.84552E-02 Markov E= -18.26291319 t= 11.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.9321323136 steps= 301 RMS= 0.90691E-02 Markov E= -3.932132314 t= 11.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.3359849733 steps= 172 RMS= 0.95676E-02 Markov E= -9.335984973 t= 11.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.1333282538 steps= 316 RMS= 0.92386E-02 Markov E= -17.13332825 t= 11.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9156814286 steps= 162 RMS= 0.91245E-02 Markov E= -23.91568143 t= 11.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.3775489100 steps= 202 RMS= 0.84684E-02 Markov E= -13.37754891 t= 11.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.8126036848 steps= 118 RMS= 0.99556E-02 Markov E= -10.81260368 t= 11.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.7428358722 steps= 165 RMS= 0.74272E-02 Markov E= -3.742835872 t= 11.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.0256310863 steps= 405 RMS= 0.88883E-02 Markov E= -16.02563109 t= 11.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.7114585057 steps= 164 RMS= 0.90963E-02 Markov E= -2.711458506 t= 11.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.1554230202 steps= 61 RMS= 0.86883E-02 Markov E= -15.15542302 t= 11.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9161191337 steps= 0 RMS= 0.79483E-07 Markov E= -23.91611913 t= 11.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 4 Best= -23.916119 Mean= -13.495865 Worst= -8.090462 Time= 11.545243 GA> Generation= 4 Duplicates= 0.000000 Offspring in new pop.= 0.575000 Mutants in new pop.= 0.714286 Calculating initial energy Qu 0 E= -20.0244739537 steps= 267 RMS= 0.96604E-02 Markov E= -20.02447395 t= 11.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.7645604076 steps= 1 RMS= 0.86405E-02 Markov E= -11.76456041 t= 11.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.6418793012 steps= 243 RMS= 0.97539E-02 Markov E= -12.64187930 t= 11.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.8741335700 steps= 174 RMS= 0.90524E-02 Markov E= -13.87413357 t= 11.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.9129162189 steps= 352 RMS= 0.85230E-02 Markov E= -17.91291622 t= 11.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.6851496156 steps= 209 RMS= 0.90321E-02 Markov E= -19.68514962 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.5113849989 steps= 143 RMS= 0.87417E-02 Markov E= -9.511384999 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.4784671896 steps= 186 RMS= 0.79433E-02 Markov E= -23.47846719 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.5069460168 steps= 11 RMS= 0.97785E-02 Markov E= -18.50694602 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.9600912462 steps= 226 RMS= 0.75139E-02 Markov E= -10.96009125 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.7688155360 steps= 127 RMS= 0.90450E-02 Markov E= -11.76881554 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.8173692186 steps= 6 RMS= 0.93568E-02 Markov E= -11.81736922 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.2716739183 steps= 202 RMS= 0.70402E-02 Markov E= -9.271673918 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.4824770952 steps= 180 RMS= 0.93604E-02 Markov E= -20.48247710 t= 11.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.6638892589 steps= 253 RMS= 0.98113E-02 Markov E= -3.663889259 t= 11.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.5564040368 steps= 203 RMS= 0.99966E-02 Markov E= -10.55640404 t= 11.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.9171917181 steps= 202 RMS= 0.91526E-02 Markov E= -1.917191718 t= 11.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.7384971036 steps= 235 RMS= 0.74611E-02 Markov E= -4.738497104 t= 11.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.1661809583 steps= 103 RMS= 0.93424E-02 Markov E= -8.166180958 t= 11.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 12.0298100589 steps= 300 RMS= 0.74298E-02 Markov E= 12.02981006 t= 11.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.1512596319 steps= 58 RMS= 0.94456E-02 Markov E= -12.15125963 t= 11.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.3029593454 steps= 303 RMS= 0.97529E-02 Markov E= -9.302959345 t= 11.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.5697198848 steps= 196 RMS= 0.94571E-02 Markov E= -13.56971988 t= 11.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.8571636877 steps= 194 RMS= 0.96086E-02 Markov E= -13.85716369 t= 11.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.2468642606 steps= 198 RMS= 0.96077E-02 Markov E= -1.246864261 t= 11.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.1988536398 steps= 221 RMS= 0.91433E-02 Markov E= -10.19885364 t= 12.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.3075740476 steps= 216 RMS= 0.84332E-02 Markov E= -5.307574048 t= 12.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.4730661356 steps= 191 RMS= 0.79080E-02 Markov E= -10.47306614 t= 12.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.0332790984 steps= 60 RMS= 0.88008E-02 Markov E= -10.03327910 t= 12.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.1979568700 steps= 219 RMS= 0.99920E-02 Markov E= -13.19795687 t= 12.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.5668623354 steps= 228 RMS= 0.95001E-02 Markov E= -12.56686234 t= 12.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.1581520979 steps= 199 RMS= 0.85889E-02 Markov E= -13.15815210 t= 12.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.5233309551 steps= 126 RMS= 0.95229E-02 Markov E= -10.52333096 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.2059872242 steps= 155 RMS= 0.96157E-02 Markov E= -9.205987224 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.3406775096 steps= 193 RMS= 0.99544E-02 Markov E= -14.34067751 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2557791762 steps= 27 RMS= 0.97138E-02 Markov E= -21.25577918 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1011006086 steps= 112 RMS= 0.96925E-02 Markov E= -20.10110061 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.0128968466 steps= 53 RMS= 0.76989E-02 Markov E= -12.01289685 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6462306321 steps= 203 RMS= 0.91277E-02 Markov E= -6.646230632 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.9645519973 steps= 227 RMS= 0.94323E-02 Markov E= -0.9645519973 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.1358006736 steps= 134 RMS= 0.96703E-02 Markov E= -1.135800674 t= 12.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.8690157488 steps= 144 RMS= 0.79397E-02 Markov E= -18.86901575 t= 12.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.7345444952 steps= 200 RMS= 0.97588E-02 Markov E= -12.73454450 t= 12.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.7186254623 steps= 172 RMS= 0.79292E-02 Markov E= -2.718625462 t= 12.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.1204078952 steps= 145 RMS= 0.94189E-02 Markov E= -17.12040790 t= 12.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.8499197138 steps= 573 RMS= 0.95229E-02 Markov E= -13.84991971 t= 12.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.3720293845 steps= 149 RMS= 0.82770E-02 Markov E= -12.37202938 t= 12.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.9677607934 steps= 299 RMS= 0.98400E-02 Markov E= -20.96776079 t= 12.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.7528256358 steps= 223 RMS= 0.99839E-02 Markov E= -12.75282564 t= 12.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.1928907290 steps= 173 RMS= 0.96490E-02 Markov E= -8.192890729 t= 12.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.7034674183 steps= 171 RMS= 0.91487E-02 Markov E= -15.70346742 t= 12.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.2861888804 steps= 330 RMS= 0.96829E-02 Markov E= -7.286188880 t= 12.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.1914957251 steps= 393 RMS= 0.79808E-02 Markov E= -2.191495725 t= 12.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.3181300217 steps= 167 RMS= 0.94731E-02 Markov E= -16.31813002 t= 12.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.9344472719 steps= 169 RMS= 0.96384E-02 Markov E= -2.934447272 t= 12.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.3063171930 steps= 238 RMS= 0.79500E-02 Markov E= -16.30631719 t= 12.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.6771061122 steps= 295 RMS= 0.98200E-02 Markov E= -4.677106112 t= 12.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.5164095316 steps= 408 RMS= 0.98185E-02 Markov E= -7.516409532 t= 12.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.7990828293 steps= 239 RMS= 0.99246E-02 Markov E= -6.799082829 t= 12.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.7910384778 steps= 81 RMS= 0.87751E-02 Markov E= -13.79103848 t= 12.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.4895249416 steps= 353 RMS= 0.98588E-02 Markov E= -3.489524942 t= 12.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.2740396366 steps= 44 RMS= 0.95104E-02 Markov E= -16.27403964 t= 12.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.2420631366 steps= 202 RMS= 0.94787E-02 Markov E= 10.24206314 t= 12.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.9972236165 steps= 321 RMS= 0.72457E-02 Markov E= -4.997223616 t= 12.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.4909236860 steps= 175 RMS= 0.89434E-02 Markov E= -9.490923686 t= 12.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.9813969078 steps= 130 RMS= 0.88225E-02 Markov E= -20.98139691 t= 12.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.9326267344 steps= 458 RMS= 0.96568E-02 Markov E= -19.93262673 t= 12.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.4522057869 steps= 52 RMS= 0.88652E-02 Markov E= -22.45220579 t= 12.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.0027133013 steps= 258 RMS= 0.86270E-02 Markov E= -6.002713301 t= 12.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.2636872500 steps= 263 RMS= 0.82290E-02 Markov E= -17.26368725 t= 12.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.5527834496 steps= 166 RMS= 0.87450E-02 Markov E= -12.55278345 t= 12.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.3076599910 steps= 344 RMS= 0.98252E-02 Markov E= -2.307659991 t= 12.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.3741489359 steps= 123 RMS= 0.92015E-02 Markov E= -18.37414894 t= 12.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.1729066616 steps= 188 RMS= 0.82526E-02 Markov E= 2.172906662 t= 12.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.9086284371 steps= 302 RMS= 0.97194E-02 Markov E= -7.908628437 t= 12.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.1651092616 steps= 80 RMS= 0.82215E-02 Markov E= -17.16510926 t= 12.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.2922688518 steps= 370 RMS= 0.90169E-02 Markov E= -17.29226885 t= 12.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.8689092650 steps= 202 RMS= 0.87333E-02 Markov E= -16.86890927 t= 12.