[prefix].type.xlo
|
BC::Constant |
BC type on the lower x edge (2d) face (3d) |
[prefix].type.xhi
|
BC::Constant |
BC type on the upper x edge (2d) face (3d) |
[prefix].type.ylo
|
BC::Constant |
BC type on the lower y edge (2d) face (3d) |
[prefix].type.yhi
|
BC::Constant |
BC type on the upper y edge (2d) face (3d) |
[prefix].type.zlo
|
BC::Constant |
BC type on the lower z face (processed but ignored in 2d to prevent unused input errors) |
[prefix].type.zhi
|
BC::Constant |
BC type on the upper z face (processed but ignored in 2d to prevent unused input errors) |
[prefix].val.xlo
|
BC::Constant |
BC value on the lower x edge (2d) face (3d) |
[prefix].val.xhi
|
BC::Constant |
BC value on the upper x edge (2d) face (3d) |
[prefix].val.ylo
|
BC::Constant |
BC value on the lower y edge (2d) face (3d) |
[prefix].val.yhi
|
BC::Constant |
BC value on the upper y edge (2d) face (3d) |
[prefix].val.zlo
|
BC::Constant |
BC value on the lower z face (processed but ignored in 2d to prevent unused input errors) |
[prefix].val.zhi
|
BC::Constant |
BC value on the upper z face (processed but ignored in 2d to prevent unused input errors) |
[prefix].h1
|
BC::Step |
Location of the step on the xlo edge/face |
[prefix].h2
|
BC::Step |
Location of the step on the xhi edge/face |
[prefix].type.xloylozlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.xloylozhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.xloyhizlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.xloyhizhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.xhiylozlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.xhiylozhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.xhiyhizlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.xhiyhizhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].type.ylozlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.ylozhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.yhizlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.yhizhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.zloxlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.zloxhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.zhixlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.zhixhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].type.xloylo
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].type.xloyhi
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].type.xhiylo
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].type.xhiyhi
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].type.xlo
|
BC::Operator::Elastic::Constant |
3D Face 2D Edge |
[prefix].type.xhi
|
BC::Operator::Elastic::Constant |
3D Face 2D Edge |
[prefix].type.ylo
|
BC::Operator::Elastic::Constant |
3D Face 2D Edge |
[prefix].type.yhi
|
BC::Operator::Elastic::Constant |
3D Face 2D Edge |
[prefix].type.zlo
|
BC::Operator::Elastic::Constant |
3D Face |
[prefix].type.zhi
|
BC::Operator::Elastic::Constant |
3D Face |
[prefix].val.xloylozlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.xloylozhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.xloyhizlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.xloyhizhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.xhiylozlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.xhiylozhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.xhiyhizlo
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.xhiyhizhi
|
BC::Operator::Elastic::Constant |
3D Corner |
