Usage:
aflr3 [option_flags] [parameter_options] [name]
--build : show build number for executable
--version : show system version and script location
-h : list summary of documentation
-help : list full documentation
-help_ug_io : list full documentation on UG_IO input/output files
-doc : view HTML documentation
-igrid input_grid_file : specify input grid file
-ogrid output_grid_file : specify output grid file
-minout : generate minimum output messages
-out : also send output to case_name.aflr3.out
-outf : only send output to case_name.aflr3.out
-host host_name : run on remote host named "host_name"
-w : send output to a new X-window using xterm
-v version_name : use "version_name" scripts, executable, and libraries
-dev : use executable in current directory with standard name
-exe exe_name : use executable in current directory named "exe_name"
-diag : list executable location and library dependencies
-test : run script and only echo the executable command
-dbx : run executable using dbx debugger
-gdb : run executable using gdb debugger
-ddd : run executable using ddd debugger
-insight : run executable using insight debugger
-debug : use debug version of executable, aflr3_g.exe
-purify : use purify version of executable, aflr3.exe.pure
-prof : use gprof version of executable, aflr3_p.exe
-64 : use 64-bit executable
-mp np : use multi-pass multi-partition mode
-mpe ne : use multi-pass multi-partition mode
-np n : use parallel mode
-fast : very fast (lower quality) grid generation
-mmr_rec : use MAX-MIN-Rratio local-reconnection criterion
-mma_rec : use MIN-MAX-Angle local-reconnection criterion
-cdf size_mult : set element size multiplier
-dfmax max_value : set maximum distribution function (element size)
-grow growth_ratio : use normal growth with specified "growth_ratio"
-grow1 : use "moderate" growth
-grow2 : use "high" growth
-grow3 : use "very-high" growth
-transp : do not convert transparent BC=3 b-faces to sources
-rm_transp : remove connectivity for transparent BC=5 b-faces
-no_source : do not use sources
-trsrc : use anisotropic transformation sources
-trsrc_grow : use anisotropic transformation sources with growth
-trds normal_spacing : set transformation source surface normal spacing
-bl : generate a boundary-layer (BL) grid suitable for CFD
-bls i1,i2,...,iN : generate a BL grid from surfaces i1,i2,...,iN
-blgs n_1,i_1_1,... : set surfaces to be grouped for BL streamwise variation
-blc : combine BL tets to form prisms and pyramids
-blc2 : combine BL tets to form prisms and pyramids and hexs
-blpr : protect BL region by reducing isotropic spacing
-blints i1,i2,...,iN : set intersecting surface BC on surfaces i1,i2,...,iN
-blcheck : check BL parameters and input surface grid
-open : generate BL region for an open domain
-revbl : reverse open domain BL normals
-Re reynolds_number : set Reynolds number for normal spacing parameters
-refx reference_x : set reference length
-blf fraction_of_lam_bl : set laminar BL fraction for initial normal spacing
-y+ y+_value : set turbulent flow initial normal spacing based on y+
-du du_value : set laminar BL velocity increment for normal spacing
-du+ du+_value : set turbulent BL velocity increment for normal spacing
-vdir u v w : set the flow direction for assumed BL velocity profile
-blauto : automatically calculate BL growth parameters
-no_blauto : do not automatically calculate BL growth parameters
-no_bldel : ignore BL thickness
-blreseti : reset BL initial normal spacing set in input grid file
-blrm max_growth_ratio : set BL normal spacing maximum growth rate
-blrend end_growth_ratio: set BL normal spacing ending growth rate
-bli number_of_layers : set number of constant normal spacing BL layers
-bldel thickness : set BL thickness
-bldelmax : set BL thickness to maximum for entire BL region
-blds normal_spacing : set BL initial normal spacing
-blr i_growth_ratio : set BL normal spacing initial growth rate
-bldr growth_ratio_mult : set BL normal spacing growth rate acceleration
-bldsm multiplier : set BL initial normal spacing multiplier
-sl : generate a structured layer (SL) grid
-sls i1,i2,...,iN : generate a SL grid from surfaces i1,i2,...,iN
-slc : combine SL tets to form prisms and pyramids
-slc2 : combine SL tets to form prisms and pyramids and hexs