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.0239139950 steps= 219 RMS= 0.90727E-02 Markov E= -18.02391400 t= 12.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.8976652609 steps= 196 RMS= 0.98474E-02 Markov E= -10.89766526 t= 12.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.6462968245 steps= 166 RMS= 0.88109E-02 Markov E= -13.64629682 t= 12.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.2499394448 steps= 101 RMS= 0.99394E-02 Markov E= -17.24993944 t= 12.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.1540237392 steps= 169 RMS= 0.85350E-02 Markov E= -14.15402374 t= 12.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.3737928566 steps= 306 RMS= 0.94902E-02 Markov E= -5.373792857 t= 13.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.2177583693 steps= 187 RMS= 0.92401E-02 Markov E= -11.21775837 t= 13.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.3060072700 steps= 313 RMS= 0.95455E-02 Markov E= -12.30600727 t= 13.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.1941709066 steps= 276 RMS= 0.85960E-02 Markov E= -5.194170907 t= 13.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.1693601046 steps= 276 RMS= 0.86364E-02 Markov E= -21.16936010 t= 13.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.6750004203 steps= 230 RMS= 0.96636E-02 Markov E= -14.67500042 t= 13.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.4891735760 steps= 129 RMS= 0.97211E-02 Markov E= -3.489173576 t= 13.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 7.5703696069 steps= 244 RMS= 0.99901E-02 Markov E= 7.570369607 t= 13.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.6346190087 steps= 215 RMS= 0.95421E-02 Markov E= -20.63461901 t= 13.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9161191337 steps= 0 RMS= 0.79483E-07 Markov E= -23.91611913 t= 13.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 5 Best= -23.916119 Mean= -16.544793 Worst= -12.151260 Time= 13.119004 GA> Generation= 5 Duplicates= 0.000000 Offspring in new pop.= 0.487500 Mutants in new pop.= 0.583333 Calculating initial energy Qu 0 E= -22.9753315039 steps= 157 RMS= 0.83205E-02 Markov E= -22.97533150 t= 13.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.3711423227 steps= 510 RMS= 0.96703E-02 Markov E= -16.37114232 t= 13.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.8792133068 steps= 145 RMS= 0.86274E-02 Markov E= -19.87921331 t= 13.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.3714568871 steps= 331 RMS= 0.95566E-02 Markov E= -16.37145689 t= 13.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.2922688518 steps= 0 RMS= 0.90169E-02 Markov E= -17.29226885 t= 13.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.7616492190 steps= 200 RMS= 0.85601E-02 Markov E= -11.76164922 t= 13.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.8021889137 steps= 238 RMS= 0.90855E-02 Markov E= -20.80218891 t= 13.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.6938310126 steps= 211 RMS= 0.98763E-02 Markov E= -10.69383101 t= 13.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4401488203 steps= 260 RMS= 0.92622E-02 Markov E= -15.44014882 t= 13.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.6420989424 steps= 276 RMS= 0.95687E-02 Markov E= -8.642098942 t= 13.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.0466316945 steps= 404 RMS= 0.86860E-02 Markov E= -19.04663169 t= 13.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.9091564179 steps= 218 RMS= 0.72063E-02 Markov E= -14.90915642 t= 13.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.6134008930 steps= 296 RMS= 0.87181E-02 Markov E= -7.613400893 t= 13.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.6863492236 steps= 283 RMS= 0.90784E-02 Markov E= -16.68634922 t= 13.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.2930152599 steps= 276 RMS= 0.95860E-02 Markov E= -18.29301526 t= 13.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.6910508716 steps= 389 RMS= 0.98741E-02 Markov E= -31.69105087 t= 13.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.5733746774 steps= 247 RMS= 0.92614E-02 Markov E= 4.573374677 t= 13.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.3779862033 steps= 99 RMS= 0.97475E-02 Markov E= -5.377986203 t= 13.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.3973670133 steps= 231 RMS= 0.93060E-02 Markov E= -0.3973670133 t= 13.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.9888780171 steps= 304 RMS= 0.83619E-02 Markov E= 4.988878017 t= 13.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.3225453983 steps= 270 RMS= 0.93780E-02 Markov E= 4.322545398 t= 13.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.2897656229 steps= 119 RMS= 0.80602E-02 Markov E= -25.28976562 t= 13.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.6916290569 steps= 205 RMS= 0.92238E-02 Markov E= -10.69162906 t= 13.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.5821889193 steps= 156 RMS= 0.92412E-02 Markov E= -17.58218892 t= 13.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.0219367900 steps= 294 RMS= 0.79326E-02 Markov E= -17.02193679 t= 13.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.0378994601 steps= 165 RMS= 0.94598E-02 Markov E= -10.03789946 t= 13.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.1623164641 steps= 330 RMS= 0.89770E-02 Markov E= -13.16231646 t= 13.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 6.4230205506 steps= 400 RMS= 0.97509E-02 Markov E= 6.423020551 t= 13.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.2182197470 steps= 86 RMS= 0.98080E-02 Markov E= -14.21821975 t= 13.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.3132610250 steps= 148 RMS= 0.86323E-02 Markov E= -18.31326103 t= 13.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.0101696958 steps= 146 RMS= 0.94496E-02 Markov E= -22.01016970 t= 13.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.7125867090 steps= 288 RMS= 0.88739E-02 Markov E= -10.71258671 t= 13.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.6227756859 steps= 298 RMS= 0.99188E-02 Markov E= -11.62277569 t= 13.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.4898638298 steps= 134 RMS= 0.94986E-02 Markov E= -18.48986383 t= 13.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4804147538 steps= 235 RMS= 0.97611E-02 Markov E= -15.48041475 t= 13.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.3527851649 steps= 265 RMS= 0.77105E-02 Markov E= -23.35278516 t= 13.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.7971631681 steps= 178 RMS= 0.93788E-02 Markov E= -12.79716317 t= 13.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.7081994471 steps= 162 RMS= 0.97419E-02 Markov E= -18.70819945 t= 13.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4038831077 steps= 99 RMS= 0.72507E-02 Markov E= -15.40388311 t= 13.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.7649525875 steps= 319 RMS= 0.85042E-02 Markov E= -14.76495259 t= 13.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.8961482749 steps= 241 RMS= 0.94187E-02 Markov E= -11.89614827 t= 13.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9159548478 steps= 5 RMS= 0.65941E-02 Markov E= -23.91595485 t= 13.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.2414499992 steps= 292 RMS= 0.89700E-02 Markov E= -23.24145000 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.6328043140 steps= 60 RMS= 0.96792E-02 Markov E= -15.63280431 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.7819892066 steps= 247 RMS= 0.95075E-02 Markov E= -25.78198921 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.5000939449 steps= 29 RMS= 0.91051E-02 Markov E= -18.50009394 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.6731088321 steps= 177 RMS= 0.89596E-02 Markov E= -13.67310883 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.7634594423 steps= 179 RMS= 0.87568E-02 Markov E= -12.76345944 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.4514825828 steps= 166 RMS= 0.94369E-02 Markov E= -17.45148258 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.7361040730 steps= 129 RMS= 0.84414E-02 Markov E= -14.73610407 t= 14.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.3460751592 steps= 217 RMS= 0.82485E-02 Markov E= -20.34607516 t= 14.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.9230674542 steps= 177 RMS= 0.97904E-02 Markov E= -11.92306745 t= 14.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.7759419304 steps= 261 RMS= 0.96737E-02 Markov E= -19.77594193 t= 14.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8267182802 steps= 292 RMS= 0.89761E-02 Markov E= -26.82671828 t= 14.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.8616871548 steps= 177 RMS= 0.85695E-02 Markov E= -2.861687155 t= 14.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.1922202586 steps= 284 RMS= 0.97047E-02 Markov E= -11.19222026 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.0951669015 steps= 264 RMS= 0.80271E-02 Markov E= -5.095166901 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.7003833133 steps= 169 RMS= 0.94244E-02 Markov E= -16.70038331 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.2088415565 steps= 123 RMS= 0.81751E-02 Markov E= -19.20884156 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.8736349510 steps= 76 RMS= 0.95554E-02 Markov E= -13.87363495 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8089941171 steps= 0 RMS= 0.82966E-02 Markov E= -17.80899412 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.8389793590 steps= 331 RMS= 0.81631E-02 Markov E= -18.83897936 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.5380588145 steps= 22 RMS= 0.90511E-02 Markov E= -15.53805881 t= 14.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.5030556172 steps= 277 RMS= 0.84907E-02 Markov E= -16.50305562 t= 14.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.2998175408 steps= 160 RMS= 0.98413E-02 Markov E= -19.29981754 t= 14.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.1685456533 steps= 162 RMS= 0.98919E-02 Markov E= -10.16854565 t= 14.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.8204246851 steps= 218 RMS= 0.74336E-02 Markov E= -12.82042469 t= 14.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.1208101183 steps= 121 RMS= 0.95159E-02 Markov E= -17.12081012 t= 14.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.3436842641 steps= 295 RMS= 0.98384E-02 Markov E= -15.34368426 t= 14.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.3742392827 steps= 177 RMS= 0.91054E-02 Markov E= -15.37423928 t= 14.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8220790985 steps= 202 RMS= 0.96329E-02 Markov E= -17.82207910 t= 14.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.4638539765 steps= 169 RMS= 0.95725E-02 Markov E= -10.46385398 t= 14.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 10.2961600312 steps= 470 RMS= 0.88496E-02 Markov E= 10.29616003 t= 14.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.8772825469 steps= 195 RMS= 0.88496E-02 Markov E= -11.87728255 t= 14.