test/old_tests/update_input_file/params_log_old.yaml.v3.yaml

version: 3

#################################################
#            computational domian               #
#################################################
domain:
  min_max_dep: [-10, 10]  # depth in km
  min_max_lat: [37.7, 42.3]  # latitude in degree
  min_max_lon: [22.7, 27.3]  # longitude in degree
  n_rtp: [10, 50, 50]  # number of nodes in depth,latitude,longitude direction

source:
  src_rec_file: OUTPUT_FILES/src_rec_file_forward.dat  # source receiver file path
  swap_src_rec: 1  # swap source and receiver (1: yes, 0: no)

model:
  init_model_path: ./test_model_init.h5  # path to initial model file 
#   model_1d_name: dummy_model_1d_name # 1D model name used in teleseismic 2D solver (iasp91, ak135, user_defined is available), defined in include/1d_model.h

parallel: # parameters for parallel computation
  n_sims: 1  # number of simultanoues runs
  ndiv_rtp: [1, 2, 2]  # number of subdivision on each direction
  nproc_sub: 2  # number of processors for sweep parallelization
  use_gpu: false # 1 if use gpu (EXPERIMENTAL)

output_setting:
  output_dir: ./OUTPUT_FILES/ # path to output director (default is ./OUTPUT_FILES/)
  output_source_field: false # output the calculated field of all sources                            1 for yes; 0 for no;  default: 1
  output_model_dat: false # output model_parameters_inv_0000.dat or not.                          1 for yes; 0 for no;  default: 1
  output_final_model: true # output merged final model or not.                                     1 for yes; 0 for no;  default: 1
  output_in_process: true # output model at each inv iteration or not.                            1 for yes; 0 for no;  default: 1
  single_precision_output: false # output results in single precision or not.                            1 for yes; 0 for no;  default: 0
  verbose_output_level: 0 # output internal parameters, if 0, only model parameters are out. Higher level, more internal parameters are output. default: 0
  output_file_format: 0

#################################################
#          inversion or forward modeling        #
#################################################
# run mode
# 0 for forward simulation only,
# 1 for inversion
# 2 for earthquake relocation
# 3 for inversion+earthquake relocation
run_mode: 1


###################################################
#          model update parameters setting        #
###################################################
model_update: # update model parameters (when run_mode : 1 and 3)
  max_iterations: 3 # maximum number of inversion iterations
  optim_method: 1 # optimization method. 0 : grad_descent, 1 : halve-stepping, 2 : lbfgs (EXPERIMENTAL)

  # common parameters for all optim methods
  step_length: 0.01 # step length of model perturbation at each iteration. 0.01 means maximum 1% perturbation for each iteration.

  # parameters for optim_method 0 (grad_descent)
  optim_method_0:
    step_length_decay: 0.9 # if objective function increase, step size -> step length * step_length_decay. default: 0.9
    step_length_sc: 0.001 # ... # use it also ?

  # parameters for optim_method 1 (halve-stepping) or 2 (lbfgs)
  optim_method_1_2:
    max_sub_iterations: 10 # maximum number of each sub-iteration
    regularization_weight: 100 # weight value for regularization (lbfgs mode only)

  # smoothing
  smoothing:
    smooth_method: 0 # 0: multiparametrization, 1: laplacian smoothing (EXPERIMENTAL)
    l_smooth_rtp: [1, 1, 1] # smoothing coefficients for laplacian smoothing

  # parameters for smooth method 0 (multigrid model parametrization)
  n_inversion_grid: 5 # number of inversion grid sets

  # inversion grid type
  type_invgrid_dep: 1 # 0: uniform inversion grid, 1: flexible grid
  type_invgrid_lat: 0 # 0: uniform inversion grid, 1: flexible grid
  type_invgrid_lon: 0 # 0: uniform inversion grid, 1: flexible grid

  # settings for uniform inversion grid (if type_*_inv : 0)
  n_inv_dep_lat_lon: [5, 10, 10] # number of the base inversion grid points (ignored if type_*_inv : 1)
  min_max_dep_inv: [-10, 10] # depth in km (Radius of the earth is defined in config.h/R_earth) (ignored if type_dep_inv : 1)
  min_max_lat_inv: [37.7, 42.3] # latitude in degree
  min_max_lon_inv: [22.7, 27.3] # longitude in degree