[prefix].val.ylozlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.ylozhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.yhizlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.yhizhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.zloxlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.zloxhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.zhixlo
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.zhixhi
|
BC::Operator::Elastic::Constant |
3D Edge |
[prefix].val.xloylo
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].val.xloyhi
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].val.xhiylo
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].val.xhiyhi
|
BC::Operator::Elastic::Constant |
3D Edge / 2D Corner |
[prefix].val.xlo
|
BC::Operator::Elastic::Constant |
3D Face / 2D Edge |
[prefix].val.xhi
|
BC::Operator::Elastic::Constant |
3D Face / 2D Edge |
[prefix].val.ylo
|
BC::Operator::Elastic::Constant |
3D Face / 2D Edge |
[prefix].val.yhi
|
BC::Operator::Elastic::Constant |
3D Face / 2D Edge |
[prefix].val.zlo
|
BC::Operator::Elastic::Constant |
3D Face |
[prefix].val.zhi
|
BC::Operator::Elastic::Constant |
3D Face |
[prefix].type.xloylozlo
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.xloylozhi
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.xloyhizlo
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.xloyhizhi
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.xhiylozlo
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.xhiylozhi
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.xhiyhizlo
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.xhiyhizhi
|
BC::Operator::Elastic::Expression |
3D Corner |
[prefix].type.ylozlo
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.ylozhi
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.yhizlo
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.yhizhi
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.zloxlo
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.zloxhi
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.zhixlo
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.zhixhi
|
BC::Operator::Elastic::Expression |
3D Edge |
[prefix].type.xloylo
|
BC::Operator::Elastic::Expression |
3D Edge / 2D Corner |
[prefix].type.xloyhi
|
BC::Operator::Elastic::Expression |
3D Edge / 2D Corner |
[prefix].type.xhiylo
|
BC::Operator::Elastic::Expression |
3D Edge / 2D Corner |
[prefix].type.xhiyhi
|
BC::Operator::Elastic::Expression |
3D Edge / 2D Corner |
[prefix].type.xlo
|
BC::Operator::Elastic::Expression |
3D Face 2D Edge |
[prefix].type.xhi
|
BC::Operator::Elastic::Expression |
3D Face 2D Edge |
[prefix].type.ylo
|
BC::Operator::Elastic::Expression |
3D Face 2D Edge |
[prefix].type.yhi
|
BC::Operator::Elastic::Expression |
3D Face 2D Edge |
[prefix].type.zlo
|
BC::Operator::Elastic::Expression |
3D Face |
[prefix].type.zhi
|
BC::Operator::Elastic::Expression |
3D Face |
[prefix].type
|
BC::Operator::Elastic::TensionTest |
Tension test type. (Only option right now is uniaxial_stress_clamp ) |
[prefix].disp
|
BC::Operator::Elastic::TensionTest |
Applied displacement (can be interpolator) |
[prefix].trac
|
BC::Operator::Elastic::TensionTest |
Applied traction (can be interpolator) |
ic.n
|
IC::Affine |
Normal vector for hyperplane |
ic.alpha
|
IC::Affine |
Value of the field on the positive side of the hyperplane |
[prefix].filename
|
IC::BMP |
BMP filename. |
[prefix].fit
|
IC::BMP |
How to fit. (options: stretch, fitheight, fitwidth) |
[prefix].channel
|
IC::BMP |
Color channel to use (options: r, R, g, G, b, B) |
[prefix].min
|
IC::BMP |
Scaling value - minimum (default: 0.0) |
[prefix].max
|
IC::BMP |
Scaling value - maximum (default: 255.0) |
[prefix].value
|
IC::Constant |
Array of constant values. The number of values should equal either 1 or N where N is the number of fab components |