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.4794128215 steps= 111 RMS= 0.99213E-02 Markov E= -17.47941282 t= 14.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.9637577637 steps= 163 RMS= 0.77951E-02 Markov E= -21.96375776 t= 14.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.3543728786 steps= 208 RMS= 0.90814E-02 Markov E= -10.35437288 t= 14.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.5144407235 steps= 58 RMS= 0.98895E-02 Markov E= -19.51444072 t= 14.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.2352229394 steps= 184 RMS= 0.89514E-02 Markov E= -12.23522294 t= 14.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.5236101838 steps= 162 RMS= 0.94600E-02 Markov E= -13.52361018 t= 14.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.7681305002 steps= 248 RMS= 0.93334E-02 Markov E= -15.76813050 t= 14.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.6591388016 steps= 159 RMS= 0.95917E-02 Markov E= -16.65913880 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.9743215140 steps= 220 RMS= 0.84354E-02 Markov E= 3.974321514 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.0745233428 steps= 206 RMS= 0.87559E-02 Markov E= -13.07452334 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.8677303057 steps= 94 RMS= 0.92654E-02 Markov E= -16.86773031 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 3.5201618165 steps= 197 RMS= 0.68114E-02 Markov E= 3.520161816 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.0739880132 steps= 125 RMS= 0.87003E-02 Markov E= -16.07398801 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.1545300583 steps= 74 RMS= 0.85108E-02 Markov E= -14.15453006 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.8309389180 steps= 52 RMS= 0.95615E-02 Markov E= -12.83093892 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.2211879716 steps= 144 RMS= 0.92125E-02 Markov E= -3.221187972 t= 14.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.9810304538 steps= 288 RMS= 0.89403E-02 Markov E= -8.981030454 t= 14.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.9074757610 steps= 312 RMS= 0.98112E-02 Markov E= -21.90747576 t= 14.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.7940287321 steps= 256 RMS= 0.93917E-02 Markov E= 1.794028732 t= 14.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.5910699121 steps= 424 RMS= 0.97518E-02 Markov E= -23.59106991 t= 14.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.4892419462 steps= 110 RMS= 0.97683E-02 Markov E= -18.48924195 t= 14.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.8824635518 steps= 300 RMS= 0.73369E-02 Markov E= -19.88246355 t= 14.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0595076431 steps= 241 RMS= 0.79125E-02 Markov E= -27.05950764 t= 14.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 2.4534833833 steps= 148 RMS= 0.90501E-02 Markov E= 2.453483383 t= 14.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.6223366639 steps= 428 RMS= 0.93789E-02 Markov E= -19.62233666 t= 14.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.2681053295 steps= 392 RMS= 0.67849E-02 Markov E= 0.2681053295 t= 14.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.6915057500 steps= 163 RMS= 0.93398E-07 Markov E= -31.69150575 t= 14.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 6 Best= -31.691506 Mean= -19.445804 Worst= -15.768131 Time= 14.902733 GA> Generation= 6 Duplicates= 0.000000 Offspring in new pop.= 0.462500 Mutants in new pop.= 0.500000 Calculating initial energy Qu 0 E= -20.0965452848 steps= 46 RMS= 0.95513E-02 Markov E= -20.09654528 t= 14.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 0.2887382036 steps= 302 RMS= 0.70810E-02 Markov E= 0.2887382036 t= 14.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.7409421361 steps= 205 RMS= 0.96394E-02 Markov E= -26.74094214 t= 14.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.4602143463 steps= 52 RMS= 0.74892E-02 Markov E= -17.46021435 t= 15.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.7079800849 steps= 212 RMS= 0.88877E-02 Markov E= -0.7079800849 t= 15.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8729880816 steps= 182 RMS= 0.86182E-02 Markov E= -17.87298808 t= 15.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.1218169287 steps= 60 RMS= 0.90190E-02 Markov E= -18.12181693 t= 15.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.3665858435 steps= 154 RMS= 0.90699E-02 Markov E= -17.36658584 t= 15.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.5683837653 steps= 255 RMS= 0.95249E-02 Markov E= -17.56838377 t= 15.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.5332043134 steps= 201 RMS= 0.71600E-02 Markov E= -22.53320431 t= 15.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.5310719103 steps= 293 RMS= 0.97533E-02 Markov E= -26.53107191 t= 15.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.9838003737 steps= 158 RMS= 0.97880E-02 Markov E= -11.98380037 t= 15.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.9544599895 steps= 205 RMS= 0.81248E-02 Markov E= -10.95445999 t= 15.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.7485887302 steps= 137 RMS= 0.92070E-02 Markov E= -10.74858873 t= 15.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.8284225014 steps= 179 RMS= 0.86694E-02 Markov E= -22.82842250 t= 15.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.5916460041 steps= 232 RMS= 0.94367E-02 Markov E= -6.591646004 t= 15.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.6820058583 steps= 111 RMS= 0.89943E-02 Markov E= -28.68200586 t= 15.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.9328726973 steps= 27 RMS= 0.92213E-02 Markov E= -19.93287270 t= 15.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.9109280760 steps= 316 RMS= 0.85056E-02 Markov E= -2.910928076 t= 15.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2160550852 steps= 294 RMS= 0.87170E-02 Markov E= -28.21605509 t= 15.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.3788057639 steps= 319 RMS= 0.89761E-02 Markov E= -29.37880576 t= 15.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.1924368128 steps= 261 RMS= 0.90884E-02 Markov E= -13.19243681 t= 15.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.5046757887 steps= 326 RMS= 0.85011E-02 Markov E= -19.50467579 t= 15.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.5363231391 steps= 293 RMS= 0.99788E-02 Markov E= -22.53632314 t= 15.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.9081699872 steps= 153 RMS= 0.79941E-02 Markov E= -8.908169987 t= 15.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.4958804770 steps= 198 RMS= 0.91614E-02 Markov E= -29.49588048 t= 15.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.8996463443 steps= 243 RMS= 0.94385E-02 Markov E= -13.89964634 t= 15.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.1733637293 steps= 161 RMS= 0.94894E-02 Markov E= -19.17336373 t= 15.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.6800741831 steps= 212 RMS= 0.79810E-02 Markov E= -19.68007418 t= 15.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.8239279306 steps= 270 RMS= 0.96455E-02 Markov E= -7.823927931 t= 15.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.2631538597 steps= 17 RMS= 0.88476E-02 Markov E= -18.26315386 t= 15.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8286645603 steps= 69 RMS= 0.96213E-02 Markov E= -17.82866456 t= 15.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.3882546045 steps= 189 RMS= 0.88832E-02 Markov E= -18.38825460 t= 15.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5054498987 steps= 212 RMS= 0.65550E-02 Markov E= -24.50544990 t= 15.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.8425867524 steps= 241 RMS= 0.96621E-02 Markov E= -19.84258675 t= 15.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.3373212632 steps= 140 RMS= 0.70284E-02 Markov E= -20.33732126 t= 15.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.4597479806 steps= 331 RMS= 0.91425E-02 Markov E= -12.45974798 t= 15.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.4460906975 steps= 189 RMS= 0.90726E-02 Markov E= -10.44609070 t= 15.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5874123620 steps= 557 RMS= 0.80658E-02 Markov E= -24.58741236 t= 15.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.8390195605 steps= 170 RMS= 0.99973E-02 Markov E= -21.83901956 t= 15.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.2039317923 steps= 352 RMS= 0.88868E-02 Markov E= -20.20393179 t= 15.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.3484952393 steps= 116 RMS= 0.85301E-02 Markov E= -14.34849524 t= 15.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.0674768996 steps= 217 RMS= 0.98552E-02 Markov E= -9.067476900 t= 15.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -5.6250647893 steps= 244 RMS= 0.92008E-02 Markov E= -5.625064789 t= 15.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.7682391458 steps= 202 RMS= 0.92436E-02 Markov E= -23.76823915 t= 15.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.2294480647 steps= 187 RMS= 0.99030E-02 Markov E= -11.22944806 t= 15.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.5719043698 steps= 132 RMS= 0.92338E-02 Markov E= -20.57190437 t= 15.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.1226197495 steps= 253 RMS= 0.83191E-02 Markov E= 1.122619749 t= 15.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.7830936531 steps= 60 RMS= 0.83070E-02 Markov E= -19.78309365 t= 15.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.0124228443 steps= 396 RMS= 0.89308E-02 Markov E= -18.01242284 t= 15.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.9141493699 steps= 276 RMS= 0.78128E-02 Markov E= -21.91414937 t= 15.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.9440311609 steps= 237 RMS= 0.91036E-02 Markov E= -13.94403116 t= 15.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.4427771913 steps= 141 RMS= 0.99596E-02 Markov E= -20.44277719 t= 15.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.3607265416 steps= 176 RMS= 0.86788E-02 Markov E= -18.36072654 t= 15.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8245182154 steps= 279 RMS= 0.85069E-02 Markov E= -17.82451822 t= 15.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1801426007 steps= 154 RMS= 0.95050E-02 Markov E= -20.18014260 t= 15.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.7812220141 steps= 62 RMS= 0.97434E-02 Markov E= -25.78122201 t= 15.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.8367302800 steps= 303 RMS= 0.96042E-02 Markov E= -12.83673028 t= 15.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.5153720058 steps= 117 RMS= 0.98553E-02 Markov E= -23.51537201 t= 15.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.1669689963 steps= 271 RMS= 0.93735E-02 Markov E= -16.16696900 t= 15.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.2153222381 steps= 112 RMS= 0.99947E-02 Markov E= -16.21532224 t= 16.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.8691881476 steps= 242 RMS= 0.98134E-02 Markov E= -6.869188148 t= 16.