  # settings for flexible inversion grid (if type_*_inv : 1)
  dep_inv: [-10.0, -7.5, -5.0, -2.5, 0.0, 2.5, 5.0, 7.5, 10.0] # depth in km (Radius of the earth is defined in config.h/R_earth)
  lat_inv: [0.0, 1.0] # latitude in degree (ignored if type_lat_inv : 0)
  lon_inv: [0.0, 1.0] # longitude in degree (ignored if type_lon_inv : 0)

  # path to station correction file
  sta_correction_file: dummy_sta_correction_file # station correction file path

  # -------------- using absolute traveltime data --------------
  abs_time:
    use_abs_time: true # 'true' for using absolute traveltime data to update model parameters; 'false' for not using (no need to set parameters in this section)
    residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual. wt = residual_weight[2] for res < residual_weight[0]. wt = residual_weight[3] for res > residual_weight[1], and linear weight in between.
    distance_weight: [50.0, 150.0, 1.0, 0.1] # weight of epicenter distance. wt = distance_weight[2] for dis < distance_weight[0]. wt = distance_weight[3] for dis > distance_weight[1], and linear weight in between.

  # -------------- using common source differential traveltime data --------------
  cs_dif_time:
    use_cs_time: true # 'true' for using common source differential traveltime data to update model parameters; 'false' for not using (no need to set parameters in this section)
    residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual.
    azimuthal_weight: [15.0, 30.0, 1.0, 0.1] # weight of azimuth between two stations.

  # -------------- using common receiver differential traveltime data --------------
  cr_dif_time:
    use_cr_time: true # 'true' for using common receiver differential traveltime data to update model parameters; 'false' for not using (no need to set parameters in this section)
    residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual.
    azimuthal_weight: [15.0, 30.0, 1.0, 0.1] # weight of azimuth between two earthquakes.

  # -------------- global weight of different types of data (to balance the weight of different data) --------------
  global_weight:
    balance_data_weight: true # yes: over the total weight of the each type of the data. the obj of different data means the average data misfit; no: use original weight (below weight for each type of data needs to be set)
    abs_time_weight: 1.0 # weight of absolute traveltime data,                       default: 1.0
    cs_dif_time_local_weight: 1.0 # weight of common source differential traveltime data,     default: 1.0
    cr_dif_time_local_weight: 1.0 # weight of common receiver differential traveltime data,   default: 1.0
    teleseismic_weight: 1.0 # weight of teleseismic data,                               default: 1.0  (exclude in this version)

  # -------------- inversion parameters (exclude in this version) --------------
  update_slowness: true   # update slowness (velocity) or not.              default: true
  update_azi_ani: false   # update azimuthal anisotropy (xi, eta) or not.   default: false
  update_rad_ani: false   # update radial anisotropy (in future) or not.    default: false

  # -------------- for teleseismic inversion (exclude in this version) --------------
  depth_taper: [-200.0, -100.0]   # kernel weight : depth.  -->  0: -inf ~ taper[0]; 0 ~ 1 : taper[0] ~ taper[1]; 1 : taper[1] ~ inf

#################################################
#          relocation parameters setting        #
#################################################
relocation: # update earthquake hypocenter and origin time (when run_mode : 1)

  # relocation_strategy
  step_length: 0.01   # step length of relocation perturbation at each iteration. 0.01 means maximum 1% perturbation for each iteration.
  step_length_decay: 0.9    # if objective function increase, step size -> step length * step_length_decay. default: 0.9
  rescaling_dep_lat_lon_ortime: [10.0, 10.0, 10.0, 1.0]    # The perturbation is related to <rescaling_dep_lat_lon_ortime>. Unit: km,km,km,second
  max_change_dep_lat_lon_ortime: [5.0, 5.0, 5.0, 0.5]      # the change of dep,lat,lon,ortime do not exceed max_change. Unit: km,km,km,second
  max_iterations: 100   # maximum number of iterations for relocation

  # more option for using different types of data is under development (following)
  # -------------- using absolute traveltime data --------------
  abs_time:
    use_abs_time: yes   # 'yes' for using absolute traveltime data to update model parameters; 'no' for not using (no need to set parameters in this section)
    residual_weight: [1.0, 3.0, 1.0, 0.1]          # weight (wt) of residual. wt = residual_weight[2] for res < residual_weight[0]. wt = residual_weight[3] for res > residual_weight[1], and linear weight in between.
    distance_weight: [50.0, 150.0, 1.0, 0.1]       # weight of epicenter distance. wt = distance_weight[2] for dis < distance_weight[0]. wt = distance_weight[3] for dis > distance_weight[1], and linear weight in between.

