Test Production Function (Risky + Safe Asets + Two-Step + Interpolated Distribution) (cross)
back to Fan's Dynamic Assets Repository Table of Content. cross test: given (x,y), vary x along X, y along Y, one at a time
@include
@seealso
- SPEED risky + safe (two-step interp) overall benchmark speed testing: fsi_iwkz_ds_vecsv_speed
- PREFERENCE risky + safe (two-step interp) preference testing: fsi_iwkz_ds_vecsv_pref
- PREFERENCE risky + safe (two-step interp) preference testing cross: fsi_iwkz_ds_vecsv_pref_cross
- SHOCK risky + safe (two-step interp) shock testing: fsi_iwkz_ds_vecsv_shock
- SHOCK risky + safe (two-step interp) shock testing cross: fsi_iwkz_ds_vecsv_shock_cross
- CAPITAL risky + safe (two-step interp) capital return testing: fsi_iwkz_ds_vecsv_prod
- CAPITAL risky + safe (two-step interp) capital return testing cross: fsi_iwkz_ds_vecsv_prod_cross
- PRICE risky + safe (two-step interp) wage and interest rate testing cross: adjust wage and savings rate fsi_iwkz_ds_vecsv_price_cross
- JOINT all parameters random draws joint test fsi_iwkz_ds_vecsv_joint_rand
Contents
Simulate and Graph
Note: as for example fl_beta increases, willingness to save increases, leading to higher savings, which will exceed the benchmark max grid point. So to allow for higher beta, dramatically higher max savings bound is needed.
% Set which to graph, simulate over which variables ar_it_plot_sets = [1,2,101,3,4,102,5,6,103,104,105,106]; bl_simu_cross = 'c'; cl_st_param_keys = {'fl_alpha', 'fl_delta'}; % Generate Benchmark Parameters it_param_set = 9; [param_map, support_map] = ffs_akz_set_default_param(it_param_set); support_map('bl_replacefile') = false; support_map('bl_graph_onebyones') = true; support_map('bl_display_graph_stats') = false; % Generate Arrays of Parameter Values to Loop Over it_simu_vec_len = 50; param_tstar_map = containers.Map('KeyType','char', 'ValueType','any'); param_tstar_map('fl_alpha') = linspace(0.30, 0.50, it_simu_vec_len); param_tstar_map('fl_delta') = linspace(0.02, 0.14, it_simu_vec_len);
Medium Grid Simulation
it_size_type = 2; % Simulate along parameters ff_az_test_analyze( ... ar_it_plot_sets, bl_simu_cross, it_size_type, cl_st_param_keys, ... param_map, support_map, param_tstar_map);
---------------------------------------- ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Begin: Show all key and value pairs from container CONTAINER NAME: SUPPORT_MAP ---------------------------------------- Map with properties: Count: 50 KeyType: char ValueType: any xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ---------------------------------------- ---------------------------------------- pos = 1 ; key = bl_display ; val = false pos = 2 ; key = bl_display_defparam ; val = false pos = 3 ; key = bl_display_dist ; val = false pos = 4 ; key = bl_display_evf ; val = false pos = 5 ; key = bl_display_final ; val = false pos = 6 ; key = bl_display_final_dist ; val = true pos = 7 ; key = bl_display_final_dist_detail ; val = false pos = 8 ; key = bl_display_funcgrids ; val = false pos = 9 ; key = bl_display_graph_stats ; val = false pos = 10 ; key = bl_display_simu_stats ; val = true pos = 11 ; key = bl_graph ; val = true pos = 12 ; key = bl_graph_coh_t_coh ; val = false pos = 13 ; key = bl_graph_evf ; val = false pos = 14 ; key = bl_graph_funcgrids ; val = false pos = 15 ; key = bl_graph_onebyones ; val = true pos = 16 ; key = bl_graph_pol_lvl ; val = false pos = 17 ; key = bl_graph_pol_pct ; val = false pos = 18 ; key = bl_graph_val ; val = false pos = 19 ; key = bl_img_save ; val = false pos = 20 ; key = bl_mat ; val = false pos = 21 ; key = bl_mat_test ; val = true pos = 22 ; key = bl_post ; val = true pos = 23 ; key = bl_profile ; val = false pos = 24 ; key = bl_profile_dist ; val = false pos = 25 ; key = bl_replacefile ; val = false pos = 26 ; key = bl_time ; val = false pos = 27 ; key = bl_timer ; val = true pos = 28 ; key = it_display_every ; val = 20 pos = 29 ; key = it_display_final_colmax ; val = 12 pos = 30 ; key = it_display_final_rowmax ; val = 100 pos = 31 ; key = it_display_summmat_colmax ; val = 7 pos = 32 ; key = it_display_summmat_rowmax ; val = 7 pos = 33 ; key = st_img_name_main ; val = _default pos = 34 ; key = st_img_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//solve/img/ pos = 35 ; key = st_img_prefix ; val = pos = 36 ; key = st_img_suffix ; val = _p9.png pos = 37 ; key = st_mat_name_main ; val = _default pos = 38 ; key = st_mat_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//solve/mat/ pos = 39 ; key = st_mat_prefix ; val = pos = 40 ; key = st_mat_suffix ; val = _p9 pos = 41 ; key = st_mat_test_name_main ; val = r pos = 42 ; key = st_mat_test_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//test/ff_iwkz_ds_vecsv/mat/ pos = 43 ; key = st_mat_test_prefix ; val = pos = 44 ; key = st_mat_test_suffix ; val = _g1718_cc_t2l100 pos = 45 ; key = st_matimg_path_root ; val = C:/Users/fan/CodeDynaAsset//m_akz/ pos = 46 ; key = st_profile_name_main ; val = _default pos = 47 ; key = st_profile_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//solve/profile/ pos = 48 ; key = st_profile_prefix ; val = pos = 49 ; key = st_profile_suffix ; val = _p9 pos = 50 ; key = st_title_prefix ; val = ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Scalars in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx value __ ___ _____ bl_display 1 1 0 bl_display_defparam 2 2 0 bl_display_dist 3 3 0 bl_display_evf 4 4 0 bl_display_final 5 5 0 bl_display_final_dist 6 6 1 bl_display_final_dist_detail 7 7 0 bl_display_funcgrids 8 8 0 bl_display_graph_stats 9 9 0 bl_display_simu_stats 10 10 1 bl_graph 11 11 1 bl_graph_coh_t_coh 12 12 0 bl_graph_evf 13 13 0 bl_graph_funcgrids 14 14 0 bl_graph_onebyones 15 15 1 bl_graph_pol_lvl 16 16 0 bl_graph_pol_pct 17 17 0 bl_graph_val 18 18 0 bl_img_save 19 19 0 bl_mat 20 20 0 bl_mat_test 21 21 1 bl_post 22 22 1 bl_profile 23 23 0 bl_profile_dist 24 24 0 bl_replacefile 25 25 0 bl_time 26 26 0 bl_timer 27 27 1 it_display_every 28 28 20 it_display_final_colmax 29 29 12 it_display_final_rowmax 30 30 100 it_display_summmat_colmax 31 31 7 it_display_summmat_rowmax 32 32 7 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Strings in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx __ ___ st_img_name_main 1 33 st_img_path 2 34 st_img_prefix 3 35 st_img_suffix 4 36 st_mat_name_main 5 37 st_mat_path 6 38 st_mat_prefix 7 39 st_mat_suffix 8 40 st_mat_test_name_main 9 41 st_mat_test_path 10 42 st_mat_test_prefix 11 43 st_mat_test_suffix 12 44 st_matimg_path_root 13 45 st_profile_name_main 14 46 st_profile_path 15 47 st_profile_prefix 16 48 st_profile_suffix 17 49 st_title_prefix 18 50 ---------------------------------------- ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Begin: Show all key and value pairs from container CONTAINER NAME: PARAM_MAP ---------------------------------------- Map with properties: Count: 42 KeyType: char ValueType: any xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ---------------------------------------- ---------------------------------------- pos = 1 ; key = ar_param_keys_idx ;rown= 1 ,coln= 2 ar_param_keys_idx :mu= 17.5 ,sd= 0.70711 ,min= 17 ,max= 18 zi_1_c1 zi_2_c2 _______ _______ zi_1_r1 17 18 pos = 2 ; key = bl_default ; val = 0 pos = 3 ; key = bl_loglin ; val = false pos = 4 ; key = cl_st_param_keys ; val = fl_alpha pos = 5 ; key = fl_Amean ; val = 1 pos = 6 ; key = fl_a_max ; val = 50 pos = 7 ; key = fl_a_min ; val = 0 pos = 8 ; key = fl_alpha ; val = 0.36 pos = 9 ; key = fl_b_bd ; val = 0 pos = 10 ; key = fl_beta ; val = 0.94 pos = 11 ; key = fl_c_min ; val = 0.001 pos = 12 ; key = fl_coh_interp_grid_gap ; val = 0.1 pos = 13 ; key = fl_crra ; val = 1.5 pos = 14 ; key = fl_default_aprime ; val = 0 pos = 15 ; key = fl_delta ; val = 0.08 pos = 16 ; key = fl_k_min ; val = 0 pos = 17 ; key = fl_loglin_threshold ; val = 1 pos = 18 ; key = fl_nan_replace ; val = -9999 pos = 19 ; key = fl_r_borr ; val = 0.025 pos = 20 ; key = fl_r_save ; val = 0.025 pos = 21 ; key = fl_tol_dist ; val = 1e-05 pos = 22 ; key = fl_tol_pol ; val = 1e-05 pos = 23 ; key = fl_tol_val ; val = 1e-05 pos = 24 ; key = fl_w ; val = 0.44365 pos = 25 ; key = fl_w_max ; val = 50 pos = 26 ; key = fl_z_mu ; val = 0 pos = 27 ; key = fl_z_rho ; val = 0.8 pos = 28 ; key = fl_z_sig ; val = 0.2 pos = 29 ; key = it_a_n ; val = 750 pos = 30 ; key = it_ak_n ; val = 50 pos = 31 ; key = it_c_interp_grid_gap ; val = 0.0001 pos = 32 ; key = it_maxiter_dist ; val = 1000 pos = 33 ; key = it_maxiter_val ; val = 250 pos = 34 ; key = it_size_type ; val = 2 pos = 35 ; key = it_st_simu_type_g_seed ; val = 123 pos = 36 ; key = it_st_simu_type_g_simun ; val = 20 pos = 37 ; key = it_tol_pol_nochange ; val = 25 pos = 38 ; key = it_trans_power_dist ; val = 1000 pos = 39 ; key = it_w_n ; val = 50 pos = 40 ; key = it_z_n ; val = 15 pos = 41 ; key = st_analytical_stationary_type ; val = eigenvector pos = 42 ; key = st_model ; val = akz_wkz_iwkz ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Matrix in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx rowN colN mean std min max _ ___ ____ ____ ____ _______ ___ ___ ar_param_keys_idx 1 1 1 2 17.5 0.70711 17 18 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Scalars in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx value __ ___ _______ bl_default 1 2 0 bl_loglin 2 3 0 fl_Amean 3 5 1 fl_a_max 4 6 50 fl_a_min 5 7 0 fl_alpha 6 8 0.36 fl_b_bd 7 9 0 fl_beta 8 10 0.94 fl_c_min 9 11 0.001 fl_coh_interp_grid_gap 10 12 0.1 fl_crra 11 13 1.5 fl_default_aprime 12 14 0 fl_delta 13 15 0.08 fl_k_min 14 16 0 fl_loglin_threshold 15 17 1 fl_nan_replace 16 18 -9999 fl_r_borr 17 19 0.025 fl_r_save 18 20 0.025 fl_tol_dist 19 21 1e-05 fl_tol_pol 20 22 1e-05 fl_tol_val 21 23 1e-05 fl_w 22 24 0.44365 fl_w_max 23 25 50 fl_z_mu 24 26 0 fl_z_rho 25 27 0.8 fl_z_sig 26 28 0.2 it_a_n 27 29 750 it_ak_n 28 30 50 it_c_interp_grid_gap 29 31 0.0001 it_maxiter_dist 30 32 1000 it_maxiter_val 31 33 250 it_size_type 32 34 2 it_st_simu_type_g_seed 33 35 123 it_st_simu_type_g_simun 34 36 20 it_tol_pol_nochange 35 37 25 it_trans_power_dist 36 38 1000 it_w_n 37 39 50 it_z_n 38 40 15 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Strings in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx _ ___ cl_st_param_keys 1 4 st_analytical_stationary_type 2 41 st_model 3 42 ---------------------------------------- ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Begin: Show all key and value pairs from container CONTAINER NAME: PARAM_TSTAR_MAP ---------------------------------------- Map with properties: Count: 18 KeyType: char ValueType: any xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ---------------------------------------- ---------------------------------------- pos = 1 ; key = fl_a_max ;rown= 1 ,coln= 5 fl_a_max :mu= 65 ,sd= 11.8585 ,min= 50 ,max= 80 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 50 57.5 65 72.5 80 pos = 2 ; key = fl_alpha ;rown= 1 ,coln= 50 fl_alpha :mu= 0.4 ,sd= 0.0595 ,min= 0.3 ,max= 0.5 zi_1_C1 zi_2_C2 zi_3_C3 zi_25_c25 zi_48_c48 zi_49_c49 zi_50_c50 _______ _______ _______ _________ _________ _________ _________ zi_1_r1 0.3 0.30408 0.30816 0.39796 0.49184 0.49592 0.5 pos = 3 ; key = fl_b_bd ;rown= 1 ,coln= 5 fl_b_bd :mu= -12.5 ,sd= 5.9293 ,min= -20 ,max= -5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 -20 -16.25 -12.5 -8.75 -5 pos = 4 ; key = fl_beta ;rown= 1 ,coln= 5 fl_beta :mu= 0.92 ,sd= 0.039528 ,min= 0.87 ,max= 0.97 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.87 0.895 0.92 0.945 0.97 pos = 5 ; key = fl_c_min ;rown= 1 ,coln= 5 fl_c_min :mu= 0.0155 ,sd= 0.011463 ,min= 0.001 ,max= 0.03 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.03 0.02275 0.0155 0.00825 0.001 pos = 6 ; key = fl_crra ;rown= 1 ,coln= 5 fl_crra :mu= 3 ,sd= 1.5811 ,min= 1 ,max= 5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 1 2 3 4 5 pos = 7 ; key = fl_delta ;rown= 1 ,coln= 50 fl_delta :mu= 0.08 ,sd= 0.0357 ,min= 0.02 ,max= 0.14 zi_1_C1 zi_2_C2 zi_3_C3 zi_25_c25 zi_48_c48 zi_49_c49 zi_50_c50 _______ ________ ________ _________ _________ _________ _________ zi_1_r1 0.02 0.022449 0.024898 0.078776 0.1351 0.13755 0.14 pos = 8 ; key = fl_r_save ;rown= 1 ,coln= 5 fl_r_save :mu= 0.025 ,sd= 0.011859 ,min= 0.01 ,max= 0.04 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.01 0.0175 0.025 0.0325 0.04 pos = 9 ; key = fl_w ;rown= 1 ,coln= 5 fl_w :mu= 1.25 ,sd= 0.11859 ,min= 1.1 ,max= 1.4 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 1.1 1.175 1.25 1.325 1.4 pos = 10 ; key = fl_z_r_borr_max ;rown= 1 ,coln= 5 fl_z_r_borr_max :mu= 0.1225 ,sd= 0.021741 ,min= 0.095 ,max= 0.15 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.095 0.10875 0.1225 0.13625 0.15 pos = 11 ; key = fl_z_r_borr_n ;rown= 1 ,coln= 6 fl_z_r_borr_n :mu= 15 ,sd= 7.4833 ,min= 5 ,max= 25 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 zi_6_c6 _______ _______ _______ _______ _______ _______ zi_1_r1 5 9 13 17 21 25 pos = 12 ; key = fl_z_r_borr_poiss_mean ;rown= 1 ,coln= 5 fl_z_r_borr_poiss_mean :mu= 12.5 ,sd= 5.9293 ,min= 5 ,max= 20 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 5 8.75 12.5 16.25 20 pos = 13 ; key = fl_z_rho ;rown= 1 ,coln= 5 fl_z_rho :mu= 0.495 ,sd= 0.39133 ,min= 0 ,max= 0.99 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0 0.2475 0.495 0.7425 0.99 pos = 14 ; key = fl_z_sig ;rown= 1 ,coln= 5 fl_z_sig :mu= 0.255 ,sd= 0.19369 ,min= 0.01 ,max= 0.5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.01 0.1325 0.255 0.3775 0.5 pos = 15 ; key = fl_z_wage_rho ;rown= 1 ,coln= 5 fl_z_wage_rho :mu= 0.495 ,sd= 0.39133 ,min= 0 ,max= 0.99 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0 0.2475 0.495 0.7425 0.99 pos = 16 ; key = fl_z_wage_sig ;rown= 1 ,coln= 5 fl_z_wage_sig :mu= 0.255 ,sd= 0.19369 ,min= 0.01 ,max= 0.5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.01 0.1325 0.255 0.3775 0.5 pos = 17 ; key = it_a_n ;rown= 1 ,coln= 5 it_a_n :mu= 1300 ,sd= 948.6833 ,min= 100 ,max= 2500 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 100 700 1300 1900 2500 pos = 18 ; key = it_z_n ;rown= 1 ,coln= 5 it_z_n :mu= 15 ,sd= 7.9057 ,min= 5 ,max= 25 