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.4754860539 steps= 11 RMS= 0.81580E-02 Markov E= -20.47548605 t= 16.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.7269736351 steps= 445 RMS= 0.92778E-02 Markov E= -16.72697364 t= 16.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.8883452629 steps= 169 RMS= 0.79772E-02 Markov E= -16.88834526 t= 16.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.2089711349 steps= 9 RMS= 0.96236E-02 Markov E= -19.20897113 t= 16.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.7580894159 steps= 274 RMS= 0.96978E-02 Markov E= -20.75808942 t= 16.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.9396933887 steps= 213 RMS= 0.59533E-02 Markov E= -17.93969339 t= 16.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6658470392 steps= 274 RMS= 0.95099E-02 Markov E= -6.665847039 t= 16.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.0600755766 steps= 164 RMS= 0.98753E-02 Markov E= -6.060075577 t= 16.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9158025233 steps= 0 RMS= 0.79746E-02 Markov E= -23.91580252 t= 16.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.8895350742 steps= 156 RMS= 0.73290E-02 Markov E= -13.88953507 t= 16.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.7036677152 steps= 174 RMS= 0.82679E-02 Markov E= -13.70366772 t= 16.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.5679998402 steps= 214 RMS= 0.90318E-02 Markov E= -19.56799984 t= 16.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.5025153995 steps= 267 RMS= 0.89530E-02 Markov E= -2.502515399 t= 16.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1435398287 steps= 201 RMS= 0.93435E-02 Markov E= -20.14353983 t= 16.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.3559279276 steps= 444 RMS= 0.94593E-02 Markov E= -1.355927928 t= 16.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.4589827194 steps= 106 RMS= 0.95842E-02 Markov E= -16.45898272 t= 16.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -1.3390512662 steps= 322 RMS= 0.93012E-02 Markov E= -1.339051266 t= 16.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.9807791519 steps= 57 RMS= 0.97095E-02 Markov E= -15.98077915 t= 16.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.9614233389 steps= 676 RMS= 0.91193E-02 Markov E= -6.961423339 t= 16.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.7820794904 steps= 30 RMS= 0.78441E-02 Markov E= -25.78207949 t= 16.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.8350073113 steps= 226 RMS= 0.85781E-02 Markov E= -23.83500731 t= 16.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.5031452220 steps= 354 RMS= 0.88998E-02 Markov E= -22.50314522 t= 16.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.2082802414 steps= 201 RMS= 0.94997E-02 Markov E= -18.20828024 t= 16.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.0292867787 steps= 143 RMS= 0.94236E-02 Markov E= -13.02928678 t= 16.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4843566676 steps= 183 RMS= 0.98149E-02 Markov E= -15.48435667 t= 16.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.7801104793 steps= 143 RMS= 0.88578E-02 Markov E= -13.78011048 t= 16.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.5003795564 steps= 49 RMS= 0.95152E-02 Markov E= -16.50037956 t= 16.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.0511319205 steps= 128 RMS= 0.89741E-02 Markov E= -17.05113192 t= 16.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6384524966 steps= 223 RMS= 0.90068E-02 Markov E= -29.63845250 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5859789509 steps= 37 RMS= 0.96516E-02 Markov E= -24.58597895 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.4480409102 steps= 132 RMS= 0.96292E-02 Markov E= -21.44804091 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.6915057500 steps= 0 RMS= 0.93398E-07 Markov E= -31.69150575 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 7 Best= -31.691506 Mean= -21.780410 Worst= -18.300701 Time= 16.482493 GA> Generation= 7 Duplicates= 0.000000 Offspring in new pop.= 0.450000 Mutants in new pop.= 0.461538 Calculating initial energy Qu 0 E= -24.8896113604 steps= 198 RMS= 0.83023E-02 Markov E= -24.88961136 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.8168598063 steps= 211 RMS= 0.87397E-02 Markov E= -21.81685981 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.8110836292 steps= 149 RMS= 0.99302E-02 Markov E= -24.81108363 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.6883477915 steps= 168 RMS= 0.82902E-02 Markov E= -23.68834779 t= 16.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2032299964 steps= 183 RMS= 0.69799E-02 Markov E= -21.20323000 t= 16.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.1377486257 steps= 213 RMS= 0.78850E-02 Markov E= -25.13774863 t= 16.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8270161023 steps= 105 RMS= 0.96868E-02 Markov E= -26.82701610 t= 16.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.1771019945 steps= 261 RMS= 0.92761E-02 Markov E= -15.17710199 t= 16.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.4753915506 steps= 28 RMS= 0.92637E-02 Markov E= -20.47539155 t= 16.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.1603404238 steps= 207 RMS= 0.93214E-02 Markov E= -18.16034042 t= 16.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.8562151257 steps= 322 RMS= 0.75217E-02 Markov E= -18.85621513 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.4173548286 steps= 178 RMS= 0.97479E-02 Markov E= -7.417354829 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.8251850895 steps= 49 RMS= 0.95618E-02 Markov E= -23.82518509 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.6942728211 steps= 170 RMS= 0.93091E-02 Markov E= -12.69427282 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.1090763908 steps= 185 RMS= 0.94220E-02 Markov E= -7.109076391 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.1217419289 steps= 61 RMS= 0.95450E-02 Markov E= -18.12174193 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.3686357096 steps= 183 RMS= 0.85008E-02 Markov E= -18.36863571 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.4653564223 steps= 176 RMS= 0.98353E-02 Markov E= -18.46535642 t= 16.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.3900565963 steps= 184 RMS= 0.93950E-02 Markov E= -29.39005660 t= 16.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9393524951 steps= 196 RMS= 0.96084E-02 Markov E= -23.93935250 t= 16.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9158025233 steps= 0 RMS= 0.79746E-02 Markov E= -23.91580252 t= 16.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.8170184150 steps= 176 RMS= 0.73939E-02 Markov E= -23.81701841 t= 16.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.1621026393 steps= 108 RMS= 0.83216E-02 Markov E= -23.16210264 t= 16.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.6047319281 steps= 285 RMS= 0.89034E-02 Markov E= -20.60473193 t= 16.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.0340275367 steps= 283 RMS= 0.99589E-02 Markov E= -17.03402754 t= 16.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.8346396648 steps= 188 RMS= 0.87264E-02 Markov E= -15.83463966 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.2069380308 steps= 151 RMS= 0.83239E-02 Markov E= -24.20693803 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.7760338300 steps= 146 RMS= 0.94049E-02 Markov E= -19.77603383 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.7784444920 steps= 136 RMS= 0.82089E-02 Markov E= -22.77844449 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.3468453846 steps= 166 RMS= 0.90287E-02 Markov E= -23.34684538 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -8.9470663395 steps= 241 RMS= 0.80311E-02 Markov E= -8.947066340 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.3372536964 steps= 2 RMS= 0.96802E-02 Markov E= -20.33725370 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.7135876351 steps= 194 RMS= 0.82240E-02 Markov E= -25.71358764 t= 16.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.9087160979 steps= 316 RMS= 0.87683E-02 Markov E= -22.90871610 t= 17.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.5111178500 steps= 371 RMS= 0.94275E-02 Markov E= -14.51111785 t= 17.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.7439030746 steps= 252 RMS= 0.79593E-02 Markov E= -23.74390307 t= 17.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.2821464823 steps= 196 RMS= 0.92724E-02 Markov E= -11.28214648 t= 17.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.1736693226 steps= 163 RMS= 0.81784E-02 Markov E= -28.17366932 t= 17.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8261658881 steps= 29 RMS= 0.99554E-02 Markov E= -26.82616589 t= 17.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.9404051833 steps= 145 RMS= 0.96055E-02 Markov E= -13.94040518 t= 17.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1985524923 steps= 150 RMS= 0.75675E-02 Markov E= -20.19855249 t= 17.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1238480011 steps= 247 RMS= 0.97890E-02 Markov E= -27.12384800 t= 17.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -32.8985592254 steps= 191 RMS= 0.92461E-02 Markov E= -32.89855923 t= 17.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.9288207953 steps= 205 RMS= 0.87391E-02 Markov E= -6.928820795 t= 17.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.0934863698 steps= 219 RMS= 0.92179E-02 Markov E= -25.09348637 t= 17.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.2984224000 steps= 170 RMS= 0.95186E-02 Markov E= -16.29842240 t= 17.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5699077304 steps= 208 RMS= 0.80831E-02 Markov E= -24.56990773 t= 17.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.0737113192 steps= 492 RMS= 0.98955E-02 Markov E= -16.07371132 t= 17.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.9634932011 steps= 122 RMS= 0.81808E-02 Markov E= -21.96349320 t= 17.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.8398824993 steps= 43 RMS= 0.84766E-02 Markov E= -21.83988250 t= 17.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.0998819434 steps= 120 RMS= 0.93521E-02 Markov E= -16.09988194 t= 17.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.9836456327 steps= 163 RMS= 0.74719E-02 Markov E= -9.983645633 t= 17.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2436461554 steps= 142 RMS= 0.99853E-02 Markov E= -21.24364616 t= 17.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5185910271 steps= 246 RMS= 0.98593E-02 Markov E= -24.51859103 t= 17.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.9279553302 steps= 167 RMS= 0.77126E-02 Markov E= -17.92795533 t= 17.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -30.7819008904 steps= 65 RMS= 0.98764E-02 Markov E= -30.78190089 t= 17.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.5928178481 steps= 151 RMS= 0.99179E-02 Markov E= -21.59281785 t= 17.