  # -------------- using common receiver differential traveltime data --------------
  cr_dif_time:
    use_cr_time: true  # 'yes' for using common receiver differential traveltime data to update model parameters; 'no' for not using (no need to set parameters in this section)
    residual_weight: [1.0, 3.0, 1.0, 0.1]          # weight (wt) of residual.
    distance_weight: [10.0, 30.0, 1.0, 0.1]        # weight of distance (km) between two earthquakes.


####################################################################
#          inversion strategy for tomography and relocation        #
####################################################################
inversion_strategy: # update model parameters and earthquake hypocenter iteratively (when run_mode : 3)

  inv_mode: 0     # 0 for update model parameters and relocation iteratively. (other options for future work)

  # for inv_mode : 0, parameters below are required
  inv_mode_0: # Fristly, do relocation; Subsequently, do relocation every N steps; Finally, do relocation
    relocation_first: true   # yes: do relocation first; no: do not relocation first.  default: yes
    relocation_first_iterations: 10  # maximum number of iterations for relocation in the beginning. default: 10
    relocation_every_N_steps: 5      # subsequently, do relocation every N steps of updating model parameters. The iteration of relocation follows <max_iterations> in Section <relocation>
    relocation_final: true   # yes: do relocation finally; no: do not relocation finally.  default: yes
    relocation_final_iterations: 10  # maximum number of iterations for relocation in the beginning. default: 10


# --- parameters for core solver ---------------------------------------------------------
# --- please do not change the following parameters unless you know what you are doing ---

########################################################################
#            Scheme of Eikonal solver (fast sweeping method)           #
########################################################################
calculation:
  convergence_tolerance: 0.0001 # threshold value for checking the convergence for each forward/adjoint run
  max_iterations: 500 # number of maximum iteration for each forward/adjoint run
  stencil_order: 3 # order of stencil, 1 or 3
  stencil_type: 0 # 0: , 1: first-order upwind scheme (only sweep_type 0 is supported)
  sweep_type: 1 # 0: legacy, 1: cuthill-mckee with shm parallelization
initial upload 2025-12-17 10:53:43 +08:00			`version: 3`

			`#################################################`
			`# computational domian #`
			`#################################################`
			`domain:`
			`min_max_dep: [-10, 10] # depth in km`
			`min_max_lat: [37.7, 42.3] # latitude in degree`
			`min_max_lon: [22.7, 27.3] # longitude in degree`
			`n_rtp: [10, 50, 50] # number of nodes in depth,latitude,longitude direction`

			`source:`
			`src_rec_file: OUTPUT_FILES/src_rec_file_forward.dat # source receiver file path`
			`swap_src_rec: 1 # swap source and receiver (1: yes, 0: no)`

			`model:`
			`init_model_path: ./test_model_init.h5 # path to initial model file`
			`# model_1d_name: dummy_model_1d_name # 1D model name used in teleseismic 2D solver (iasp91, ak135, user_defined is available), defined in include/1d_model.h`

			`parallel: # parameters for parallel computation`
			`n_sims: 1 # number of simultanoues runs`
			`ndiv_rtp: [1, 2, 2] # number of subdivision on each direction`
			`nproc_sub: 2 # number of processors for sweep parallelization`
			`use_gpu: false # 1 if use gpu (EXPERIMENTAL)`

			`output_setting:`
			`output_dir: ./OUTPUT_FILES/ # path to output director (default is ./OUTPUT_FILES/)`
			`output_source_field: false # output the calculated field of all sources 1 for yes; 0 for no; default: 1`
			`output_model_dat: false # output model_parameters_inv_0000.dat or not. 1 for yes; 0 for no; default: 1`
			`output_final_model: true # output merged final model or not. 1 for yes; 0 for no; default: 1`
			`output_in_process: true # output model at each inv iteration or not. 1 for yes; 0 for no; default: 1`
			`single_precision_output: false # output results in single precision or not. 1 for yes; 0 for no; default: 0`
			`verbose_output_level: 0 # output internal parameters, if 0, only model parameters are out. Higher level, more internal parameters are output. default: 0`
			`output_file_format: 0`

			`#################################################`
			`# inversion or forward modeling #`
			`#################################################`
			`# run mode`
			`# 0 for forward simulation only,`
			`# 1 for inversion`
			`# 2 for earthquake relocation`
			`# 3 for inversion+earthquake relocation`
			`run_mode: 1`


			`###################################################`
			`# model update parameters setting #`
			`###################################################`
			`model_update: # update model parameters (when run_mode : 1 and 3)`
			`max_iterations: 3 # maximum number of inversion iterations`
			`optim_method: 1 # optimization method. 0 : grad_descent, 1 : halve-stepping, 2 : lbfgs (EXPERIMENTAL)`

