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Commit 2d16547e authored by Matthieu Schaller's avatar Matthieu Schaller
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Update all the VR configuration file to use 'Particle_type_for_reference_frames=1'

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with 43 additions and 34 deletions
examples/EAGLE_ICs/EAGLE_100/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 1
0
View file @ 2d16547e
...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I ...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
......
examples/EAGLE_ICs/EAGLE_12/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 1
0
View file @ 2d16547e
...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I ...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
......
examples/EAGLE_ICs/EAGLE_25/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 1
0
View file @ 2d16547e
...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I ...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
......
examples/EAGLE_ICs/EAGLE_50/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 1
0
View file @ 2d16547e
...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I ...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
......
examples/EAGLE_ICs/EAGLE_50_low_res/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 8
7
View file @ 2d16547e
#Configuration file for analysing Hydro #Configuration file for analysing Hydro
#runs 3DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties #runs 6DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties
#Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units #Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units
#To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12 #To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12
...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I ...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
...@@ -26,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit, ...@@ -26,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit,
#assumes input is in 1e10 msun, Mpc and km/s and output units are the same #assumes input is in 1e10 msun, Mpc and km/s and output units are the same
Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc
Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc
#converting hydro quantities #converting hydro quantities
Stellar_age_input_is_cosmological_scalefactor=1 Stellar_age_input_is_cosmological_scalefactor=1
Metallicity_input_unit_conversion_to_output_unit=1.0 Metallicity_input_unit_conversion_to_output_unit=1.0
...@@ -39,8 +41,8 @@ Length_unit_to_kpc=1000.0 ...@@ -39,8 +41,8 @@ Length_unit_to_kpc=1000.0
Velocity_to_kms=1.0 Velocity_to_kms=1.0
#conversion of output mass units to solar masses #conversion of output mass units to solar masses
Mass_to_solarmass=1.0e10 Mass_to_solarmass=1.0e10
#1 / 0.012
Metallicity_to_solarmetallicity=83.33 Metallicity_to_solarmetallicity=83.33 #1 / 0.012
Star_formation_rate_to_solarmassperyear=97.78 Star_formation_rate_to_solarmassperyear=97.78
Stellar_age_to_yr=1.0 Stellar_age_to_yr=1.0
#ensures that output is physical and not comoving distances per little h #ensures that output is physical and not comoving distances per little h
...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores ...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores
Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration
Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration
Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration
Halo_core_phase_significance=2.0 #how significant a core must be in terms of dispersions (sigma) significance Halo_core_phase_significance=5.0 #how significant a core must be in terms of dispersions (sigma) significance
################################ ################################
#Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure) #Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure)
...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0 ...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0
Min_npot_ref=20 Min_npot_ref=20
#reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass #reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass
Kinetic_reference_frame_type=0 Kinetic_reference_frame_type=0
#extra options in new unbinding optimisation
Unbinding_max_unbound_removal_fraction_per_iteration=0.5 Unbinding_max_unbound_removal_fraction_per_iteration=0.5
Unbinding_max_unbound_fraction=0.95 Unbinding_max_unbound_fraction=0.95
Unbinding_max_unbound_fraction_allowed=0.005 Unbinding_max_unbound_fraction_allowed=0.005
...@@ -203,6 +206,4 @@ Snapshot_value=SNAP ...@@ -203,6 +206,4 @@ Snapshot_value=SNAP
################################ ################################
#other options #other options
################################ ################################
Verbose=0 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox Verbose=1 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox
examples/EAGLE_ICs/EAGLE_6/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 1
0
View file @ 2d16547e
...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I ...@@ -16,6 +16,7 @@ Input_includes_wind_particle=0 #include wind particles in hydro input (used by I
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
......