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.7228050774 steps= 348 RMS= 0.88657E-02 Markov E= -11.72280508 t= 17.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.7707974680 steps= 247 RMS= 0.77090E-02 Markov E= -17.77079747 t= 17.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.1361481611 steps= 340 RMS= 0.74592E-02 Markov E= -2.136148161 t= 17.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.0000557108 steps= 227 RMS= 0.91293E-02 Markov E= -13.00005571 t= 17.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.5741302644 steps= 205 RMS= 0.96906E-02 Markov E= -16.57413026 t= 17.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.6911523991 steps= 358 RMS= 0.97960E-02 Markov E= -31.69115240 t= 17.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.9096217437 steps= 142 RMS= 0.98399E-02 Markov E= -24.90962174 t= 17.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.3509513633 steps= 349 RMS= 0.78918E-02 Markov E= -6.350951363 t= 17.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5002406285 steps= 168 RMS= 0.96836E-02 Markov E= -27.50024063 t= 17.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9159416870 steps= 98 RMS= 0.68487E-02 Markov E= -23.91594169 t= 17.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0316311357 steps= 194 RMS= 0.98202E-02 Markov E= -29.03163114 t= 17.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.9287820971 steps= 356 RMS= 0.85287E-02 Markov E= -22.92878210 t= 17.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.8906189365 steps= 175 RMS= 0.98761E-02 Markov E= -9.890618936 t= 17.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.3413137498 steps= 160 RMS= 0.81913E-02 Markov E= -0.3413137498 t= 17.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.0173393756 steps= 236 RMS= 0.88654E-02 Markov E= -21.01733938 t= 17.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5896188524 steps= 105 RMS= 0.86665E-02 Markov E= -27.58961885 t= 17.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.1077038739 steps= 209 RMS= 0.82852E-02 Markov E= -13.10770387 t= 17.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.4913079581 steps= 298 RMS= 0.76582E-02 Markov E= -21.49130796 t= 17.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.7050487767 steps= 182 RMS= 0.93723E-02 Markov E= -17.70504878 t= 17.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.1069782526 steps= 249 RMS= 0.97873E-02 Markov E= -29.10697825 t= 17.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.2517621671 steps= 121 RMS= 0.93148E-02 Markov E= -25.25176217 t= 17.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.8781290428 steps= 144 RMS= 0.97714E-02 Markov E= -10.87812904 t= 17.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.1739667468 steps= 268 RMS= 0.74530E-02 Markov E= -15.17396675 t= 17.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.2531618016 steps= 260 RMS= 0.89478E-02 Markov E= -15.25316180 t= 17.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8260266392 steps= 54 RMS= 0.98260E-02 Markov E= -26.82602664 t= 17.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.7960046928 steps= 170 RMS= 0.86730E-02 Markov E= -27.79600469 t= 17.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5039744118 steps= 286 RMS= 0.80091E-02 Markov E= -24.50397441 t= 17.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.5187816466 steps= 110 RMS= 0.84840E-02 Markov E= -19.51878165 t= 17.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2561992683 steps= 155 RMS= 0.85518E-02 Markov E= -21.25619927 t= 17.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.2318755875 steps= 124 RMS= 0.84135E-02 Markov E= -15.23187559 t= 17.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2393173276 steps= 132 RMS= 0.98880E-02 Markov E= -21.23931733 t= 17.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.6275443287 steps= 29 RMS= 0.96022E-02 Markov E= -20.62754433 t= 17.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.5728038059 steps= 177 RMS= 0.82433E-02 Markov E= -15.57280381 t= 17.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.7143830072 steps= 630 RMS= 0.88333E-02 Markov E= -13.71438301 t= 17.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.6038150008 steps= 181 RMS= 0.87215E-02 Markov E= -12.60381500 t= 18.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.5480192090 steps= 268 RMS= 0.79011E-02 Markov E= -13.54801921 t= 18.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.5015008040 steps= 69 RMS= 0.68626E-02 Markov E= -18.50150080 t= 18.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.6372299242 steps= 402 RMS= 0.91761E-02 Markov E= -18.63722992 t= 18.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1613722989 steps= 231 RMS= 0.75306E-02 Markov E= -20.16137230 t= 18.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.8555619030 steps= 78 RMS= 0.98890E-02 Markov E= -18.85556190 t= 18.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.8116378354 steps= 207 RMS= 0.85664E-02 Markov E= -21.81163784 t= 18.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.3194350959 steps= 183 RMS= 0.94997E-02 Markov E= -14.31943510 t= 18.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.9679836092 steps= 189 RMS= 0.90798E-02 Markov E= -16.96798361 t= 18.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.1087911231 steps= 167 RMS= 0.96946E-02 Markov E= -11.10879112 t= 18.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 4.1060465493 steps= 281 RMS= 0.90078E-02 Markov E= 4.106046549 t= 18.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -32.8998964777 steps= 229 RMS= 0.92539E-07 Markov E= -32.89989648 t= 18.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 8 Best= -32.899896 Mean= -24.368404 Worst= -20.627544 Time= 18.147240 GA> Generation= 8 Duplicates= 0.000000 Offspring in new pop.= 0.525000 Mutants in new pop.= 0.318182 Calculating initial energy Qu 0 E= -23.9156802176 steps= 52 RMS= 0.99743E-02 Markov E= -23.91568022 t= 18.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.7380593347 steps= 484 RMS= 0.94987E-02 Markov E= -17.73805933 t= 18.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.3805788428 steps= 159 RMS= 0.94030E-02 Markov E= -25.38057884 t= 18.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.0862691851 steps= 203 RMS= 0.89523E-02 Markov E= -25.08626919 t= 18.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8268961566 steps= 64 RMS= 0.93509E-02 Markov E= -26.82689616 t= 18.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.1345359332 steps= 357 RMS= 0.71025E-02 Markov E= -24.13453593 t= 18.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.3274749337 steps= 305 RMS= 0.81626E-02 Markov E= -15.32747493 t= 18.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.7813914048 steps= 8 RMS= 0.99891E-02 Markov E= -25.78139140 t= 18.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.2824904750 steps= 89 RMS= 0.84098E-02 Markov E= -29.28249047 t= 18.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.1173327159 steps= 214 RMS= 0.99640E-02 Markov E= -24.11733272 t= 18.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.0511471878 steps= 268 RMS= 0.71046E-02 Markov E= -24.05114719 t= 18.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8261967105 steps= 1 RMS= 0.85750E-02 Markov E= -26.82619671 t= 18.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -33.3733284283 steps= 229 RMS= 0.46091E-02 Markov E= -33.37332843 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.5311040456 steps= 2 RMS= 0.84388E-02 Markov E= -26.53110405 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.1002349189 steps= 153 RMS= 0.98183E-02 Markov E= -23.10023492 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.9835847828 steps= 340 RMS= 0.92435E-02 Markov E= -13.98358478 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.6408190373 steps= 89 RMS= 0.70229E-02 Markov E= -24.64081904 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.2041740777 steps= 160 RMS= 0.80857E-02 Markov E= -25.20417408 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.4492645528 steps= 85 RMS= 0.96169E-02 Markov E= -21.44926455 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.7065658011 steps= 149 RMS= 0.93372E-02 Markov E= -10.70656580 t= 18.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.8357586289 steps= 225 RMS= 0.86532E-02 Markov E= -6.835758629 t= 18.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.0068964651 steps= 212 RMS= 0.94889E-02 Markov E= -17.00689647 t= 18.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.7680939323 steps= 411 RMS= 0.96966E-02 Markov E= -10.76809393 t= 18.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.1457568295 steps= 264 RMS= 0.96428E-02 Markov E= -3.145756830 t= 18.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5511904260 steps= 536 RMS= 0.94703E-02 Markov E= -24.55119043 t= 18.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2223951365 steps= 79 RMS= 0.89794E-02 Markov E= -21.22239514 t= 18.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0878810077 steps= 245 RMS= 0.74969E-02 Markov E= -27.08788101 t= 18.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.6202055652 steps= 128 RMS= 0.88831E-02 Markov E= -17.62020557 t= 18.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.8628879857 steps= 389 RMS= 0.79703E-02 Markov E= -28.86288799 t= 18.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9154924957 steps= 41 RMS= 0.69274E-02 Markov E= -23.91549250 t= 18.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5807218767 steps= 270 RMS= 0.90205E-02 Markov E= -24.58072188 t= 18.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8268948455 steps= 91 RMS= 0.87257E-02 Markov E= -26.82689485 t= 18.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.8035796120 steps= 235 RMS= 0.79446E-02 Markov E= -15.80357961 t= 18.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -14.3725613897 steps= 267 RMS= 0.92345E-02 Markov E= -14.37256139 t= 18.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.2781327187 steps= 245 RMS= 0.78738E-02 Markov E= -29.27813272 t= 18.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1258645855 steps= 261 RMS= 0.94411E-02 Markov E= -27.12586459 t= 18.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.8014737658 steps= 135 RMS= 0.83228E-02 Markov E= -22.80147377 t= 18.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.3884065729 steps= 107 RMS= 0.93257E-02 Markov E= -26.38840657 t= 18.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.1852060216 steps= 204 RMS= 0.85313E-02 Markov E= -25.18520602 t= 18.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.1064946279 steps= 66 RMS= 0.93561E-02 Markov E= -29.10649463 t= 18.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.3779375371 steps= 57 RMS= 0.99151E-02 Markov E= -29.37793754 t= 18.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.9156877862 steps= 71 RMS= 0.91416E-02 Markov E= -23.91568779 t= 18.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -13.1355850419 steps= 427 RMS= 0.89655E-02 Markov E= -13.13558504 t= 18.