-slints i1,i2,...,iN : set intersecting surface BC on surfaces i1,i2,...,iN
-slf fraction_of_spacing: set initial normal spacing fraction
-slr growth_ratio : set SL normal spacing growth rate
-sns : generate a grid with specified normal spacing (SNS)
-snsbc i1,i2,...,iN : generate a SNS grid from surfaces i1,i2,...,iN
-snsc : combine SNS tets to form prisms and pyramids
-snsc2 : combine SNS tets to form prisms and pyramids and hexs
-snsints i1,i2,...,iN : set intersecting surface BC on surfaces i1,i2,...,iN
-snsi n_1,i_1_1,... : generate a SNS grid using IDs i1,i2,...,iN
-snss s_1_1,... : generate a SNS grid using spacing s1,s2,...,sN
-snsr growth_ratio : set growth rate in SNS transition zone
-setbc : automatically find transparent and intersecting surfs
-setbc2 : automatically find trans/source and intersecting surfs
-brecs i1,i2,...,iN : set reconnection flag on for surfaces i1,i2,...,iN
-q qindex : generate volume grid quality data for qindex measures
-set_vol_id : set output file volume element id for each solid
-tags : read a tags file and set surface grid properties
-qall : generate volume grid quality data for all measures
-qnone : do not generate volume grid quality data
-qs qindex : generate surface grid quality data for qindex measures
-qsall : generate surface grid quality data for all measures
-qsnone : do not generate surface grid quality data
-qstat : generate grid quality data for an existing grid
-convert : convert an existing grid file
-igen : generate only an initial volume triangulation
param_name=param_value : set value of parameter "param_name" to "param_value"
[name] : specify name for one of the following
case name to use as prefix for all files
or input grid file name
or input parameter file name
UG_IO File Names
----------------
UG_IO file names are specified as
case_name.mode.type.format.compression
where case_name is the file case name, .mode is the file mode, .type is the
type suffix, .format is the format suffix, and .compression is the compression
suffix.
Suffix File Type Description
----------------- --------------------
.node NODE 3D Node Data File
.snode SNODE 3D Source Node Data File
.vnode VNODE 3D Directional Source Data File
.tags TAGS Surface Tags Data Grid File
.poly POLY Unstructured B-Surf Grid File
.stl A 3D stereo-lithography B-Surf Grid File
.surf SURF 3D Unstructured B-Surf Grid File
.tri Cart3D TRI Unstructured B-Surf Grid File
.cfd++ CFD++ Grid File Set
.cgns CGNS Data File
.cobalt.grd Cobalt Grid File
.egrid Ensight Gold Grid File
.fgrid FGRID 3D Unstructured Grid File
.fluent.cas Fluent Grid File
.fvuns Fieldview Grid File
.gambit GAMBIT (Fluent) Neutral File
.mesh MESH 3D Unstructured Grid File
.bdf NASTRAN 3D Unstructured Grid File
.nas NASTRAN 3D Unstructured Grid File
.mcell NSU3D Grid File
.foam OpenFOAM polyMesh Grid Files
.ufast UFAST 3D Unstructured Grid File
.face TETGEN 3D Unstructured Grid File Set
.ugrid UGRID 3D Unstructured Grid File
.cogsg VGRID 3D Unstructured Grid File
Suffix File Format Description
------ -----------------------
Formatted ASCII File or Binary Format
Specific to File Type
.r8 FORTRAN Unformatted Real*8 File Format
with Big Endian Ordering
.r4 FORTRAN Unformatted Real*4 File Format
with Big Endian Ordering
.b8 C Binary Double File Format
with Big Endian Ordering
.b4 C Binary Float File Format
with Big Endian Ordering
.lr8 FORTRAN Unformatted Real*8 File Format
with Little Endian Ordering
.lr4 FORTRAN Unformatted Real*4 File Format
with Little Endian Ordering
.lb8 C Binary Double File Format
with Little Endian Ordering
.lb4 C Binary Float File Format
with Little Endian Ordering
Suffix File Mode Description
------ ---------------------
Standard File Mode
.socket Binary Socket File Mode
.tmp Binary TMP File Mode
Suffix File Compression Description
------ ----------------------------
No File Compression
.bz2 BZIP2 File Compression
.gz GZIP File Compression
.Z COMPRESS File Compression
Program Parameters
------------------
Default Minimum Maximum Parameter
Value Value Value Name and Description
------- ------- ------- --------------------
0 0 1 File_Status_Monitor_Flag
File status monitor flag.
0 0 1 Memory_Monitor_Flag
Memory monitor flag.
1 0 10000000 Message_Flag
Message flag.