			`# common parameters for all optim methods`
			`step_length: 0.01 # step length of model perturbation at each iteration. 0.01 means maximum 1% perturbation for each iteration.`

			`# parameters for optim_method 0 (grad_descent)`
			`optim_method_0:`
			`step_length_decay: 0.9 # if objective function increase, step size -> step length * step_length_decay. default: 0.9`
			`step_length_sc: 0.001 # ... # use it also ?`

			`# parameters for optim_method 1 (halve-stepping) or 2 (lbfgs)`
			`optim_method_1_2:`
			`max_sub_iterations: 10 # maximum number of each sub-iteration`
			`regularization_weight: 100 # weight value for regularization (lbfgs mode only)`

			`# smoothing`
			`smoothing:`
			`smooth_method: 0 # 0: multiparametrization, 1: laplacian smoothing (EXPERIMENTAL)`
			`l_smooth_rtp: [1, 1, 1] # smoothing coefficients for laplacian smoothing`

			`# parameters for smooth method 0 (multigrid model parametrization)`
			`n_inversion_grid: 5 # number of inversion grid sets`

			`# inversion grid type`
			`type_invgrid_dep: 1 # 0: uniform inversion grid, 1: flexible grid`
			`type_invgrid_lat: 0 # 0: uniform inversion grid, 1: flexible grid`
			`type_invgrid_lon: 0 # 0: uniform inversion grid, 1: flexible grid`

			`# settings for uniform inversion grid (if type_*_inv : 0)`
			`n_inv_dep_lat_lon: [5, 10, 10] # number of the base inversion grid points (ignored if type_*_inv : 1)`
			`min_max_dep_inv: [-10, 10] # depth in km (Radius of the earth is defined in config.h/R_earth) (ignored if type_dep_inv : 1)`
			`min_max_lat_inv: [37.7, 42.3] # latitude in degree`
			`min_max_lon_inv: [22.7, 27.3] # longitude in degree`

			`# settings for flexible inversion grid (if type_*_inv : 1)`
			`dep_inv: [-10.0, -7.5, -5.0, -2.5, 0.0, 2.5, 5.0, 7.5, 10.0] # depth in km (Radius of the earth is defined in config.h/R_earth)`
			`lat_inv: [0.0, 1.0] # latitude in degree (ignored if type_lat_inv : 0)`
			`lon_inv: [0.0, 1.0] # longitude in degree (ignored if type_lon_inv : 0)`

			`# path to station correction file`
			`sta_correction_file: dummy_sta_correction_file # station correction file path`

			`# -------------- using absolute traveltime data --------------`
			`abs_time:`
			`use_abs_time: true # 'true' for using absolute traveltime data to update model parameters; 'false' for not using (no need to set parameters in this section)`
			`residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual. wt = residual_weight[2] for res < residual_weight[0]. wt = residual_weight[3] for res > residual_weight[1], and linear weight in between.`
			`distance_weight: [50.0, 150.0, 1.0, 0.1] # weight of epicenter distance. wt = distance_weight[2] for dis < distance_weight[0]. wt = distance_weight[3] for dis > distance_weight[1], and linear weight in between.`

			`# -------------- using common source differential traveltime data --------------`
			`cs_dif_time:`
			`use_cs_time: true # 'true' for using common source differential traveltime data to update model parameters; 'false' for not using (no need to set parameters in this section)`
			`residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual.`
			`azimuthal_weight: [15.0, 30.0, 1.0, 0.1] # weight of azimuth between two stations.`

			`# -------------- using common receiver differential traveltime data --------------`
			`cr_dif_time:`
			`use_cr_time: true # 'true' for using common receiver differential traveltime data to update model parameters; 'false' for not using (no need to set parameters in this section)`
			`residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual.`
			`azimuthal_weight: [15.0, 30.0, 1.0, 0.1] # weight of azimuth between two earthquakes.`

			`# -------------- global weight of different types of data (to balance the weight of different data) --------------`
			`global_weight:`
			`balance_data_weight: true # yes: over the total weight of the each type of the data. the obj of different data means the average data misfit; no: use original weight (below weight for each type of data needs to be set)`
			`abs_time_weight: 1.0 # weight of absolute traveltime data, default: 1.0`
			`cs_dif_time_local_weight: 1.0 # weight of common source differential traveltime data, default: 1.0`
			`cr_dif_time_local_weight: 1.0 # weight of common receiver differential traveltime data, default: 1.0`
			`teleseismic_weight: 1.0 # weight of teleseismic data, default: 1.0 (exclude in this version)`