ic.center
|
IC::Cuboid |
Coordinates (X Y Z) of the center of the square/cube. |
ic.length
|
IC::Cuboid |
Lenth of the square/cube edges |
[prefix].thickness
|
IC::DoubleNotch |
Thickness of the notches |
[prefix].width
|
IC::DoubleNotch |
Width of the notches |
[prefix].x0
|
IC::DoubleNotch |
Center of the notches |
[prefix].L
|
IC::DoubleNotch |
Length of the notches |
[prefix].x0
|
IC::Ellipse |
Coorinates of ellipse center |
[prefix].eps
|
IC::Ellipse |
Diffuse boundary thickness |
[prefix].A
|
IC::Ellipse |
DxD square matrix defining an ellipse. |
[prefix].a
|
IC::Ellipse |
If A is not defined, then assume a sphere with radius a |
[prefix].number_of_inclusions
|
IC::Ellipse |
Number of ellipses |
[prefix].center
|
IC::Ellipse |
center of the ellipse |
[prefix].A
|
IC::Ellipse |
either a vector containing ellipse radii, or a matrix defining the ellipse |
[prefix].A
|
IC::Ellipse |
Same |
[prefix].radius
|
IC::Ellipse |
Array of radii [depricated] |
[prefix].eps
|
IC::Ellipse |
Regularization for smooth boundary |
[prefix].invert
|
IC::Ellipse |
Flip the inside and the outside |
[prefix].center
|
IC::Ellipsoid |
Center of the ellipse \(\mathbf{x}_0\) |
[prefix].A
|
IC::Ellipsoid |
Matrix defining elipse radii and orientation |
[prefix].radius
|
IC::Ellipsoid |
“Vector of radii (use instead of A)” |
[prefix].eps
|
IC::Ellipsoid |
Mollifying value for erf |
[prefix].in_value
|
IC::Ellipsoid |
Value of field inside ellipse (default: 0) |
[prefix].out_value
|
IC::Ellipsoid |
Value of field outside ellipse (default: 1) |
[prefix].mollifier
|
IC::Ellipsoid |
Type of mollifier to use (options: dirac, [gaussian]) |
[prefix].coord
|
IC::Expression |
coordinate system to use: “cartesian” (for x,y,z,t) and
“polar” (for r, theta, z, t) |
[prefix].number_of_inclusions
|
IC::Laminate |
How many laminates (MUST be greater than or equal to 1). Default = 1 |
[prefix].center
|
IC::Laminate |
(x,y,[z]) values for the center point of the laminate |
[prefix].thickness
|
IC::Laminate |
thickness of the laminate |
[prefix].orientation
|
IC::Laminate |
Vector normal to the interface of the laminate |
[prefix].eps
|
IC::Laminate |
Diffuse thickness |
[prefix].mollifier
|
IC::Laminate |
Type of mollifer to use (options: dirac, [gaussian]) |
[prefix].singlefab
|
IC::Laminate |
Switch to mode where only one component is used. |
[prefix].invert
|
IC::Laminate |
Take the complement of the laminate |
[prefix].center
|
IC::Notch |
Center of notch |
[prefix].orientation
|
IC::Notch |
Vector describing notch orientation |
[prefix].thickness
|
IC::Notch |
Thickness of notch |
[prefix].length
|
IC::Notch |
Length of notch |
[prefix].radius
|
IC::Notch |
Radius of notch ends |
[prefix].eps
|
IC::Notch |
Magnitude of mollifier |
[prefix].mollifier
|
IC::Notch |
|
[prefix].wave_numbers
|
IC::PerturbedInterface |
Wave numbers |
[prefix].wave_amplitudes
|
IC::PerturbedInterface |
Wave amplitudes |
[prefix].normal
|
IC::PerturbedInterface |
Which axis is normal to the interface (x,y,z) |
[prefix].offset
|
IC::PerturbedInterface |
Interface offset from origin |
[prefix].reverse
|
IC::PerturbedInterface |
If true, flip the interface (default:false) |
[prefix].mollifier
|
IC::PerturbedInterface |
Mollifier (options: dirac, [gaussian]) |
[prefix].eps
|
IC::PerturbedInterface |
Magnitude of mollifier |
[prefix].nspheres
|
IC::PS |
|
[prefix].matrix
|
IC::PS |
|
[prefix].inclusion
|
IC::PS |
|
[prefix].eps
|
IC::PSRead |
Diffuseness of the sphere boundary |
[prefix].filename
|
IC::PSRead |
Location of .xyzr file |
[prefix].radius
|
IC::Sphere |
Radius of the sphere |