0 0 2 Output_File_Flag
Output file flag.
0 0 1 Set_Vol_ID_Flag
Set volume element ID flag.
0 0 1 Tags_Data_File_Flag
Tags data file flag.
1 1 2 mchkvol
Final element volume check flag.
1 1 2 mdf
Distribution function flag.
1 0 1 mdflim
Distribution function limiting flag.
1 0 1 mdfs
Quality field sliver deletion flag.
0 0 2000000000melem
Maximum number of elements.
1 0 1 minlpp
Initial centroid point placement flag.
0 0 2 mlsr
Length scale ratio improvement flag.
2 1 2 mpp
Point placement flag.
1 0 1 mqrgen
Quality improvement re-generation flag.
0 0 1 mrecbdw
Boundary curvature reconnection flag.
0 -2 2 mrecbm
Boundary face local-reconnection flag.
3 2 3 mreciqm
Initial quality local-reconnection flag.
2 1 3 mrecm
Local-Reconnection flag.
2 2 3 mrecqm
Quality local-reconnection flag.
3 2 3 mrecqmf
Final quality local-reconnection flag.
1 0 1 mrecrbf
Global boundary face reconnection flag.
0 0 3 msetbc
Set grid boundary condition flag option.
1 0 2 msource
Source option flag.
0 0 2 mtr
Spacing transformation flag.
0 0 1 mtrsrcb
Anisotropic aspect-ratio blending flag.
0 -3 5 mtransp
Transparent B-face flag.
0 0 1 mwbcsurf
BC surface file flag.
1 0 1 mwfail
Temporary surface FAIL file flag.
0 0 1 mwvnode
VNODE node data file flag.
4 0 10000000 ninlpp
Initial centroid point placement passes.
* * * Rec_IDs
List of IDs to reset Reconnection flag.
0 0 1 mpartm
Partition flag.
2 0 3 mpfrmt
Partition mode output grid file format.
0 0 2 mwpgrid
Partition grid debug file flag.
4 0 10000000 nlsrpp
Maximum LSR point placement passes.
1 1 1000000 npart
Number of partitions.
0 0 2000000000npelmax
Max. number of elements per partition.
10000 0 2000000000npelmin
Min. number of elements per partition.
0 -1 2 mbl
BL grid flag.
0 0 1 mblauto
BL auto-parameter flag.
0 0 1 mblchki
BL parameter and surface check flag.
0 0 1 mbldelmax
BL thickness flag.
0 0 2 mblelc
BL element combination flag.
2 0 2 mblend
BL termination flag.
0 0 1 mblfinal
BL final layer flag.
0 0 1 mblidsmth
BL surface ID smoothing flag.
0 0 1 mblreseti
BL initial normal spacing reset flag.
2 0 2 mbltype
BL type flag.
0 0 1 mdfb
BL interface distribution function flag.
0 0 1 mdfblminm
BL isotropic length scale limiting flag.
1 0 2 mdsblf
BL spacing thickness factor option.
0 0 1 mopen
Open grid generation domain flag.
0 0 1 mrevbl
BL normal direction flag.
1 0 1 msetabl
Set adjacent surface to BL flag.
0 0 1 mwblfunc
BL level function file flag.
0 0 1 mwblsdfunc
BL surf. discontinuity funct. file flag.
0 0 1 mwblsurf
BL surface file flag.
5 0 1000 iblri
Number of constant spacing BL layers.
10000 0 10000000 nbl
Maximum BL grid layers to generate.
0 0 10000000 nbldiff
Maximum difference in BL levels.
5 2 10000000 nblidsmthl
BL surface ID smoothing layers.
20 0 10000 nblsmth
BL normal vector smoothing iterations.
10 0 10000 nblsmthl
BL concave region smoothing layers.
0 0 10000000 npsurf
Number of periodic surface pairs.
3 1 100 nsblm
SL normal vector smoothing layers.
4 1 99999999 nsetblip
Minimum number of faces on a BL plane.
0 0 1 Write_BL_Only
BL element output flag.
* * * BL_IDs
List of IDs to reset grid BL flag.
* * * BLG_IDs
List of IDs for BL groups.
* * * Int_IDs
List of IDs for intersecting surfaces.
* * * PS_IDs
List of IDs for periodic surfaces.
* * * SNS_IDs
List of specified spacing groups IDs.
1 0 15 GQ_Vol_Measure_Flag
Volume grid quality measure flag.
