Number of Factors M 7 Number of of columns of matrix c R 0 Multi-step prognose indicator V 1 Multi-step optimization indicator W 0 Number of prognose repetitions K 10 indicator of simulated annealing SA 0 temperature of simulated annealing ST 1.000000e+04 number of simulated annealing iterations SI 100 starting number of AR parameters Ps 7 minimal number of AR parameters Pmin 7 minimal number of MA parameters Qmin 0 maximal number of AR parameters Pmax 7 maximal number of MA parameters Qmax 0 number of data entries T 840 number of entries for a and b optimization T0 280 number of entries for P and Q optimization T1 560 indicator of variance F 0 Global Max Iterat 35 Local Max Iterat 140 b-Bounds 1.000000e+00 Diskret Params Init (Ps-AR params, Qs-MA params,ts-starting time) : Ps Qs ts = 7 0 0 Diskret Params Step : dP dQ dt = 7 1 1 Diskret Params Max : Pmax Qmax tmax = 7 0 0 Start AR: l=0_Ps a[l] = -3.156994e-01 Start AR: l=0_Ps a[l] = 4.111079e-01 Start AR: l=0_Ps a[l] = 7.344825e-01 Start AR: l=0_Ps a[l] = 2.741598e+00 Start AR: l=0_Ps a[l] = -3.187447e-01 Start AR: l=0_Ps a[l] = 3.426120e-02 Start AR: l=0_Ps a[l] = 5.556671e-01 Start Results: opt delta_perc delta_mean= 1.133955e+01 1.676654e+02 8.680780e+00 Start Discret: Po Qo to opt delta_perc delta_mean = 7 0 0 1.133955e+01 1.676654e+02 8.680780e+00 Start AR: l=0_Po a[l] = -3.156994e-01 Start AR: l=0_Po a[l] = 4.111079e-01 Start AR: l=0_Po a[l] = 7.344825e-01 Start AR: l=0_Po a[l] = 2.741598e+00 Start AR: l=0_Po a[l] = -3.187447e-01 Start AR: l=0_Po a[l] = 3.426120e-02 Start AR: l=0_Po a[l] = 5.556671e-01 Finish Discret: Po Qo toP Q t0 opt delta_perc delta_mean= 7 0 0 7 0 0 1.133955e+01 1.676654e+02 8.680780e+00 Finish ARo: l=0_P a[l] = -3.156994e-01 Finish ARo: l=0_P a[l] = 4.111079e-01 Finish ARo: l=0_P a[l] = 7.344825e-01 Finish ARo: l=0_P a[l] = 2.741598e+00 Finish ARo: l=0_P a[l] = -3.187447e-01 Finish ARo: l=0_P a[l] = 3.426120e-02 Finish ARo: l=0_P a[l] = 5.556671e-01 Finish: sigma 0.000000e+00 Finish progn 6.849648e+00 Finish: sigma 0.000000e+00