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.7107129644 steps= 204 RMS= 0.90462E-02 Markov E= -12.71071296 t= 18.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1925162911 steps= 156 RMS= 0.99168E-02 Markov E= -27.19251629 t= 18.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.4987515244 steps= 265 RMS= 0.99254E-02 Markov E= -24.49875152 t= 18.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.2702404292 steps= 238 RMS= 0.98299E-02 Markov E= -20.27024043 t= 18.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.5150192639 steps= 158 RMS= 0.76498E-02 Markov E= -19.51501926 t= 18.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -32.8994890351 steps= 26 RMS= 0.91341E-02 Markov E= -32.89948904 t= 18.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.6835956234 steps= 386 RMS= 0.90509E-02 Markov E= -6.683595623 t= 19.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.9092543299 steps= 119 RMS= 0.92721E-02 Markov E= -24.90925433 t= 19.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -11.3652388143 steps= 221 RMS= 0.84129E-02 Markov E= -11.36523881 t= 19.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.5508500227 steps= 278 RMS= 0.86898E-02 Markov E= -18.55085002 t= 19.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.5891192637 steps= 85 RMS= 0.82668E-02 Markov E= -21.58911926 t= 19.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.7380100405 steps= 121 RMS= 0.90482E-02 Markov E= -22.73801004 t= 19.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6722383928 steps= 201 RMS= 0.99485E-02 Markov E= -29.67223839 t= 19.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.9069202503 steps= 440 RMS= 0.91726E-02 Markov E= -26.90692025 t= 19.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.1277010099 steps= 186 RMS= 0.87154E-02 Markov E= -23.12770101 t= 19.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.3588318708 steps= 194 RMS= 0.71482E-02 Markov E= -27.35883187 t= 19.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -2.0577240013 steps= 398 RMS= 0.96366E-02 Markov E= -2.057724001 t= 19.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.5158595709 steps= 209 RMS= 0.99189E-02 Markov E= -12.51585957 t= 19.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.8350073113 steps= 0 RMS= 0.85781E-02 Markov E= -23.83500731 t= 19.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.3583929211 steps= 145 RMS= 0.88142E-02 Markov E= -27.35839292 t= 19.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.5330238012 steps= 265 RMS= 0.98186E-02 Markov E= -21.53302380 t= 19.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.0508468376 steps= 309 RMS= 0.84001E-02 Markov E= -25.05084684 t= 19.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.1693701177 steps= 166 RMS= 0.76265E-02 Markov E= -22.16937012 t= 19.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5049770653 steps= 356 RMS= 0.83683E-02 Markov E= -27.50497707 t= 19.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.2599562808 steps= 294 RMS= 0.97270E-02 Markov E= -17.25995628 t= 19.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.4815930481 steps= 166 RMS= 0.84963E-02 Markov E= -25.48159305 t= 19.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.2007838501 steps= 218 RMS= 0.90207E-02 Markov E= -27.20078385 t= 19.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.7085852399 steps= 446 RMS= 0.93994E-02 Markov E= -20.70858524 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0594696486 steps= 1 RMS= 0.69524E-02 Markov E= -27.05946965 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.0763298653 steps= 203 RMS= 0.95856E-02 Markov E= -17.07632987 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.8254228848 steps= 120 RMS= 0.75083E-02 Markov E= -23.82542288 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.2526837719 steps= 20 RMS= 0.95078E-02 Markov E= -25.25268377 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.0855095204 steps= 144 RMS= 0.99918E-02 Markov E= -22.08550952 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -7.7249102250 steps= 250 RMS= 0.92236E-02 Markov E= -7.724910225 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.7821978269 steps= 38 RMS= 0.89496E-02 Markov E= -25.78219783 t= 19.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.3415554387 steps= 287 RMS= 0.81671E-02 Markov E= -15.34155544 t= 19.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.7833337769 steps= 101 RMS= 0.80114E-02 Markov E= -22.78333378 t= 19.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.8747556005 steps= 458 RMS= 0.92470E-02 Markov E= -21.87475560 t= 19.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.2837178108 steps= 174 RMS= 0.93182E-02 Markov E= -9.283717811 t= 19.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.0432719131 steps= 169 RMS= 0.93404E-02 Markov E= -28.04327191 t= 19.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.1370630061 steps= 165 RMS= 0.91615E-02 Markov E= -21.13706301 t= 19.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.1873301718 steps= 168 RMS= 0.96476E-02 Markov E= -10.18733017 t= 19.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.8114125524 steps= 53 RMS= 0.65111E-02 Markov E= -24.81141255 t= 19.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.2282717594 steps= 153 RMS= 0.99023E-02 Markov E= -26.22827176 t= 19.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.6470028803 steps= 180 RMS= 0.93865E-02 Markov E= -27.64700288 t= 19.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.2931436503 steps= 241 RMS= 0.98117E-02 Markov E= -4.293143650 t= 19.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.1531721103 steps= 302 RMS= 0.88815E-02 Markov E= -21.15317211 t= 19.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.6821034365 steps= 216 RMS= 0.91301E-02 Markov E= -17.68210344 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.7699982884 steps= 214 RMS= 0.76236E-02 Markov E= -17.76999829 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.2560903847 steps= 123 RMS= 0.91635E-02 Markov E= -21.25609038 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.5509751505 steps= 137 RMS= 0.84995E-02 Markov E= -18.55097515 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.8582256169 steps= 154 RMS= 0.74595E-02 Markov E= -17.85822562 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -17.0208472007 steps= 162 RMS= 0.96298E-02 Markov E= -17.02084720 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.1339226077 steps= 78 RMS= 0.95588E-02 Markov E= -24.13392261 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.1002875697 steps= 111 RMS= 0.91743E-02 Markov E= -23.10028757 t= 19.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.7746963127 steps= 175 RMS= 0.96282E-02 Markov E= -16.77469631 t= 19.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -9.8060271450 steps= 165 RMS= 0.86142E-02 Markov E= -9.806027145 t= 19.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.6827358320 steps= 358 RMS= 0.92233E-02 Markov E= -24.68273583 t= 19.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5669415879 steps= 153 RMS= 0.83832E-02 Markov E= -24.56694159 t= 19.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.8760985502 steps= 212 RMS= 0.75012E-02 Markov E= -22.87609855 t= 19.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.2982796429 steps= 155 RMS= 0.95023E-02 Markov E= -25.29827964 t= 19.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.6891128567 steps= 180 RMS= 0.97114E-02 Markov E= -10.68911286 t= 19.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -33.3734518810 steps= 124 RMS= 0.84958E-07 Markov E= -33.37345188 t= 19.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 9 Best= -33.373452 Mean= -26.479915 Worst= -23.915492 Time= 19.875977 GA> Generation= 9 Duplicates= 0.000000 Offspring in new pop.= 0.525000 Mutants in new pop.= 0.320000 Calculating initial energy Qu 0 E= -30.7818348450 steps= 203 RMS= 0.90627E-02 Markov E= -30.78183484 t= 19.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6723715459 steps= 39 RMS= 0.89730E-02 Markov E= -29.67237155 t= 19.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.8897945791 steps= 55 RMS= 0.91369E-02 Markov E= -24.88979458 t= 19.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.3780293314 steps= 226 RMS= 0.91777E-02 Markov E= -26.37802933 t= 19.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -10.9994237919 steps= 346 RMS= 0.96304E-02 Markov E= -10.99942379 t= 19.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2872601001 steps= 243 RMS= 0.80238E-02 Markov E= -28.28726010 t= 20.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.9906664774 steps= 151 RMS= 0.77926E-02 Markov E= -20.99066648 t= 20.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.8896933221 steps= 208 RMS= 0.90210E-02 Markov E= -27.88969332 t= 20.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.9325874773 steps= 176 RMS= 0.89777E-02 Markov E= -16.93258748 t= 20.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -6.7768841165 steps= 201 RMS= 0.99256E-02 Markov E= -6.776884117 t= 20.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.1667687889 steps= 120 RMS= 0.61987E-02 Markov E= -22.16676879 t= 20.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -4.2427402191 steps= 136 RMS= 0.94126E-02 Markov E= -4.242740219 t= 20.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.4249250511 steps= 127 RMS= 0.94687E-02 Markov E= -24.42492505 t= 20.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.0005741017 steps= 219 RMS= 0.89446E-02 Markov E= -16.00057410 t= 20.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.9495223141 steps= 279 RMS= 0.84907E-02 Markov E= -18.94952231 t= 20.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8270573305 steps= 89 RMS= 0.93510E-02 Markov E= -26.82705733 t= 20.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.2651808791 steps= 176 RMS= 0.86194E-02 Markov E= -19.26518088 t= 20.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -0.3284589579 steps= 288 RMS= 0.91960E-02 Markov E= -0.3284589579 t= 20.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.0338323584 steps= 228 RMS= 0.86507E-02 Markov E= -24.03383236 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8261658881 steps= 0 RMS= 0.99554E-02 Markov E= -26.82616589 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5899203169 steps= 131 RMS= 0.98514E-02 Markov E= -27.58992032 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.8111676439 steps= 137 RMS= 0.79186E-02 Markov E= -24.81116764 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.1611040423 steps= 315 RMS= 0.98261E-02 Markov E= -20.16110404 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.1073214953 steps= 66 RMS= 0.75391E-02 Markov E= -29.10732150 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8270934252 steps= 107 RMS= 0.99092E-02 Markov E= -26.82709343 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.8888351984 steps= 71 RMS= 0.94166E-02 Markov E= -24.88883520 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0878810077 steps= 0 RMS= 0.74969E-02 Markov E= -27.08788101 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.5778380759 steps= 138 RMS= 0.94361E-02 Markov E= -23.57783808 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.3586343256 steps= 13 RMS= 0.81746E-02 Markov E= -27.35863433 t= 20.