[prefix].center
|
IC::Sphere |
Vector location of the sphere center |
[prefix].inside
|
IC::Sphere |
Value of the field inside the sphere |
[prefix].outside
|
IC::Sphere |
Value of the field outside teh sphere |
[prefix].type
|
IC::Sphere |
Type - can be cylinder oriented along the x, y, z directions or full sphere. |
[prefix].nr
|
IC::Trig |
|
[prefix].ni
|
IC::Trig |
|
[prefix].dim
|
IC::Trig |
|
[prefix].alpha
|
IC::Trig |
|
[prefix].xs
|
IC::TabulatedInterface |
|
[prefix].ys
|
IC::TabulatedInterface |
|
[prefix].number_of_grains
|
IC::Voronoi |
|
[prefix].alpha
|
IC::Voronoi |
|
[prefix].seed
|
IC::Voronoi |
|
max_step
|
Integrator |
Number of iterations before ending |
stop_time
|
Integrator |
Simulation time before ending |
timestep
|
Integrator |
Nominal timestep on amrlev = 0 |
restart
|
Integrator |
Name of restart file to READ from |
restart_cell
|
Integrator |
Name of cell-fab restart file to read from |
restart_node
|
Integrator |
Name of node-fab restart file to read from |
ignore
|
Integrator |
Space-separated list of entries to ignore |
amr.regrid_int
|
Integrator |
Regridding interval in step numbers |
amr.base_regrid_int
|
Integrator |
Regridding interval based on coarse level only |
amr.plot_int
|
Integrator |
Interval (in timesteps) between plotfiles |
amr.plot_dt
|
Integrator |
Interval (in simulation time) between plotfiles |
amr.plot_file
|
Integrator |
Output file |
amr.cell.all
|
Integrator |
Turn on to write all output in cell fabs (default: off) |
amr.cell.any
|
Integrator |
Turn off to prevent any cell based output (default: on) |
amr.node.all
|
Integrator |
Turn on to write all output in node fabs (default: off) |
amr.node.any
|
Integrator |
Turn off to prevent any node based output (default: on) |
amr.max_plot_level
|
Integrator |
Specify a maximum level of refinement for output files |
amr.nsubsteps
|
Integrator |
Number of substeps to take on each level (default: 2) |
amr.nsubsteps
|
Integrator |
Number of substeps to take on each level (set all levels to this value) |
amr.thermo.int
|
Integrator |
Default: integrate every time.
Integration interval (1) |
amr.thermo.plot_int
|
Integrator |
Interval (in timesteps) between writing |
amr.thermo.plot_dt
|
Integrator |
Interval (in simulation time) between writing |
explicitmesh.on
|
Integrator |
Use explicit mesh instead of AMR |
pf.eps
|
Integrator::Flame |
Burn width thickness |
pf.kappa
|
Integrator::Flame |
Interface energy param |
pf.gamma
|
Integrator::Flame |
Scaling factor for mobility |
pf.lambda
|
Integrator::Flame |
Chemical potential multiplier |
pf.w1
|
Integrator::Flame |
Unburned rest energy |
pf.w12
|
Integrator::Flame |
Barrier energy |
pf.w0
|
Integrator::Flame |
Burned rest energy |
pf.P
|
Integrator::Flame |
Pressure [UNITS?] |
pf.r_ap
|
Integrator::Flame |
AP Power law multiplier |
pf.n_ap
|
Integrator::Flame |
AP Power law exponent |
pf.r_htpb
|
Integrator::Flame |
HTPB Power law multiplier |
pf.n_htpb
|
Integrator::Flame |
HTPB Power law exponent |
pf.r_comb
|
Integrator::Flame |
Combination power law multiplier |
pf.n_comb
|
Integrator::Flame |
Combination power law exponent |
pf.eta.bc
|
Integrator::Flame |
See BC::Constant |
eta.ic.type
|
Integrator::Flame |
IC type - [packedspheres,laminate] - see classes for more information |
thermal.on
|
Integrator::Flame |
These parameters are for the Thermal transport model
Whether to use the thermal model |
thermal.rho1
|
Integrator::Flame |
Density (before) |
thermal.rho0
|
Integrator::Flame |
Density (after) |
thermal.ka
|
Integrator::Flame |
Thermal conductivity (before and after) |
thermal.kh
|
Integrator::Flame |