examples/SmallCosmoVolume/SmallCosmoVolume_VELOCIraptor/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 10
9
View file @ 2d16547e
#Configuration file for analysing Hydro #Configuration file for analysing Hydro
#runs 3DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties #runs 6DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties
#Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units #Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units
#To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12 #To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12
...@@ -10,12 +10,13 @@ ...@@ -10,12 +10,13 @@
HDF_name_convention=6 #HDF SWIFT naming convention HDF_name_convention=6 #HDF SWIFT naming convention
Input_includes_dm_particle=1 #include dark matter particles in hydro input Input_includes_dm_particle=1 #include dark matter particles in hydro input
Input_includes_gas_particle=1 #include gas particles in hydro input Input_includes_gas_particle=1 #include gas particles in hydro input
Input_includes_star_particle=1 #include star particles in hydro input Input_includes_star_particle=0 #include star particles in hydro input
Input_includes_bh_particle=1 #include bh particles in hydro input Input_includes_bh_particle=0 #include bh particles in hydro input
Input_includes_wind_particle=0 #include wind particles in hydro input (used by Illustris and moves particle type 0 to particle type 3 when decoupled from hydro forces). Here shown as example Input_includes_wind_particle=0 #include wind particles in hydro input (used by Illustris and moves particle type 0 to particle type 3 when decoupled from hydro forces). Here shown as example
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
...@@ -26,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit, ...@@ -26,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit,
#assumes input is in 1e10 msun, Mpc and km/s and output units are the same #assumes input is in 1e10 msun, Mpc and km/s and output units are the same
Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc
Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc
#converting hydro quantities #converting hydro quantities
Stellar_age_input_is_cosmological_scalefactor=1 Stellar_age_input_is_cosmological_scalefactor=1
Metallicity_input_unit_conversion_to_output_unit=1.0 Metallicity_input_unit_conversion_to_output_unit=1.0
...@@ -39,8 +41,8 @@ Length_unit_to_kpc=1000.0 ...@@ -39,8 +41,8 @@ Length_unit_to_kpc=1000.0
Velocity_to_kms=1.0 Velocity_to_kms=1.0
#conversion of output mass units to solar masses #conversion of output mass units to solar masses
Mass_to_solarmass=1.0e10 Mass_to_solarmass=1.0e10
#1 / 0.012
Metallicity_to_solarmetallicity=83.33 Metallicity_to_solarmetallicity=83.33 #1 / 0.012
Star_formation_rate_to_solarmassperyear=97.78 Star_formation_rate_to_solarmassperyear=97.78
Stellar_age_to_yr=1.0 Stellar_age_to_yr=1.0
#ensures that output is physical and not comoving distances per little h #ensures that output is physical and not comoving distances per little h
...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores ...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores
Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration
Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration
Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration
Halo_core_phase_significance=2.0 #how significant a core must be in terms of dispersions (sigma) significance Halo_core_phase_significance=5.0 #how significant a core must be in terms of dispersions (sigma) significance
################################ ################################
#Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure) #Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure)
...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0 ...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0
Min_npot_ref=20 Min_npot_ref=20
#reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass #reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass
Kinetic_reference_frame_type=0 Kinetic_reference_frame_type=0
#extra options in new unbinding optimisation
Unbinding_max_unbound_removal_fraction_per_iteration=0.5 Unbinding_max_unbound_removal_fraction_per_iteration=0.5
Unbinding_max_unbound_fraction=0.95 Unbinding_max_unbound_fraction=0.95
Unbinding_max_unbound_fraction_allowed=0.005 Unbinding_max_unbound_fraction_allowed=0.005
...@@ -186,6 +189,4 @@ Snapshot_value=SNAP ...@@ -186,6 +189,4 @@ Snapshot_value=SNAP
################################ ################################
#other options #other options
################################ ################################
Verbose=0 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox Verbose=1 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox
examples/SmallCosmoVolume/SmallCosmoVolume_hydro/vrconfig_3dfof_subhalos_SO_hydro.cfg
+ 10
9
View file @ 2d16547e
#Configuration file for analysing Hydro #Configuration file for analysing Hydro
#runs 3DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties #runs 6DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties
#Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units #Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units
#To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12 #To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12
...@@ -10,12 +10,13 @@ ...@@ -10,12 +10,13 @@
HDF_name_convention=6 #HDF SWIFT naming convention HDF_name_convention=6 #HDF SWIFT naming convention
Input_includes_dm_particle=1 #include dark matter particles in hydro input Input_includes_dm_particle=1 #include dark matter particles in hydro input
Input_includes_gas_particle=1 #include gas particles in hydro input Input_includes_gas_particle=1 #include gas particles in hydro input
Input_includes_star_particle=1 #include star particles in hydro input Input_includes_star_particle=0 #include star particles in hydro input
Input_includes_bh_particle=1 #include bh particles in hydro input Input_includes_bh_particle=0 #include bh particles in hydro input
Input_includes_wind_particle=0 #include wind particles in hydro input (used by Illustris and moves particle type 0 to particle type 3 when decoupled from hydro forces). Here shown as example Input_includes_wind_particle=0 #include wind particles in hydro input (used by Illustris and moves particle type 0 to particle type 3 when decoupled from hydro forces). Here shown as example
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
...@@ -26,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit, ...@@ -26,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit,
#assumes input is in 1e10 msun, Mpc and km/s and output units are the same #assumes input is in 1e10 msun, Mpc and km/s and output units are the same
Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc
Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc
#converting hydro quantities #converting hydro quantities
Stellar_age_input_is_cosmological_scalefactor=1 Stellar_age_input_is_cosmological_scalefactor=1
Metallicity_input_unit_conversion_to_output_unit=1.0 Metallicity_input_unit_conversion_to_output_unit=1.0
...@@ -39,8 +41,8 @@ Length_unit_to_kpc=1000.0 ...@@ -39,8 +41,8 @@ Length_unit_to_kpc=1000.0
Velocity_to_kms=1.0 Velocity_to_kms=1.0
#conversion of output mass units to solar masses #conversion of output mass units to solar masses
Mass_to_solarmass=1.0e10 Mass_to_solarmass=1.0e10
#1 / 0.012
Metallicity_to_solarmetallicity=83.33 Metallicity_to_solarmetallicity=83.33 #1 / 0.012
Star_formation_rate_to_solarmassperyear=97.78 Star_formation_rate_to_solarmassperyear=97.78
Stellar_age_to_yr=1.0 Stellar_age_to_yr=1.0
#ensures that output is physical and not comoving distances per little h #ensures that output is physical and not comoving distances per little h
...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores ...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores
Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration
Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration
Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration
Halo_core_phase_significance=2.0 #how significant a core must be in terms of dispersions (sigma) significance Halo_core_phase_significance=5.0 #how significant a core must be in terms of dispersions (sigma) significance
################################ ################################
#Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure) #Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure)
...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0 ...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0
Min_npot_ref=20 Min_npot_ref=20
#reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass #reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass
Kinetic_reference_frame_type=0 Kinetic_reference_frame_type=0
#extra options in new unbinding optimisation
Unbinding_max_unbound_removal_fraction_per_iteration=0.5 Unbinding_max_unbound_removal_fraction_per_iteration=0.5
Unbinding_max_unbound_fraction=0.95 Unbinding_max_unbound_fraction=0.95
Unbinding_max_unbound_fraction_allowed=0.005 Unbinding_max_unbound_fraction_allowed=0.005
...@@ -186,6 +189,4 @@ Snapshot_value=SNAP ...@@ -186,6 +189,4 @@ Snapshot_value=SNAP
################################ ################################
#other options #other options
################################ ################################
Verbose=0 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox Verbose=1 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox
examples/nIFTyCluster/Baryonic/vrconfig_swift.cfg
+ 10
9
View file @ 2d16547e
#Configuration file for analysing Hydro #Configuration file for analysing Hydro
#runs 3DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties #runs 6DFOF + substructure algorithm, demands subhalos and FOF halos be self-bound, calculates many properties
#Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units #Units currently set to take in as input, Mpc, 1e10 solar masses, km/s, output in same units
#To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12 #To set temporally unique halo ids, alter Snapshot_value=SNAP to appropriate value. Ie: for snapshot 12, change SNAP to 12