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= 1.8692972745 steps= 442 RMS= 0.95154E-02 Markov E= 1.869297274 t= 20.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.2813712421 steps= 152 RMS= 0.61485E-02 Markov E= -24.28137124 t= 20.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.8330426104 steps= 263 RMS= 0.98465E-02 Markov E= -25.83304261 t= 20.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.7089096911 steps= 105 RMS= 0.98516E-02 Markov E= -28.70890969 t= 20.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.3833294930 steps= 148 RMS= 0.94976E-02 Markov E= -26.38332949 t= 20.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.1671189207 steps= 198 RMS= 0.94091E-02 Markov E= -24.16711892 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.3292376920 steps= 233 RMS= 0.80746E-02 Markov E= -22.32923769 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.0271294015 steps= 199 RMS= 0.98699E-02 Markov E= -26.02712940 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.4836636855 steps= 126 RMS= 0.97348E-02 Markov E= -28.48366369 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.2522520151 steps= 17 RMS= 0.78163E-02 Markov E= -25.25225202 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.2068914487 steps= 19 RMS= 0.91792E-02 Markov E= -24.20689145 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2408124724 steps= 217 RMS= 0.98648E-02 Markov E= -28.24081247 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.5066936389 steps= 91 RMS= 0.87396E-02 Markov E= -24.50669364 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -34.9631140863 steps= 151 RMS= 0.90814E-02 Markov E= -34.96311409 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6722383928 steps= 0 RMS= 0.99485E-02 Markov E= -29.67223839 t= 20.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.0935027573 steps= 145 RMS= 0.96444E-02 Markov E= -25.09350276 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0642028635 steps= 158 RMS= 0.82293E-02 Markov E= -29.06420286 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.5732463404 steps= 309 RMS= 0.83711E-02 Markov E= -12.57324634 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8268073072 steps= 32 RMS= 0.67553E-02 Markov E= -26.82680731 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.7821268712 steps= 10 RMS= 0.96429E-02 Markov E= -25.78212687 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.7952290980 steps= 110 RMS= 0.80795E-02 Markov E= -26.79522910 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2830922475 steps= 163 RMS= 0.74320E-02 Markov E= -28.28309225 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.5854335820 steps= 226 RMS= 0.91027E-02 Markov E= -31.58543358 t= 20.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -30.3970065060 steps= 288 RMS= 0.83529E-02 Markov E= -30.39700651 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -19.4761793890 steps= 152 RMS= 0.76290E-02 Markov E= -19.47617939 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.9145650166 steps= 118 RMS= 0.82869E-02 Markov E= -29.91456502 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0865691314 steps= 56 RMS= 0.92101E-02 Markov E= -27.08656913 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.3440501604 steps= 212 RMS= 0.86407E-02 Markov E= -21.34405016 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.8624802803 steps= 44 RMS= 0.91876E-02 Markov E= -28.86248028 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5005784123 steps= 45 RMS= 0.80161E-02 Markov E= -27.50057841 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.0442913863 steps= 176 RMS= 0.89930E-02 Markov E= -28.04429139 t= 20.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.6099742809 steps= 260 RMS= 0.84044E-02 Markov E= -25.60997428 t= 20.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1250605872 steps= 123 RMS= 0.76000E-02 Markov E= -27.12506059 t= 20.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -34.7666169600 steps= 65 RMS= 0.88226E-02 Markov E= -34.76661696 t= 20.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.5420247326 steps= 287 RMS= 0.88496E-02 Markov E= -29.54202473 t= 20.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0331798994 steps= 116 RMS= 0.87461E-02 Markov E= -29.03317990 t= 20.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.4871812933 steps= 332 RMS= 0.95017E-02 Markov E= -25.48718129 t= 20.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8268298693 steps= 134 RMS= 0.98796E-02 Markov E= -26.82682987 t= 20.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.8267836265 steps= 298 RMS= 0.88208E-02 Markov E= -21.82678363 t= 20.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -18.1230853284 steps= 355 RMS= 0.87892E-02 Markov E= -18.12308533 t= 20.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.4891940948 steps= 389 RMS= 0.97927E-02 Markov E= -15.48919409 t= 20.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5026549964 steps= 294 RMS= 0.98637E-02 Markov E= -27.50265500 t= 20.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -22.4401457826 steps= 169 RMS= 0.95917E-02 Markov E= -22.44014578 t= 20.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -21.9736263937 steps= 397 RMS= 0.85865E-02 Markov E= -21.97362639 t= 20.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.4938788222 steps= 156 RMS= 0.97614E-02 Markov E= -27.49387882 t= 20.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.2919448247 steps= 255 RMS= 0.89039E-02 Markov E= -29.29194482 t= 20.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1946497945 steps= 50 RMS= 0.99756E-02 Markov E= -27.19464979 t= 20.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.7883585188 steps= 253 RMS= 0.96582E-02 Markov E= -27.78835852 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.1461477688 steps= 268 RMS= 0.95179E-02 Markov E= -24.14614777 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8269355154 steps= 26 RMS= 0.82789E-02 Markov E= -26.82693552 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.8624505470 steps= 46 RMS= 0.94683E-02 Markov E= -28.86245055 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.6611909120 steps= 222 RMS= 0.90627E-02 Markov E= -24.66119091 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.0250323056 steps= 69 RMS= 0.91222E-02 Markov E= -26.02503231 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0335055583 steps= 51 RMS= 0.91241E-02 Markov E= -29.03350556 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -23.4771005213 steps= 136 RMS= 0.99230E-02 Markov E= -23.47710052 t= 21.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -32.5388791335 steps= 288 RMS= 0.84772E-02 Markov E= -32.53887913 t= 21.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -3.9360446522 steps= 241 RMS= 0.93396E-02 Markov E= -3.936044652 t= 21.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.7108661707 steps= 180 RMS= 0.94556E-02 Markov E= -15.71086617 t= 21.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -30.7300564087 steps= 347 RMS= 0.84657E-02 Markov E= -30.73005641 t= 21.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.9095950288 steps= 143 RMS= 0.88726E-02 Markov E= -24.90959503 t= 21.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -16.6476006689 steps= 250 RMS= 0.81603E-02 Markov E= -16.64760067 t= 21.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.2433577109 steps= 133 RMS= 0.84395E-02 Markov E= -25.24335771 t= 21.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -15.3507527611 steps= 367 RMS= 0.88313E-02 Markov E= -15.35075276 t= 21.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -20.0640126500 steps= 268 RMS= 0.89344E-02 Markov E= -20.06401265 t= 21.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -24.6518645246 steps= 240 RMS= 0.94483E-02 Markov E= -24.65186452 t= 21.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.8801416894 steps= 172 RMS= 0.87962E-02 Markov E= -25.88014169 t= 21.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -12.6802586019 steps= 300 RMS= 0.81107E-02 Markov E= -12.68025860 t= 21.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -25.8021840984 steps= 222 RMS= 0.89480E-02 Markov E= -25.80218410 t= 21.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -38.4308695365 steps= 437 RMS= 0.92123E-07 Markov E= -38.43086954 t= 21.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Generation= 10 Best= -38.430870 Mean= -28.323942 Worst= -25.782127 Time= 21.338755 GA> Generation= 10 Duplicates= 0.000000 Offspring in new pop.= 0.550000 Mutants in new pop.= 0.352941 Calculating initial energy Qu 0 E= -38.4308695365 steps= 0 RMS= 0.92123E-07 Markov E= -38.43086954 t= 21.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -38.4308695365 steps= 503 RMS= 0.92164E-07 Markov E= -38.43086954 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -33.3734518810 steps= 0 RMS= 0.84958E-07 Markov E= -33.37345188 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -32.8998964777 steps= 0 RMS= 0.92539E-07 Markov E= -32.89989648 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -32.8998964777 steps= 203 RMS= 0.94753E-07 Markov E= -32.89989648 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -32.5393283121 steps= 216 RMS= 0.90217E-07 Markov E= -32.53932831 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.6915057500 steps= 0 RMS= 0.93398E-07 Markov E= -31.69150575 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.6915057500 steps= 159 RMS= 0.99678E-07 Markov E= -31.69150575 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -31.5860446425 steps= 150 RMS= 0.91062E-07 Markov E= -31.58604464 t= 21.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -30.7835397622 steps= 159 RMS= 0.81784E-07 Markov E= -30.78353976 t= 21.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -30.7834264443 steps= 248 RMS= 0.87143E-07 Markov E= -30.78342644 t= 21.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -30.7304393982 steps= 166 RMS= 0.95399E-07 Markov E= -30.73043940 t= 21.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -30.3973993280 steps= 166 RMS= 0.97394E-07 Markov E= -30.39739933 t= 21.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.9151734811 steps= 187 RMS= 0.72003E-07 Markov E= -29.91517348 t= 21.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6728323123 steps= 176 RMS= 0.91748E-07 Markov E= -29.67283231 t= 21.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6728323123 steps= 178 RMS= 0.64752E-07 Markov E= -29.67283231 t= 21.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6728323123 steps= 177 RMS= 0.96261E-07 Markov E= -29.67283231 t= 21.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.6394397253 steps= 231 RMS= 0.97052E-07 Markov E= -29.63943973 t= 21.