Thermal conductivity (before and after) |
thermal.k0
|
Integrator::Flame |
Thermal conductivity (before and after) |
thermal.cp1
|
Integrator::Flame |
Specific heat (before and after) |
thermal.cp0
|
Integrator::Flame |
Specific heat (before and after) |
thermal.delA
|
Integrator::Flame |
Thermal flux of each material |
thermal.delH
|
Integrator::Flame |
Thermal flux of each material |
amr.refinement_criterion
|
Integrator::Flame |
Refinement criterion for eta field |
amr.refinement_criterion_temp
|
Integrator::Flame |
Refinement criterion for temperature field |
amr.refinament_restriction
|
Integrator::Flame |
Eta value to restrict the refinament for the temperature field |
phi.ic.type
|
Integrator::Flame |
IC type (psread, laminate, constant) |
model_ap
|
Integrator::Flame |
|
model_htpb
|
Integrator::Flame |
|
crack.ic.type
|
Integrator::Fracture |
|
crack.ic.notch
|
Integrator::Fracture |
|
crack.ic.ellipsoid
|
Integrator::Fracture |
|
elastic.solver
|
Integrator::Fracture |
Solver::Nonlocal::Linear<brittle_fracture_model_type_test> solver(op_b); |
[prefix].heat.alpha
|
Integrator::HeatConduction |
Diffusion coefficient [1.0] |
[prefix].heat.refinement_threshold
|
Integrator::HeatConduction |
Criterion for mesh refinement [0.01] |
[prefix].ic.type
|
Integrator::HeatConduction |
Initial condition type ([sphere], constant, expression) |
[prefix].bc.temp
|
Integrator::HeatConduction |
BC::Constant parameters with prefix bc.temp |
[prefix].nmodels
|
Integrator::Mechanics |
Number of elastic model varieties |
[prefix].eta_ref_threshold
|
Integrator::Mechanics |
Refinement threshold for eta field |
[prefix].ref_threshold
|
Integrator::Mechanics |
Refinement threshold for strain gradient |
[prefix].ic.type
|
Integrator::Mechanics |
Read IC type for the eta field |
[prefix].eta.reset_on_regrid
|
Integrator::Mechanics |
Whether to re-initialize eta when re-gridding occurs.
Default is false unless eta ic is set, then default is.
true. |
[prefix].psi.ic.type
|
Integrator::Mechanics |
Read IC type for the eta field |
[prefix].psi.reset_on_regrid
|
Integrator::Mechanics |
Whether to re-initialize psi when re-gridding occurs.
Default is false unless a psi ic is set, then default is
true. |
[prefix].pf.number_of_grains
|
Integrator::PhaseFieldMicrostructure |
Number of grain fields (may be more if using different IC) |
[prefix].pf.M
|
Integrator::PhaseFieldMicrostructure |
Mobility |
[prefix].pf.mu
|
Integrator::PhaseFieldMicrostructure |
Phase field \(\mu\) |
[prefix].pf.gamma
|
Integrator::PhaseFieldMicrostructure |
Phase field \(\gamma\) |
[prefix].pf.sigma0
|
Integrator::PhaseFieldMicrostructure |
Initial GB energy if not using GB anisotropy |
[prefix].pf.l_gb
|
Integrator::PhaseFieldMicrostructure |
Mobility |
[prefix].pf.elastic_df
|
Integrator::PhaseFieldMicrostructure |
Determine whether to use elastic driving force |
[prefix].pf.elastic_mult
|
Integrator::PhaseFieldMicrostructure |
Multiplier of elastic energy |
[prefix].pf.elastic_threshold
|
Integrator::PhaseFieldMicrostructure |
Elastic threshold (\(\phi_0\)) |
[prefix].amr.max_level
|
Integrator::PhaseFieldMicrostructure |
Maximum AMR level |
[prefix].amr.ref_threshold
|
Integrator::PhaseFieldMicrostructure |
Phase field refinement threshold |
[prefix].mechanics.tstart
|
Integrator::PhaseFieldMicrostructure |
Elasticity |
[prefix].mechanics.model
|
Integrator::PhaseFieldMicrostructure |
By default, read in the model specified by “mechanics.model” |
[prefix].lagrange.on
|
Integrator::PhaseFieldMicrostructure |
Lagrange multiplier method for enforcing volumes
Turn on |
[prefix].lagrange.lambda
|
Integrator::PhaseFieldMicrostructure |