			`# -------------- inversion parameters (exclude in this version) --------------`
			`update_slowness: true # update slowness (velocity) or not. default: true`
			`update_azi_ani: false # update azimuthal anisotropy (xi, eta) or not. default: false`
			`update_rad_ani: false # update radial anisotropy (in future) or not. default: false`

			`# -------------- for teleseismic inversion (exclude in this version) --------------`
			`depth_taper: [-200.0, -100.0] # kernel weight : depth. --> 0: -inf ~ taper[0]; 0 ~ 1 : taper[0] ~ taper[1]; 1 : taper[1] ~ inf`

			`#################################################`
			`# relocation parameters setting #`
			`#################################################`
			`relocation: # update earthquake hypocenter and origin time (when run_mode : 1)`

			`# relocation_strategy`
			`step_length: 0.01 # step length of relocation perturbation at each iteration. 0.01 means maximum 1% perturbation for each iteration.`
			`step_length_decay: 0.9 # if objective function increase, step size -> step length * step_length_decay. default: 0.9`
			`rescaling_dep_lat_lon_ortime: [10.0, 10.0, 10.0, 1.0] # The perturbation is related to <rescaling_dep_lat_lon_ortime>. Unit: km,km,km,second`
			`max_change_dep_lat_lon_ortime: [5.0, 5.0, 5.0, 0.5] # the change of dep,lat,lon,ortime do not exceed max_change. Unit: km,km,km,second`
			`max_iterations: 100 # maximum number of iterations for relocation`

			`# more option for using different types of data is under development (following)`
			`# -------------- using absolute traveltime data --------------`
			`abs_time:`
			`use_abs_time: yes # 'yes' for using absolute traveltime data to update model parameters; 'no' for not using (no need to set parameters in this section)`
			`residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual. wt = residual_weight[2] for res < residual_weight[0]. wt = residual_weight[3] for res > residual_weight[1], and linear weight in between.`
			`distance_weight: [50.0, 150.0, 1.0, 0.1] # weight of epicenter distance. wt = distance_weight[2] for dis < distance_weight[0]. wt = distance_weight[3] for dis > distance_weight[1], and linear weight in between.`

			`# -------------- using common receiver differential traveltime data --------------`
			`cr_dif_time:`
			`use_cr_time: true # 'yes' for using common receiver differential traveltime data to update model parameters; 'no' for not using (no need to set parameters in this section)`
			`residual_weight: [1.0, 3.0, 1.0, 0.1] # weight (wt) of residual.`
			`distance_weight: [10.0, 30.0, 1.0, 0.1] # weight of distance (km) between two earthquakes.`


			`####################################################################`
			`# inversion strategy for tomography and relocation #`
			`####################################################################`
			`inversion_strategy: # update model parameters and earthquake hypocenter iteratively (when run_mode : 3)`

			`inv_mode: 0 # 0 for update model parameters and relocation iteratively. (other options for future work)`

			`# for inv_mode : 0, parameters below are required`
			`inv_mode_0: # Fristly, do relocation; Subsequently, do relocation every N steps; Finally, do relocation`
			`relocation_first: true # yes: do relocation first; no: do not relocation first. default: yes`
			`relocation_first_iterations: 10 # maximum number of iterations for relocation in the beginning. default: 10`
			`relocation_every_N_steps: 5 # subsequently, do relocation every N steps of updating model parameters. The iteration of relocation follows <max_iterations> in Section <relocation>`
			`relocation_final: true # yes: do relocation finally; no: do not relocation finally. default: yes`
			`relocation_final_iterations: 10 # maximum number of iterations for relocation in the beginning. default: 10`



			`# --- parameters for core solver ---------------------------------------------------------`
			`# --- please do not change the following parameters unless you know what you are doing ---`

			`########################################################################`
			`# Scheme of Eikonal solver (fast sweeping method) #`
			`########################################################################`
			`calculation:`
			`convergence_tolerance: 0.0001 # threshold value for checking the convergence for each forward/adjoint run`
			`max_iterations: 500 # number of maximum iteration for each forward/adjoint run`
			`stencil_order: 3 # order of stencil, 1 or 3`
			`stencil_type: 0 # 0: , 1: first-order upwind scheme (only sweep_type 0 is supported)`
			`sweep_type: 1 # 0: legacy, 1: cuthill-mckee with shm parallelization`