1 0 1 GQ_Vol_Output_Flag
Volume grid quality output flag.
0 0 15 GQ_Surf_Measure_Flag
Surface grid quality measure flag.
1 0 1 GQ_Surf_Output_Flag
Surface grid quality output flag.
1.2 0.1 1e+06 cdf
Distribution function multiplier.
1 0.1 1e+06 cdf_vol
Distribution function multp (vol mesh).
0 0 1 cdfm
Distribution function weighting factor.
1.1 1 3 cdfr
Maximum geometric growth rate.
1.2 1 3 cdfrsrc
Maximum geometric source growth rate.
1 0 3 cdfs
Distribution function exclusion zone.
2 0 10 cdfssrc
Source distribution function excl. zone.
0.25 0 0.7 cdse
Small edge factor.
0.1 0 0.5 cinlpp
Initial centroid point placement factor.
0.8 0 1 csrcw
Source weight.
-1 -1 1e+19 dfmax
Maximum distribution function.
0 0 1e+19 trds
Surf transformation normal spacing.
100 1 1e+19 trmmax
Maximum aniostropic blending vector.
0.1 0 1 lsrpplim
LSR point placement limit factor.
170 90 179.9 angblqfmax
Maximum BL interface face angle.
179 90 179.9 angblqfmax2
Maximum BL interface face angle #2.
165 90 179.9 angblqmax
Maximum BL dihedral element angle.
175 90 180 angblqmaxd
Maximum discontinuous BL dihedral angle.
179 90 180 angblqmaxd2
Maximum convex disc. BL dihedral angle.
165 90 179.9 angslqmax
Maximum SL dihedral element angle.
175 90 180 angslqmaxd
Maximum discontinuous SL dihedral angle.
0 0 1000 bldup
Normalized BL velocity increment.
1e+06 0.0001 1e+19 blre
Reference Reynolds number.
0 0 1000 blyp
Normalized BL normal spacing.
0.9 0 100 cblcncvmnr
Concave max. normal-dir-aspect-ratio.
0.5 0 1000 cbldel
BL thickness slope multiplier.
0.5 0 1 cbldsm
BL sub-layer spacing multiplier.
0.1 0 1 cblend
Global BL termination factor.
0.7 0 100 cblmnr
Maximum normal-direction-aspect-ratio.
0.7 0 100 cblnrchkbf
Checking normal-direction-aspect-ratio.
0.5 0 100 cblnrendm
Minimum normal-direction-aspect-ratio.
1 0.1 1000 cblsmax
BL thickness multiplier.
0.5 0 1000 cblsmaxs
BL normal smoothing multiplier.
1 0 1000 cblsmaxsd
BL normal smoothing discon. multiplier.
0.5 0 1 cblsmthd
Smoothing BL thickness multiplier.
0.25 1e-06 1 cblxlim
Minimum distance for BL variation.
1.2 0.25 1e+06 cdf2
Distribution function multiplier #2.
1.5 1 10 cdffblm1
Maximum BL edge length factor #1.
1 1 1e+06 cdffblm2
Maximum BL edge length factor #2.
0.25 0 10 cdfnbl
Nearby BL node factor.
1 1 3 cdfrbl
BL geometric growth rate.
1.5 1.001 4 cdfrblm
Maximum BL geometric growth rate.
1.2 1 3 cdfrsl
SL geometric growth rate.
1.2 1 3 cdfrsns
SNS geometric growth rate.
0.5 1e-13 3 cdfslm
SL initial normal spacing multiplier.
0.5 0 1 cslend
Global SL termination factor.
1.05 1 2 dcdfrbl
BL geometric growth acceleration rate.
-1 -1 1e+19 deldef
BL thickness.
0 0 1e+19 dsdef
BL initial normal spacing.
1 0 1e+06 dsmul
BL spacing multiplier.
0 0 1e+19 refx
Reference length.
0 -1e+19 1e+19 vx
Flow X-direction vector component.
0 -1e+19 1e+19 vy
Flow Y-direction vector component.
0 -1e+19 1e+19 vz
Flow Z-direction vector component.
* * * PS_TMs
Periodic surface rotation matrix list.
* * * PS_XPS0s
Periodic surf. translation vector list.
* * * SNS
Specified normal spacing distribution.
test Input_Grid_File_Name
Case name or input grid file name.
.b8.ugrid Output_Grid_File_Name
Output grid file name or suffix.
TMP_File_Dir
Temporary file directory.