Lagrange multiplier value |
[prefix].lagrange.vol0
|
Integrator::PhaseFieldMicrostructure |
Prescribed volume |
[prefix].lagrange.tstart
|
Integrator::PhaseFieldMicrostructure |
Time to start enforcing Lagrange multipler |
[prefix].anisotropy.on
|
Integrator::PhaseFieldMicrostructure |
Anisotropic grain boundary energy parameters
Turn on |
[prefix].anisotropy.beta
|
Integrator::PhaseFieldMicrostructure |
Regularization param |
[prefix].anisotropy.tstart
|
Integrator::PhaseFieldMicrostructure |
Time to turn on anisotropy |
[prefix].anisotropy.timestep
|
Integrator::PhaseFieldMicrostructure |
Modify timestep when turned on |
[prefix].anisotropy.plot_int
|
Integrator::PhaseFieldMicrostructure |
Modify plot_int when turned on |
[prefix].anisotropy.plot_dt
|
Integrator::PhaseFieldMicrostructure |
Modify plot_dt when turned on |
[prefix].anisotropy.thermo_int
|
Integrator::PhaseFieldMicrostructure |
Modify thermo int when turned on |
[prefix].anisotropy.thermo_plot_int
|
Integrator::PhaseFieldMicrostructure |
Modify thermo plot int when turned on |
[prefix].anisotropy.elastic_int
|
Integrator::PhaseFieldMicrostructure |
Frequency of elastic calculation |
[prefix].anisotropy.regularization
|
Integrator::PhaseFieldMicrostructure |
Type of regularization to use |
[prefix].anisotropy.gb_type
|
Integrator::PhaseFieldMicrostructure |
Set the anisotropic GB model
Type of GB energy to use |
[prefix].bc.eta.type
|
Integrator::PhaseFieldMicrostructure |
Type (constnat) |
[prefix].ic.type
|
Integrator::PhaseFieldMicrostructure |
IC Type |
water.on
|
Integrator::PolymerDegradation |
|
water.diffusivity
|
Integrator::PolymerDegradation |
Diffusivity |
water.refinement_threshold
|
Integrator::PolymerDegradation |
AMR refinement criterion |
water.ic_type
|
Integrator::PolymerDegradation |
|
water.ic.value
|
Integrator::PolymerDegradation |
|
water.ic.bc
|
Integrator::PolymerDegradation |
|
crack.ic.type
|
Integrator::SutureCrack |
|
crack.ic.notch
|
Integrator::SutureCrack |
|
[prefix].hc
|
Integrator::ThermoElastic |
|
[prefix].el
|
Integrator::ThermoElastic |
|
[prefix].alpha
|
Integrator::ThermoElastic |
|
[prefix].model
|
Integrator::TopOp |
|
[prefix].psi.ic.type
|
Integrator::TopOp |
Read IC type for the eta field |
[prefix].eta_ref_threshold
|
Integrator::TopOp |
|
[prefix].alpha
|
Integrator::TopOp |
|
[prefix].beta
|
Integrator::TopOp |
|
[prefix].gamma
|
Integrator::TopOp |
|
[prefix].L
|
Integrator::TopOp |
|
[prefix].volume0frac
|
Integrator::TopOp |
|
[prefix].volume0
|
Integrator::TopOp |
|
[prefix].lambda
|
Integrator::TopOp |
|
[prefix].type
|
Integrator::Base::Mechanics |
|
[prefix].time_evolving
|
Integrator::Base::Mechanics |
|
[prefix].solver
|
Integrator::Base::Mechanics |
Read parameters for Solver::Nonlocal::Newton solver |
[prefix].viscous.mu
|
Integrator::Base::Mechanics |
|
[prefix].bc.type
|
Integrator::Base::Mechanics |
Determine the boundary condition type (contant, tension_test, expression) |
[prefix].print_model
|
Integrator::Base::Mechanics |
|
[prefix].rhs.type
|
Integrator::Base::Mechanics |
Initializer for RHS |
[prefix].interval
|
Integrator::Base::Mechanics |
Timestep interval for elastic solves (default - solve every time) |
[prefix].max_coarsening_level
|
Integrator::Base::Mechanics |
Maximum multigrid coarsening level (default - none, maximum coarsening) |
[prefix].print_residual
|
Integrator::Base::Mechanics |
|
[prefix].elastic_ref_threshold
|
Integrator::Base::Mechanics |
Whether to refine based on elastic solution |
[prefix].zero_out_displacement
|
Integrator::Base::Mechanics |
Set this to true to zero out the displacement before each solve.