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 5 10 15 20 25 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Matrix in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx rowN colN mean std min max __ ___ ____ ____ ______ ________ _____ ____ fl_a_max 1 1 1 5 65 11.859 50 80 fl_alpha 2 2 1 50 0.4 0.0595 0.3 0.5 fl_b_bd 3 3 1 5 -12.5 5.9293 -20 -5 fl_beta 4 4 1 5 0.92 0.039528 0.87 0.97 fl_c_min 5 5 1 5 0.0155 0.011463 0.001 0.03 fl_crra 6 6 1 5 3 1.5811 1 5 fl_delta 7 7 1 50 0.08 0.0357 0.02 0.14 fl_r_save 8 8 1 5 0.025 0.011859 0.01 0.04 fl_w 9 9 1 5 1.25 0.11859 1.1 1.4 fl_z_r_borr_max 10 10 1 5 0.1225 0.021741 0.095 0.15 fl_z_r_borr_n 11 11 1 6 15 7.4833 5 25 fl_z_r_borr_poiss_mean 12 12 1 5 12.5 5.9293 5 20 fl_z_rho 13 13 1 5 0.495 0.39133 0 0.99 fl_z_sig 14 14 1 5 0.255 0.19369 0.01 0.5 fl_z_wage_rho 15 15 1 5 0.495 0.39133 0 0.99 fl_z_wage_sig 16 16 1 5 0.255 0.19369 0.01 0.5 it_a_n 17 17 1 5 1300 948.68 100 2500 it_z_n 18 18 1 5 15 7.9057 5 25
Larger Grid Simulation
it_size_type = 3; % Simulate along parameters ff_az_test_analyze( ... ar_it_plot_sets, bl_simu_cross, it_size_type, cl_st_param_keys, ... param_map, support_map, param_tstar_map);
---------------------------------------- ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Begin: Show all key and value pairs from container CONTAINER NAME: SUPPORT_MAP ---------------------------------------- Map with properties: Count: 50 KeyType: char ValueType: any xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ---------------------------------------- ---------------------------------------- pos = 1 ; key = bl_display ; val = false pos = 2 ; key = bl_display_defparam ; val = false pos = 3 ; key = bl_display_dist ; val = false pos = 4 ; key = bl_display_evf ; val = false pos = 5 ; key = bl_display_final ; val = false pos = 6 ; key = bl_display_final_dist ; val = true pos = 7 ; key = bl_display_final_dist_detail ; val = false pos = 8 ; key = bl_display_funcgrids ; val = false pos = 9 ; key = bl_display_graph_stats ; val = false pos = 10 ; key = bl_display_simu_stats ; val = true pos = 11 ; key = bl_graph ; val = true pos = 12 ; key = bl_graph_coh_t_coh ; val = false pos = 13 ; key = bl_graph_evf ; val = false pos = 14 ; key = bl_graph_funcgrids ; val = false pos = 15 ; key = bl_graph_onebyones ; val = true pos = 16 ; key = bl_graph_pol_lvl ; val = false pos = 17 ; key = bl_graph_pol_pct ; val = false pos = 18 ; key = bl_graph_val ; val = false pos = 19 ; key = bl_img_save ; val = false pos = 20 ; key = bl_mat ; val = false pos = 21 ; key = bl_mat_test ; val = true pos = 22 ; key = bl_post ; val = true pos = 23 ; key = bl_profile ; val = false pos = 24 ; key = bl_profile_dist ; val = false pos = 25 ; key = bl_replacefile ; val = false pos = 26 ; key = bl_time ; val = false pos = 27 ; key = bl_timer ; val = true pos = 28 ; key = it_display_every ; val = 20 pos = 29 ; key = it_display_final_colmax ; val = 12 pos = 30 ; key = it_display_final_rowmax ; val = 100 pos = 31 ; key = it_display_summmat_colmax ; val = 7 pos = 32 ; key = it_display_summmat_rowmax ; val = 7 pos = 33 ; key = st_img_name_main ; val = _default pos = 34 ; key = st_img_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//solve/img/ pos = 35 ; key = st_img_prefix ; val = pos = 36 ; key = st_img_suffix ; val = _p9.png pos = 37 ; key = st_mat_name_main ; val = _default pos = 38 ; key = st_mat_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//solve/mat/ pos = 39 ; key = st_mat_prefix ; val = pos = 40 ; key = st_mat_suffix ; val = _p9 pos = 41 ; key = st_mat_test_name_main ; val = r pos = 42 ; key = st_mat_test_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//test/ff_iwkz_ds_vecsv/mat/ pos = 43 ; key = st_mat_test_prefix ; val = pos = 44 ; key = st_mat_test_suffix ; val = _g1718_cc_t3l100 pos = 45 ; key = st_matimg_path_root ; val = C:/Users/fan/CodeDynaAsset//m_akz/ pos = 46 ; key = st_profile_name_main ; val = _default pos = 47 ; key = st_profile_path ; val = C:/Users/fan/CodeDynaAsset//m_akz//solve/profile/ pos = 48 ; key = st_profile_prefix ; val = pos = 49 ; key = st_profile_suffix ; val = _p9 pos = 50 ; key = st_title_prefix ; val = ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Scalars in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx value __ ___ _____ bl_display 1 1 0 bl_display_defparam 2 2 0 bl_display_dist 3 3 0 bl_display_evf 4 4 0 bl_display_final 5 5 0 bl_display_final_dist 6 6 1 bl_display_final_dist_detail 7 7 0 bl_display_funcgrids 8 8 0 bl_display_graph_stats 9 9 0 bl_display_simu_stats 10 10 1 bl_graph 11 11 1 bl_graph_coh_t_coh 12 12 0 bl_graph_evf 13 13 0 bl_graph_funcgrids 14 14 0 bl_graph_onebyones 15 15 1 bl_graph_pol_lvl 16 16 0 bl_graph_pol_pct 17 17 0 bl_graph_val 18 18 0 bl_img_save 19 19 0 bl_mat 20 20 0 bl_mat_test 21 21 1 bl_post 22 22 1 bl_profile 23 23 0 bl_profile_dist 24 24 0 bl_replacefile 25 25 0 bl_time 26 26 0 bl_timer 27 27 1 it_display_every 28 28 20 it_display_final_colmax 29 29 12 it_display_final_rowmax 30 30 100 it_display_summmat_colmax 31 31 7 it_display_summmat_rowmax 32 32 7 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Strings in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx __ ___ st_img_name_main 1 33 st_img_path 2 34 st_img_prefix 3 35 st_img_suffix 4 36 st_mat_name_main 5 37 st_mat_path 6 38 st_mat_prefix 7 39 st_mat_suffix 8 40 st_mat_test_name_main 9 41 st_mat_test_path 10 42 st_mat_test_prefix 11 43 st_mat_test_suffix 12 44 st_matimg_path_root 13 45 st_profile_name_main 14 46 st_profile_path 15 47 st_profile_prefix 16 48 st_profile_suffix 17 49 st_title_prefix 18 50 ---------------------------------------- ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Begin: Show all key and value pairs from container CONTAINER NAME: PARAM_MAP ---------------------------------------- Map with properties: Count: 42 KeyType: char ValueType: any xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ---------------------------------------- ---------------------------------------- pos = 1 ; key = ar_param_keys_idx ;rown= 1 ,coln= 2 ar_param_keys_idx :mu= 17.5 ,sd= 0.70711 ,min= 17 ,max= 18 zi_1_c1 zi_2_c2 _______ _______ zi_1_r1 17 18 pos = 2 ; key = bl_default ; val = 0 pos = 3 ; key = bl_loglin ; val = false pos = 4 ; key = cl_st_param_keys ; val = fl_alpha pos = 5 ; key = fl_Amean ; val = 1 pos = 6 ; key = fl_a_max ; val = 50 pos = 7 ; key = fl_a_min ; val = 0 pos = 8 ; key = fl_alpha ; val = 0.36 pos = 9 ; key = fl_b_bd ; val = 0 pos = 10 ; key = fl_beta ; val = 0.94 pos = 11 ; key = fl_c_min ; val = 0.001 pos = 12 ; key = fl_coh_interp_grid_gap ; val = 0.025 pos = 13 ; key = fl_crra ; val = 1.5 pos = 14 ; key = fl_default_aprime ; val = 0 pos = 15 ; key = fl_delta ; val = 0.08 pos = 16 ; key = fl_k_min ; val = 0 pos = 17 ; key = fl_loglin_threshold ; val = 1 pos = 18 ; key = fl_nan_replace ; val = -9999 pos = 19 ; key = fl_r_borr ; val = 0.025 pos = 20 ; key = fl_r_save ; val = 0.025 pos = 21 ; key = fl_tol_dist ; val = 1e-05 pos = 22 ; key = fl_tol_pol ; val = 1e-05 pos = 23 ; key = fl_tol_val ; val = 1e-05 pos = 24 ; key = fl_w ; val = 0.44365 