# This is the same as the configuration file used in the EAGLE examples.
################################ ################################
#input options #input options
...@@ -15,8 +14,9 @@ Input_includes_star_particle=0 #include star particles in hydro input ...@@ -15,8 +14,9 @@ Input_includes_star_particle=0 #include star particles in hydro input
Input_includes_bh_particle=0 #include bh particles in hydro input Input_includes_bh_particle=0 #include bh particles in hydro input
Input_includes_wind_particle=0 #include wind particles in hydro input (used by Illustris and moves particle type 0 to particle type 3 when decoupled from hydro forces). Here shown as example Input_includes_wind_particle=0 #include wind particles in hydro input (used by Illustris and moves particle type 0 to particle type 3 when decoupled from hydro forces). Here shown as example
Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example Input_includes_tracer_particle=0 #include tracer particles in hydro input (used by Illustris). Here shown as example
Input_includes_extradm_particle=1 #include extra dm particles stored in particle type 2 and type 3, useful for zooms Input_includes_extradm_particle=0 #include extra dm particles stored in particle type 2 and type 3, useful for zooms
Particle_type_for_reference_frames=1 #use DM particles to define reference frame
Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value Halo_core_phase_merge_dist=0.25 #merge substructures if difference in dispersion normalised distance is < this value
Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small Apply_phase_merge_to_host=1 #merge substructures with background if centrally located and phase-distance is small
...@@ -27,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit, ...@@ -27,6 +27,7 @@ Mass_input_unit_conversion_to_output_unit=1.0 #default mass unit,
#assumes input is in 1e10 msun, Mpc and km/s and output units are the same #assumes input is in 1e10 msun, Mpc and km/s and output units are the same
Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc Gravity=43.0211349 #for 1e10 Msun, km/s and Mpc
Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc Hubble_unit=100.0 # assuming units are km/s and Mpc, then value of Hubble in km/s/Mpc
#converting hydro quantities #converting hydro quantities
Stellar_age_input_is_cosmological_scalefactor=1 Stellar_age_input_is_cosmological_scalefactor=1
Metallicity_input_unit_conversion_to_output_unit=1.0 Metallicity_input_unit_conversion_to_output_unit=1.0
...@@ -40,8 +41,9 @@ Length_unit_to_kpc=1000.0 ...@@ -40,8 +41,9 @@ Length_unit_to_kpc=1000.0
Velocity_to_kms=1.0 Velocity_to_kms=1.0
#conversion of output mass units to solar masses #conversion of output mass units to solar masses
Mass_to_solarmass=1.0e10 Mass_to_solarmass=1.0e10
Metallicity_to_solarmetallicity=1.0
Star_formation_rate_to_solarmassperyear=1.0 Metallicity_to_solarmetallicity=83.33 #1 / 0.012
Star_formation_rate_to_solarmassperyear=97.78
Stellar_age_to_yr=1.0 Stellar_age_to_yr=1.0
#ensures that output is physical and not comoving distances per little h #ensures that output is physical and not comoving distances per little h
Comoving_units=0 Comoving_units=0
...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores ...@@ -112,7 +114,7 @@ Halo_core_num_loops=8 #number of loops to iteratively search for cores
Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration Halo_core_loop_ellx_fac=0.75 #how much to change the configuration space linking per iteration
Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration Halo_core_loop_ellv_fac=1.0 #how much to change the velocity space linking per iteration
Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration Halo_core_loop_elln_fac=1.2 #how much to change the min number of particles per iteration
Halo_core_phase_significance=2.0 #how significant a core must be in terms of dispersions (sigma) significance Halo_core_phase_significance=5.0 #how significant a core must be in terms of dispersions (sigma) significance
################################ ################################
#Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure) #Unbinding options (VELOCIraptor is able to accurately identify tidal debris so particles need not be bound to a structure)
...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0 ...@@ -134,6 +136,7 @@ Frac_pot_ref=1.0
Min_npot_ref=20 Min_npot_ref=20
#reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass #reference frame only meaningful if calculating velocity frame using subset of particles in object. Can use radially sorted fraction of particles about minimum potential or centre of mass
Kinetic_reference_frame_type=0 Kinetic_reference_frame_type=0
#extra options in new unbinding optimisation
Unbinding_max_unbound_removal_fraction_per_iteration=0.5 Unbinding_max_unbound_removal_fraction_per_iteration=0.5
Unbinding_max_unbound_fraction=0.95 Unbinding_max_unbound_fraction=0.95
Unbinding_max_unbound_fraction_allowed=0.005 Unbinding_max_unbound_fraction_allowed=0.005
...@@ -186,6 +189,4 @@ Snapshot_value=SNAP ...@@ -186,6 +189,4 @@ Snapshot_value=SNAP
################################ ################################
#other options #other options
################################ ################################
Verbose=0 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox Verbose=1 #how talkative do you want the code to be, 0 not much, 1 a lot, 2 chatterbox
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