(This is a temporary fix - we need to figure out why this is needed.) |
[prefix].G_c
|
Model::Interface::Crack::Constant |
|
[prefix].zeta
|
Model::Interface::Crack::Constant |
|
[prefix].mobility
|
Model::Interface::Crack::Constant |
|
[prefix].threshold
|
Model::Interface::Crack::Constant |
|
[prefix].gtype
|
Model::Interface::Crack::Constant |
|
[prefix].wtype
|
Model::Interface::Crack::Constant |
|
[prefix].exponent
|
Model::Interface::Crack::Constant |
|
[prefix].Gc0
|
Model::Interface::Crack::Sin |
|
[prefix].Gc1
|
Model::Interface::Crack::Sin |
|
[prefix].theta0
|
Model::Interface::Crack::Sin |
|
[prefix].zeta
|
Model::Interface::Crack::Sin |
|
[prefix].mobility
|
Model::Interface::Crack::Sin |
|
[prefix].threshold
|
Model::Interface::Crack::Sin |
|
[prefix].gtype
|
Model::Interface::Crack::Sin |
|
[prefix].wtype
|
Model::Interface::Crack::Sin |
|
[prefix].exponent
|
Model::Interface::Crack::Sin |
|
[prefix].theta0
|
Model::Interface::GB::AbsSin |
|
[prefix].sigma0
|
Model::Interface::GB::AbsSin |
convert degrees into radians |
[prefix].sigma1
|
Model::Interface::GB::AbsSin |
|
[prefix].filename
|
Model::Interface::GB::Read |
|
[prefix].theta0
|
Model::Interface::GB::Sin |
|
[prefix].sigma0
|
Model::Interface::GB::Sin |
convert degrees into radians |
[prefix].sigma1
|
Model::Interface::GB::Sin |
|
[prefix].n
|
Model::Interface::GB::Sin |
|
[prefix].theta0
|
Model::Interface::GB::SH |
|
[prefix].phi0
|
Model::Interface::GB::SH |
convert degrees into radians |
[prefix].sigma0
|
Model::Interface::GB::SH |
convert degrees into radians |
[prefix].sigma1
|
Model::Interface::GB::SH |
|
[prefix].regularization
|
Model::Interface::GB::SH |
|
[prefix].F0
|
Model::Solid::Affine::Cubic |
Eigenstrain |
[prefix].C11
|
Model::Solid::Affine::CubicDegradable |
Original, undegraded \(\mathbb{C}_{11}\) |
[prefix].C12
|
Model::Solid::Affine::CubicDegradable |
Original, undegraded \(\mathbb{C}_{12}\) |
[prefix].C44
|
Model::Solid::Affine::CubicDegradable |
Original, undegraded \(\mathbb{C}_{44}\) |
[prefix].phi1
|
Model::Solid::Affine::CubicDegradable |
Bunge Euler angles \(\phi_1\) |
[prefix].Phi
|
Model::Solid::Affine::CubicDegradable |
Bunge Euler angles \(\Phi\) |
[prefix].phi2
|
Model::Solid::Affine::CubicDegradable |
Bunge Euler angles \(\phi_2\) |
[prefix].F0
|
Model::Solid::Affine::Hexagonal |
Eigenstrain |
[prefix].lame
|
Model::Solid::Affine::Isotropic |
Lame modulus |
[prefix].shear
|
Model::Solid::Affine::Isotropic |
Shear modulus |
[prefix].E
|
Model::Solid::Affine::Isotropic |
Elastic modulus |
[prefix].nu
|
Model::Solid::Affine::Isotropic |
Poisson’s ratio |
[prefix].E
|
Model::Solid::Affine::Isotropic |