pos = 25 ; key = fl_w_max ; val = 50 pos = 26 ; key = fl_z_mu ; val = 0 pos = 27 ; key = fl_z_rho ; val = 0.8 pos = 28 ; key = fl_z_sig ; val = 0.2 pos = 29 ; key = it_a_n ; val = 750 pos = 30 ; key = it_ak_n ; val = 150 pos = 31 ; key = it_c_interp_grid_gap ; val = 0.0001 pos = 32 ; key = it_maxiter_dist ; val = 1000 pos = 33 ; key = it_maxiter_val ; val = 250 pos = 34 ; key = it_size_type ; val = 3 pos = 35 ; key = it_st_simu_type_g_seed ; val = 123 pos = 36 ; key = it_st_simu_type_g_simun ; val = 20 pos = 37 ; key = it_tol_pol_nochange ; val = 25 pos = 38 ; key = it_trans_power_dist ; val = 1000 pos = 39 ; key = it_w_n ; val = 150 pos = 40 ; key = it_z_n ; val = 21 pos = 41 ; key = st_analytical_stationary_type ; val = eigenvector pos = 42 ; key = st_model ; val = akz_wkz_iwkz ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Matrix in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx rowN colN mean std min max _ ___ ____ ____ ____ _______ ___ ___ ar_param_keys_idx 1 1 1 2 17.5 0.70711 17 18 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Scalars in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx value __ ___ _______ bl_default 1 2 0 bl_loglin 2 3 0 fl_Amean 3 5 1 fl_a_max 4 6 50 fl_a_min 5 7 0 fl_alpha 6 8 0.36 fl_b_bd 7 9 0 fl_beta 8 10 0.94 fl_c_min 9 11 0.001 fl_coh_interp_grid_gap 10 12 0.025 fl_crra 11 13 1.5 fl_default_aprime 12 14 0 fl_delta 13 15 0.08 fl_k_min 14 16 0 fl_loglin_threshold 15 17 1 fl_nan_replace 16 18 -9999 fl_r_borr 17 19 0.025 fl_r_save 18 20 0.025 fl_tol_dist 19 21 1e-05 fl_tol_pol 20 22 1e-05 fl_tol_val 21 23 1e-05 fl_w 22 24 0.44365 fl_w_max 23 25 50 fl_z_mu 24 26 0 fl_z_rho 25 27 0.8 fl_z_sig 26 28 0.2 it_a_n 27 29 750 it_ak_n 28 30 150 it_c_interp_grid_gap 29 31 0.0001 it_maxiter_dist 30 32 1000 it_maxiter_val 31 33 250 it_size_type 32 34 3 it_st_simu_type_g_seed 33 35 123 it_st_simu_type_g_simun 34 36 20 it_tol_pol_nochange 35 37 25 it_trans_power_dist 36 38 1000 it_w_n 37 39 150 it_z_n 38 40 21 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Strings in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx _ ___ cl_st_param_keys 1 4 st_analytical_stationary_type 2 41 st_model 3 42 ---------------------------------------- ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Begin: Show all key and value pairs from container CONTAINER NAME: PARAM_TSTAR_MAP ---------------------------------------- Map with properties: Count: 18 KeyType: char ValueType: any xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ---------------------------------------- ---------------------------------------- pos = 1 ; key = fl_a_max ;rown= 1 ,coln= 5 fl_a_max :mu= 65 ,sd= 11.8585 ,min= 50 ,max= 80 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 50 57.5 65 72.5 80 pos = 2 ; key = fl_alpha ;rown= 1 ,coln= 50 fl_alpha :mu= 0.4 ,sd= 0.0595 ,min= 0.3 ,max= 0.5 zi_1_C1 zi_2_C2 zi_3_C3 zi_25_c25 zi_48_c48 zi_49_c49 zi_50_c50 _______ _______ _______ _________ _________ _________ _________ zi_1_r1 0.3 0.30408 0.30816 0.39796 0.49184 0.49592 0.5 pos = 3 ; key = fl_b_bd ;rown= 1 ,coln= 5 fl_b_bd :mu= -12.5 ,sd= 5.9293 ,min= -20 ,max= -5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 -20 -16.25 -12.5 -8.75 -5 pos = 4 ; key = fl_beta ;rown= 1 ,coln= 5 fl_beta :mu= 0.92 ,sd= 0.039528 ,min= 0.87 ,max= 0.97 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.87 0.895 0.92 0.945 0.97 pos = 5 ; key = fl_c_min ;rown= 1 ,coln= 5 fl_c_min :mu= 0.0155 ,sd= 0.011463 ,min= 0.001 ,max= 0.03 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.03 