**********************************************************************
THE FOLLOWING PARAMETERS SHOULD NOT BE CHANGED!
**********************************************************************
Default Minimum Maximum Parameter
Value Value Value Name and Description
------- ------- ------- --------------------
1 -6 4 Grid_Generation_Flag
Program flag.
1 1 10 Number_of_Calls
Number of program calls.
1 -6 2 Program_Flag
Program flag.
1 0 1 mchkvoli
Input grid volume check flag.
1 0 1 mdbs
Boundary sliver deletion flag.
1 0 1 mdse
Small edge deletion flag.
0 0 1 mfchkn
Candidate to node checking flag.
1 0 1 mimadd
Inl. grid gen. element flag option.
0 0 1 mrec4
4-4 element local-Reconnection flag.
2 1 3 mrecim
Initial local-reconnection flag.
1 1 2 msmth
Smoothing flag.
1 0 1 mtrb
B-face aspect-ratio transformation flag.
100 2 2000000000nbfmqrgen
Maximum quality imprv/re-gen b-faces.
10 1 10000000 nbngrp
Number of boundary node groups.
1000 100 10000000 nelemdm
Minimum number of elements to allocate.
5 4 100 nelhull
Number of convex hull element pairs.
5 3 7 nelpnn
Number of elements per node.
5 1 100 nelpnni
Number of initial elements per node.
100000 0 100000000 ngen
Maximum number of grid passes.
3 1 10000000 ninsmax
Maximum inl grid element subdivisions.
100 1 10000000 ninsmaxgg
Maximum field grid elem. subdivisions.
10 1 10000000 nlsrgen
Maximum number of LSRatio passes.
10000 100 10000000 nmnrealloc
Minimum array elements to reallocate.
100 10 10000 nnpbchk
Oct-tree bin checking node limit.
10 10 10000 nnpbeval
Oct-tree bin evaluation node limit.
2 1 10 nnpnni
Number of nodes per initial node.
10 0 1000000 nqrgadd
Min. additional grid re-gen. nodes.
4 1 10 nqrgen
Quality improvement re-gen. iterations.
2 1 10 nqr
Maximum quality imprv/re-gen passes.
2 0 10 nqual
Number of quality improvement passes.
1 0 10 nqualf
Number of quality improvement repeats.
3 0 10 nsmth
Number of smoothing iterations.
2 0 2 mpdone
Partition mode completion flag.
1000 1 1000000000nfchkrep
Max number of repeat file status checks.
10000000 0 100000000 npgen
Maximum number of partitioning passes.
10000 0 10000000 nbld
Maximum total BL grid layers allowable.
5 2 100 nbldd
Number of disconinuity levels.
3 2 100 nblpnmin
Minimum number of surrounding BL nodes.
20 -1 10000000 nblrbf
BL level difference reconnection limit.
100 0 10000000 ndfsmth
Max distribution func BL smoothing itrs.
100 * * GQ_Max_Dist_Increments
Maximum quality distribution increments.
140 90 179.9 angbd
ID group discontinuous surface angle.
160 120 179.9 angdbs
Boundary sliver dihedral element angle.
175 120 179.9 angdfs
Quality field sliver dihedral angle.
150 120 179.9 angmax
Satisfied dihedral element angle.
179.5 0 180 angqbf
Maximum planar surface angle.
160 0 180 angqbfm
Maximum planar surface angle.
160 90 179.9 angqmax
Low quality dihedral element angle.
120 90 179.9 angqmsk
Masking dihedral element angle.
175 90 179.9 angqrmax
Very low quality dihedral element angle.
160 70 179.9 angqrgen
Re-generation dihedral element angle.
120 70 179.9 angqual
Final quality dihedral element angle.
150 120 179.9 angrbfdd
Discontinuous dihedral surface angle.
120 100 179.9 angrbfdd2
Discontinuous dihedral surface angle 2.
110 60 179.9 angrbfmxd
Maximum angle for curvature improvement.
140 60 179.9 angrbfmxp
Maximum planar face angle.
2 0 10 angrbfsd
Small dihedral surface angle.
100 1 1e+07 arrbfn
Bnd. recvry. normal trnsf. aspect-ratio.
2 1 1e+07 arrbfp
Bnd. recovery pair transf. aspect-ratio.
0 0 1e+07 arrecbf
Maximum aspect-ratio for boundary faces.
1 1 1e+07 artrmin
Transformation minimum aspect-ratio.
