# RNG = Mersenne twister # L = 30 d = 3 N = 27000 # Boundary conditions: periodic. # T = 6.7000000 beta = 0.1492537 alpha0 = 0.1000000 # gamma = 0.0500000 # Interactions: constant r_ell. # Initial permutation: identity. # Site selection for Metropolis sweeps: sequential. # Thermalization is detected by 40 turning points of system energy # smoothed over a 200-point window. # Terminate after 1000 batches: # * 10 GKU sweeps per batch. # * 0 worm sweeps per batch. # # Initial HDV = 2700.0000000 0.0000000 2700.0000000 # Batch 0 HDV = 14530.9500000 12204.0500000 2326.9000000 # Thermalization complete: sweep 930 H = 26519.1500000 # Accumulation complete: batch 1000 H = 27018.4000000 # # rho_infty max dev = 0.7940446 at k = 225 # fI = 0.2059554 # # k= 1 15715.5345000 # k= 2 1254.2191000 # k= 3 261.9952000 # k= 4 120.7509000 # k= 5 61.6334000 # k= 6 37.0704000 # k= 7 23.6579000 # k= 8 16.2620000 # k= 9 11.6650000 # k= 10 8.8006000 # k*counts sum = 27000.0000000 # # GRU quantities: # alpha GRU = 1.6750000 # /|X| = 0.1323817 # phi(alpha) = 0.2059554 # GRU quot = 0.6427688 # # mean_H = 26634.0113650 # stddev_H = 299.8669343 # foc_H = 0.0473942 # mean_D = 24877.7388450 # mean_V = 1756.2725200 # # mean_h = 0.9864449 # mean_d = 0.9213977 # mean_v = 0.0650471 # # mean_r2 = 1254.2191000 # mean_lmax = 3574.3058000 # # mean_jumplenbar = 0.4705542 # stddev_jumplenbar = 0.0054395 # foc_jumplenbar = 0.0487158 # maxjumplen = 3.4641016 # # mean_ell0 = 554.5070000 # stddev_ell0 = 883.0035093 # foc_ell0 = -0.5602685 # # mean_ellbar = 599.4523901 # stddev_ellbar = 88.8517469 # foc_ellbar = -0.0493668 # mean_ellfbar = 2.7689583 # stddev_ellfbar = 0.3142208 # foc_ellfbar = -0.1398522 # # mean_cyc0spatlen = 640.3713835 # stddev_cyc0spatlen = 1021.0805831 # foc_cyc0spatlen = -0.5599951 # # mean_meanspatlen = 692.4542044 # stddev_meanspatlen = 102.8149687 # foc_meanspatlen = -0.0504238 # mean_meanspatlenf = 2.4996655 # stddev_meanspatlenf = 0.3634557 # foc_meanspatlenf = -0.1395725 # # /L = 18.4835667 # /L = 19.9817463 # /L = 0.0922986 # /L = 21.3457128 # /L = 23.0818068 # /L = 0.0833222 # # mean_wno = 14.7960000 # stddev_wno = 6.5050426 # foc_wno = -0.6029276 # mean_fS = 1.1014800 # stddev_fS = 0.4842643 # foc_fS = -0.6029276 # recip_fS = 0.9078694 # # bulkflow box length = 5 # mean_bulkflow = 2.0285320 # # mean_ellx = 554.5070000 # mean_elly = 528.0544000 # stddev_ellx = 883.0035093 # stddev_elly = 860.1906507 # cov_ellx_elly = 11053.3322792 # corr_ellx_elly = 0.0145524 # # mean_jump0len = 0.4673459 # stddev_jump0len = 0.4214779 # # mean_kinkdot = -0.0877000 # stddev_kinkdot = 0.2809941 # mean_kinkcosangle = 0.0000000 # stddev_kinkcosangle = 0.0000000 # kinkcosangle num defined = 4138 # # * Angle stats for sites 0,0,0 and 0,0,1: # mean_dot = -0.0232000 # stddev_dot = 0.1609586 # mean_cos_angle = -0.0978888 # stddev_cos_angle = 0.5898372 # num defined = 2078 # * Angle stats for sites 0,0,0 and 0,1,1: # mean_dot = -0.0110000 # stddev_dot = 0.1567915 # mean_cos_angle = -0.0404492 # stddev_cos_angle = 0.5839587 # num defined = 1884 # * Angle stats for sites 0,0,0 and 1,1,1: # mean_dot = -0.0092000 # stddev_dot = 0.1481800 # mean_cos_angle = -0.0477445 # stddev_cos_angle = 0.5749173 # num defined = 1734 # * Angle stats for sites 0,0,0 and 15,15,15: # mean_dot = -0.0015000 # stddev_dot = 0.1290907 # mean_cos_angle = -0.0100303 # stddev_cos_angle = 0.5729646 # num defined = 1673 # # P[Wx = -10 ] = 0 / 10000 = 0.00000000 # P[Wx = -9 ] = 0 / 10000 = 0.00000000 # P[Wx = -8 ] = 3 / 10000 = 0.00030000 # P[Wx = -7 ] = 0 / 10000 = 0.00000000 # P[Wx = -6 ] = 106 / 10000 = 0.01060000 # P[Wx = -5 ] = 0 / 10000 = 0.00000000 # P[Wx = -4 ] = 677 / 10000 = 0.06770000 # P[Wx = -3 ] = 0 / 10000 = 0.00000000 # P[Wx = -2 ] = 2391 / 10000 = 0.23910000 # P[Wx = -1 ] = 0 / 10000 = 0.00000000 # P[Wx = 0 ] = 3629 / 10000 = 0.36290000 # P[Wx = 1 ] = 0 / 10000 = 0.00000000 # P[Wx = 2 ] = 2420 / 10000 = 0.24200000 # P[Wx = 3 ] = 0 / 10000 = 0.00000000 # P[Wx = 4 ] = 701 / 10000 = 0.07010000 # P[Wx = 5 ] = 0 / 10000 = 0.00000000 # P[Wx = 6 ] = 73 / 10000 = 0.00730000 # P[Wx = 7 ] = 0 / 10000 = 0.00000000 # P[Wx = 8 ] = 0 / 10000 = 0.00000000 # P[Wx = 9 ] = 0 / 10000 = 0.00000000 # P[Wx = 10 ] = 0 / 10000 = 0.00000000 # Wx_min = -8 # Wx_max = 6 # # OPENS: # None. # CLOSES: # None. # HS: # None. # TS: # None. # GK: # Metropolis keeps: 228689558 / 270000000 ( 84.700%) # Metropolis changes: 41310442 / 270000000 ( 15.300%) # Elapsed thermalization seconds: 15.772681 # Elapsed accumulation seconds: 330.852402 # Elapsed total seconds: 346.625083