0.02275 0.0155 0.00825 0.001 pos = 6 ; key = fl_crra ;rown= 1 ,coln= 5 fl_crra :mu= 3 ,sd= 1.5811 ,min= 1 ,max= 5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 1 2 3 4 5 pos = 7 ; key = fl_delta ;rown= 1 ,coln= 50 fl_delta :mu= 0.08 ,sd= 0.0357 ,min= 0.02 ,max= 0.14 zi_1_C1 zi_2_C2 zi_3_C3 zi_25_c25 zi_48_c48 zi_49_c49 zi_50_c50 _______ ________ ________ _________ _________ _________ _________ zi_1_r1 0.02 0.022449 0.024898 0.078776 0.1351 0.13755 0.14 pos = 8 ; key = fl_r_save ;rown= 1 ,coln= 5 fl_r_save :mu= 0.025 ,sd= 0.011859 ,min= 0.01 ,max= 0.04 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.01 0.0175 0.025 0.0325 0.04 pos = 9 ; key = fl_w ;rown= 1 ,coln= 5 fl_w :mu= 1.25 ,sd= 0.11859 ,min= 1.1 ,max= 1.4 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 1.1 1.175 1.25 1.325 1.4 pos = 10 ; key = fl_z_r_borr_max ;rown= 1 ,coln= 5 fl_z_r_borr_max :mu= 0.1225 ,sd= 0.021741 ,min= 0.095 ,max= 0.15 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.095 0.10875 0.1225 0.13625 0.15 pos = 11 ; key = fl_z_r_borr_n ;rown= 1 ,coln= 6 fl_z_r_borr_n :mu= 15 ,sd= 7.4833 ,min= 5 ,max= 25 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 zi_6_c6 _______ _______ _______ _______ _______ _______ zi_1_r1 5 9 13 17 21 25 pos = 12 ; key = fl_z_r_borr_poiss_mean ;rown= 1 ,coln= 5 fl_z_r_borr_poiss_mean :mu= 12.5 ,sd= 5.9293 ,min= 5 ,max= 20 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 5 8.75 12.5 16.25 20 pos = 13 ; key = fl_z_rho ;rown= 1 ,coln= 5 fl_z_rho :mu= 0.495 ,sd= 0.39133 ,min= 0 ,max= 0.99 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0 0.2475 0.495 0.7425 0.99 pos = 14 ; key = fl_z_sig ;rown= 1 ,coln= 5 fl_z_sig :mu= 0.255 ,sd= 0.19369 ,min= 0.01 ,max= 0.5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.01 0.1325 0.255 0.3775 0.5 pos = 15 ; key = fl_z_wage_rho ;rown= 1 ,coln= 5 fl_z_wage_rho :mu= 0.495 ,sd= 0.39133 ,min= 0 ,max= 0.99 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0 0.2475 0.495 0.7425 0.99 pos = 16 ; key = fl_z_wage_sig ;rown= 1 ,coln= 5 fl_z_wage_sig :mu= 0.255 ,sd= 0.19369 ,min= 0.01 ,max= 0.5 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 0.01 0.1325 0.255 0.3775 0.5 pos = 17 ; key = it_a_n ;rown= 1 ,coln= 5 it_a_n :mu= 1300 ,sd= 948.6833 ,min= 100 ,max= 2500 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 100 700 1300 1900 2500 pos = 18 ; key = it_z_n ;rown= 1 ,coln= 5 it_z_n :mu= 15 ,sd= 7.9057 ,min= 5 ,max= 25 zi_1_c1 zi_2_c2 zi_3_c3 zi_4_c4 zi_5_c5 _______ _______ _______ _______ _______ zi_1_r1 5 10 15 20 25 ---------------------------------------- xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx Matrix in Container and Sizes and Basic Statistics xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx i idx rowN colN mean std min max __ ___ ____ ____ ______ ________ _____ ____ fl_a_max 1 1 1 5 65 11.859 50 80 fl_alpha 2 2 1 50 0.4 0.0595 0.3 0.5 fl_b_bd 3 3 1 5 -12.5 5.9293 -20 -5 fl_beta 4 4 1 5 0.92 0.039528 0.87 0.97 fl_c_min 5 5 1 5 0.0155 0.011463 0.001 0.03 fl_crra 6 6 1 5 3 1.5811 1 5 fl_delta 7 7 1 50 0.08 0.0357 0.02 0.14 fl_r_save 8 8 1 5 0.025 0.011859 0.01 0.04 fl_w 9 9 1 5 1.25 0.11859 1.1 1.4 fl_z_r_borr_max 10 10 1 5 0.1225 0.021741 0.095 0.15 fl_z_r_borr_n 11 11 1 6 15 7.4833 5 25 fl_z_r_borr_poiss_mean 12 12 1 5 12.5 5.9293 5 20 fl_z_rho 13 13 1 5 0.495 0.39133 0 0.99 fl_z_sig 14 14 1 5 0.255 0.19369 0.01 0.5 fl_z_wage_rho 15 15 1 5 0.495 0.39133 0 0.99 fl_z_wage_sig 16 16 1 5 0.255 0.19369 0.01 0.5 it_a_n 17 17 1 5 1300 948.68 100 2500 it_z_n 18 18 1 5 15 7.9057 5 25