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.5443566653 steps= 221 RMS= 0.75850E-07 Markov E= -29.54435667 t= 21.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.4961174204 steps= 157 RMS= 0.76460E-07 Markov E= -29.49611742 t= 21.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.3904693550 steps= 211 RMS= 0.59403E-07 Markov E= -29.39046936 t= 21.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.3790478397 steps= 207 RMS= 0.95853E-07 Markov E= -29.37904784 t= 21.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.3790478397 steps= 228 RMS= 0.78887E-07 Markov E= -29.37904784 t= 21.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.2923176121 steps= 170 RMS= 0.74841E-07 Markov E= -29.29231761 t= 21.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.2831953067 steps= 204 RMS= 0.75579E-07 Markov E= -29.28319531 t= 21.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.2783361093 steps= 188 RMS= 0.79432E-07 Markov E= -29.27833611 t= 21.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.1082494709 steps= 182 RMS= 0.99006E-07 Markov E= -29.10824947 t= 21.7 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.1082494709 steps= 200 RMS= 0.84224E-07 Markov E= -29.10824947 t= 21.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.1082494709 steps= 183 RMS= 0.94751E-07 Markov E= -29.10824947 t= 21.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0648979263 steps= 168 RMS= 0.89957E-07 Markov E= -29.06489793 t= 21.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0341930702 steps= 195 RMS= 0.90688E-07 Markov E= -29.03419307 t= 21.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0341930702 steps= 198 RMS= 0.88069E-07 Markov E= -29.03419307 t= 21.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.0341930702 steps= 233 RMS= 0.97820E-07 Markov E= -29.03419307 t= 21.8 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.8632759339 steps= 207 RMS= 0.97270E-07 Markov E= -28.86327593 t= 21.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.8632759339 steps= 186 RMS= 0.98420E-07 Markov E= -28.86327593 t= 21.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.8632759339 steps= 204 RMS= 0.90642E-07 Markov E= -28.86327593 t= 21.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -29.3608922293 steps= 253 RMS= 0.89971E-07 Markov E= -29.36089223 t= 21.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.6831210052 steps= 215 RMS= 0.91187E-07 Markov E= -28.68312101 t= 21.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.4842590740 steps= 189 RMS= 0.96644E-07 Markov E= -28.48425907 t= 21.9 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2874773604 steps= 157 RMS= 0.83475E-07 Markov E= -28.28747736 t= 22.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2835259799 steps= 181 RMS= 0.74713E-07 Markov E= -28.28352598 t= 22.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2417298117 steps= 238 RMS= 0.72529E-07 Markov E= -28.24172981 t= 22.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.2164201773 steps= 196 RMS= 0.93590E-07 Markov E= -28.21642018 t= 22.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.1749458282 steps= 183 RMS= 0.90535E-07 Markov E= -28.17494583 t= 22.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.0453258303 steps= 245 RMS= 0.67321E-07 Markov E= -28.04532583 t= 22.0 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -28.0453258303 steps= 201 RMS= 0.91452E-07 Markov E= -28.04532583 t= 22.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.8900459989 steps= 157 RMS= 0.97838E-07 Markov E= -27.89004600 t= 22.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.7965859161 steps= 187 RMS= 0.85787E-07 Markov E= -27.79658592 t= 22.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.7886894210 steps= 204 RMS= 0.68935E-07 Markov E= -27.78868942 t= 22.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.6474513948 steps= 175 RMS= 0.97709E-07 Markov E= -27.64745139 t= 22.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5900729578 steps= 187 RMS= 0.89832E-07 Markov E= -27.59007296 t= 22.1 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5900729578 steps= 210 RMS= 0.98141E-07 Markov E= -27.59007296 t= 22.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5059881678 steps= 152 RMS= 0.95377E-07 Markov E= -27.50598817 t= 22.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5028835637 steps= 140 RMS= 0.96736E-07 Markov E= -27.50288356 t= 22.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5015432605 steps= 181 RMS= 0.96807E-07 Markov E= -27.50154326 t= 22.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.5015432605 steps= 198 RMS= 0.93623E-07 Markov E= -27.50154326 t= 22.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.4944170996 steps= 146 RMS= 0.91572E-07 Markov E= -27.49441710 t= 22.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.3592552705 steps= 155 RMS= 0.88205E-07 Markov E= -27.35925527 t= 22.2 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.3592552705 steps= 158 RMS= 0.65107E-07 Markov E= -27.35925527 t= 22.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.3592552705 steps= 152 RMS= 0.79269E-07 Markov E= -27.35925527 t= 22.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.2583462918 steps= 292 RMS= 0.90929E-07 Markov E= -27.25834629 t= 22.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1959754646 steps= 170 RMS= 0.87641E-07 Markov E= -27.19597546 t= 22.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1930352317 steps= 172 RMS= 0.90102E-07 Markov E= -27.19303523 t= 22.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1264533444 steps= 254 RMS= 0.96123E-07 Markov E= -27.12645334 t= 22.3 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1264533444 steps= 283 RMS= 0.86790E-07 Markov E= -27.12645334 t= 22.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.1246203436 steps= 166 RMS= 0.93435E-07 Markov E= -27.12462034 t= 22.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0884760119 steps= 361 RMS= 0.83599E-07 Markov E= -27.08847601 t= 22.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0884760119 steps= 355 RMS= 0.81204E-07 Markov E= -27.08847601 t= 22.4 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0884760119 steps= 397 RMS= 0.96828E-07 Markov E= -27.08847601 t= 22.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0597365673 steps= 201 RMS= 0.67833E-07 Markov E= -27.05973657 t= 22.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -27.0597365673 steps= 203 RMS= 0.98258E-07 Markov E= -27.05973657 t= 22.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.9074406359 steps= 159 RMS= 0.98649E-07 Markov E= -26.90744064 t= 22.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 181 RMS= 0.75933E-07 Markov E= -26.82747182 t= 22.5 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 169 RMS= 0.94286E-07 Markov E= -26.82747182 t= 22.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 170 RMS= 0.81788E-07 Markov E= -26.82747182 t= 22.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 181 RMS= 0.90748E-07 Markov E= -26.82747182 t= 22.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 176 RMS= 0.89403E-07 Markov E= -26.82747182 t= 22.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 171 RMS= 0.91096E-07 Markov E= -26.82747182 t= 22.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 181 RMS= 0.92655E-07 Markov E= -26.82747182 t= 22.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 Calculating initial energy Qu 0 E= -26.8274718157 steps= 176 RMS= 0.94313E-07 Markov E= -26.82747182 t= 22.6 Starting MC run of 0 steps Temperature will be multiplied by 1.00000000 at every step Acceptance ratio for run= 0.00000 Step= 0.30000 Angular step factor= 0.30000 T= 0.30000 GA> Move summary GA> Position= 1 Crossovers= 0 Accepted= 0 Mutations= 0 Accepted= 0 GA> Position= 2 Crossovers= 0 Accepted= 0 Mutations= 0 Accepted= 0 GA> Position= 3 Crossovers= 0 Accepted= 0 Mutations= 0 Accepted= 0 GA> Position= 4 Crossovers= 25 Accepted= 14 Mutations= 4 Accepted= 4 GA> Position= 5 Crossovers= 20 Accepted= 14 Mutations= 7 Accepted= 5 GA> Position= 6 Crossovers= 23 Accepted= 16 Mutations= 5 Accepted= 2 GA> Position= 7 Crossovers= 23 Accepted= 11 Mutations= 6 Accepted= 1 GA> Position= 8 Crossovers= 17 Accepted= 9 Mutations= 0 Accepted= 0 GA> Position= 9 Crossovers= 20 Accepted= 10 Mutations= 7 Accepted= 3 GA> Position= 10 Crossovers= 13 Accepted= 7 Mutations= 3 Accepted= 1 GA> Position= 11 Crossovers= 26 Accepted= 12 Mutations= 4 Accepted= 2 GA> Position= 12 Crossovers= 20 Accepted= 10 Mutations= 4 Accepted= 2 GA> Position= 13 Crossovers= 11 Accepted= 6 Mutations= 6 Accepted= 1 GA> Position= 14 Crossovers= 19 Accepted= 7 Mutations= 4 Accepted= 0 GA> Position= 15 Crossovers= 21 Accepted= 9 Mutations= 4 Accepted= 1 GA> Position= 16 Crossovers= 18 Accepted= 12 Mutations= 4 Accepted= 2 GA> Position= 17 Crossovers= 23 Accepted= 5 Mutations= 2 Accepted= 1 GA> Position= 18 Crossovers= 22 Accepted= 12 Mutations= 7 Accepted= 3 GA> Position= 19 Crossovers= 11 Accepted= 1 Mutations= 3 Accepted= 1 GA> Position= 20 Crossovers= 24 Accepted= 12 Mutations= 4 Accepted= 1 GA> Position= 21 Crossovers= 23 Accepted= 11 Mutations= 4 Accepted= 1 GA> Position= 22 Crossovers= 10 Accepted= 6 Mutations= 1 Accepted= 1 GA> Position= 23 Crossovers= 26 Accepted= 9 Mutations= 3 Accepted= 0 GA> Position= 24 Crossovers= 19 Accepted= 9 Mutations= 1 Accepted= 1 GA> Position= 25 Crossovers= 16 Accepted= 7 Mutations= 7 Accepted= 2 GA> Position= 26 Crossovers= 29 Accepted= 15 Mutations= 4 Accepted= 2 GA> Position= 27 Crossovers= 12 Accepted= 8 Mutations= 2 Accepted= 0 GA> Position= 28 Crossovers= 22 Accepted= 9 Mutations= 3 Accepted= 3 GA> Position= 29 Crossovers= 16 Accepted= 11 Mutations= 5 Accepted= 3 GA> Position= 30 Crossovers= 19 Accepted= 10 Mutations= 0 Accepted= 0 GA> Position= 31 Crossovers= 21 Accepted= 13 Mutations= 3 Accepted= 1 GA> Position= 32 Crossovers= 16 Accepted= 10 Mutations= 3 Accepted= 3 GA> Position= 33 Crossovers= 15 Accepted= 9 Mutations= 7 Accepted= 4 GA> Position= 34 Crossovers= 17 Accepted= 9 Mutations= 7 Accepted= 5 GA> Position= 35 Crossovers= 13 Accepted= 8 Mutations= 4 Accepted= 1 GA> Position= 36 Crossovers= 15 Accepted= 6 Mutations= 3 Accepted= 0 GA> Position= 37 Crossovers= 19 Accepted= 11 Mutations= 4 Accepted= 2 GA> Position= 38 Crossovers= 23 Accepted= 14 Mutations= 6 Accepted= 4 GA> Position= 39 Crossovers= 23 Accepted= 16 Mutations= 5 Accepted= 2 GA> Position= 40 Crossovers= 20 Accepted= 12 Mutations= 7 Accepted= 3 GA> Position= 41 Crossovers= 18 Accepted= 11 Mutations= 2 Accepted= 1 GA> Position= 42 Crossovers= 14 Accepted= 9 Mutations= 3 Accepted= 1 GA> Position= 43 Crossovers= 12 Accepted= 8 Mutations= 3 Accepted= 2 GA> Position= 44 Crossovers= 10 Accepted= 5 Mutations= 4 Accepted= 4 GA> Position= 45 Crossovers= 19 Accepted= 9 Mutations= 2 Accepted= 2 GA> Position= 46 Crossovers= 17 Accepted= 13 Mutations= 4 Accepted= 2 GA> Run finished: Evaluations= 273639 Minimisations= 1071 Generations= 10 Epochs= 1 Time= 22.661