1 1 100000 bdfmchk
Oct-tree bin checking size factor.
1 1 100000 bdfmeval
Oct-tree bin evaluation size factor.
0.25 0 1 bfdwrec
Boundary curvature improvement factor.
0.866 0 10 cartrm
Transformation aspect-ratio coefficient.
2 1.5 100000 cbidx
Initial bounding box size factor.
1e-08 0 0.01 cbmv1
Initial bndry node movement tolerance.
0.001 0 0.01 cbmv2
Final boundary node movement tolerance.
10 2 1e+06 cbmvm
Boundary node movement multiplier.
1.5 1.1 3 cdff
Satisfied edge length multiplier.
2 1.1 10 cdffbcf
Frozen element edge length multiplier 1.
0.7 0.5 0.9 cdfn
Nearby node factor.
2 0.5 100 cdfnbcf
Frozen boundary face nearby node factor.
1 0.5 1e+06 cdfqrg
Inl. re-generation dist. function mult.
0.5 1e-06 1e+06 cdfqrgmin
Min. re-generation dist. function mult.
1 0.5 1 cdvtol
Delaunay tolerance exponent.
0.01 1e-06 0.1 cdvtolr
Delaunay tolerance reduction factor.
0.8 0.1 10 cmelem
Maximum element estimate coefficient.
1.25 1.01 2 cmelemi
Maximum element ratio.
0.001 0 0.1 cmv1
Initial node movement tolerance.
0.1 0 0.25 cmv2
Final node movement tolerance.
10 2 1e+06 cmvm
Node movement multiplier.
1.25 1 3 cnnpnni
Number of initial nodes multiplier.
1 0 1e+07 crbf
Boundary recovery point placement factor
1.25 1.05 2 crealloc
Reallocation multiplier.
0.8 0.4 0.9 csmin
Tolerance exponent for searching.
0.25 0.125 0.9 csmini
Tolerance exponent for insertion.
0.5 0 1 csmth
Smoothing coefficient.
0.94 0.8 0.94 ctol
Overall tolerance exponent.
0.88 0.5 0.94 ctolm
Initial grid volume tolerance exponent.
0.5 0.4 0.94 ctoli
Initial tolerance exponent
1 0 180 dangqrgen
Re-generation element angle tolerance.
0.1 1e-06 1e+06 dcdfqrg
Re-generation dist. funct. mult. factor.
0.0001 1e-18 0.1 dvtol0
Initial Delaunay tolerance value.
0.0001 0 1 lsrlimit
LSRatio improvement limit factor.
2 1.1 1e+06 lsrszmin
LSRatio surface mode size factor.
0.1 0 1 relem0
Re-numbering limit.
0.5 0 1 vsmthb
Smoothing reduction factor.
165 120 179.9 angpmax1
Partition dihedral element angle 1.
180 120 180 angpmax2
Partition dihedral element angle 2.
1.8 1.1 3 cdffp1
Partition edge length multiplier 1.
2 1.1 3 cdffp2
Partition edge length multiplier 2.
0.7 0 0.9 cdfnn
Nearby expanded check node factor.
0.5 0.1 10 cmelemp
Partition mode maximum element coeff.
15 0 90 angbldd
BL discontinuous surface angle.
85 0 90 angbldd2
BL highly discontinuous surface angle.
170 100 180 angblisimx
Maximum angle between BL int. faces.
0.5 0 10 angblipmax
Maximum normal deviation on a plane.
2 0 45 angblsd
BL small dihedral angle.
0 0 10 angrbfsd2
Small dihedral surface angle.
0 0 1000 cblchkbb
Intersection checking box size factor.
0.7 0 1000 cblcncv
Concave BL region factor.
3 1 1000 cblsrchbb
Nearby node search bnd. box size factor.
1.2 1 1000 cblsrchbb2
Nearby surf search bnd. box size factor.
1 0 1e+19 cbltrm
Anisotropic blending coefficient.
1.2 1.001 3 cdsblr
Blended BL surface growth rate.
1.5 1.001 4 cdsblrm
Maximum blended BL surface growth rate.
1.05 1 2 dcdsblr
Blended BL surface acceleration rate
0.1 0 10 dfsmthlim
Distribution func BL smoothing limit
0.001 0 1 dfsmthtol
Distribution func BL smoothing tolerance
100 1 1e+06 dsblfmax
BL spacing thickness factor.
0.3 0 1e+06 sminj
Face intersection location tolerance.