|
[prefix].shear
|
Model::Solid::Affine::Isotropic |
|
[prefix].E
|
Model::Solid::Affine::Isotropic |
|
[prefix].lame
|
Model::Solid::Affine::Isotropic |
|
[prefix].nu
|
Model::Solid::Affine::Isotropic |
|
[prefix].shear
|
Model::Solid::Affine::Isotropic |
|
[prefix].lambda
|
Model::Solid::Affine::Isotropic |
|
[prefix].nu
|
Model::Solid::Affine::Isotropic |
|
[prefix].bulk
|
Model::Solid::Affine::Isotropic |
|
[prefix].shear
|
Model::Solid::Affine::Isotropic |
|
[prefix].F0
|
Model::Solid::Affine::Isotropic |
Eigendeformation gradient |
[prefix].lame
|
Model::Solid::Affine::IsotropicDegradable |
|
[prefix].shear
|
Model::Solid::Affine::IsotropicDegradable |
|
[prefix].E
|
Model::Solid::Affine::IsotropicDegradable |
|
[prefix].nu
|
Model::Solid::Affine::IsotropicDegradable |
|
[prefix].lambda
|
Model::Solid::Affine::J2Plastic |
|
[prefix].mu
|
Model::Solid::Affine::J2Plastic |
|
[prefix].E
|
Model::Solid::Affine::J2Plastic |
|
[prefix].nu
|
Model::Solid::Affine::J2Plastic |
|
[prefix].yield
|
Model::Solid::Affine::J2Plastic |
|
[prefix].hardening
|
Model::Solid::Affine::J2Plastic |
|
[prefix].theta
|
Model::Solid::Affine::J2Plastic |
|
[prefix].sigma0
|
Model::Solid::Affine::J2 |
J2 Yield criterion |
[prefix].lambda
|
Model::Solid::Affine::J2PlasticDegradable |
|
[prefix].mu
|
Model::Solid::Affine::J2PlasticDegradable |
|
[prefix].E
|
Model::Solid::Affine::J2PlasticDegradable |
|
[prefix].nu
|
Model::Solid::Affine::J2PlasticDegradable |
|
[prefix].yield
|
Model::Solid::Affine::J2PlasticDegradable |
|
[prefix].hardening
|
Model::Solid::Affine::J2PlasticDegradable |
|
[prefix].theta
|
Model::Solid::Affine::J2PlasticDegradable |
|
[prefix].mu
|
Model::Solid::Elastic::NeoHookean |
|
[prefix].kappa
|
Model::Solid::Elastic::NeoHookean |
|
[prefix].C11
|
Model::Solid::Elastic::PseudoLinearCubic |
Elastic constant (default: 1.68) |
[prefix].C12
|
Model::Solid::Elastic::PseudoLinearCubic |
Elastic constant (default: 1.21) |
[prefix].C44
|
Model::Solid::Elastic::PseudoLinearCubic |
Elastic constant (default: 0.75) |
[prefix].phi1
|
Model::Solid::Elastic::PseudoLinearCubic |
Bunge Euler angle \(\phi_1\) |
[prefix].Phi
|
Model::Solid::Elastic::PseudoLinearCubic |
Bunge Euler angle \(\Phi\) |
[prefix].phi2
|
Model::Solid::Elastic::PseudoLinearCubic |
Bunge Euler angle \(\phi_2\) |
[prefix].C11
|
Model::Solid::Linear::Cubic |
Elastic constant (default: 1.68) |
[prefix].C12
|
Model::Solid::Linear::Cubic |
Elastic constant (default: 1.21) |
[prefix].C44
|
Model::Solid::Linear::Cubic |
Elastic constant (default: 0.75) |
[prefix].phi1
|
Model::Solid::Linear::Cubic |
Bunge Euler angle \(\phi_1\) |
[prefix].Phi
|
Model::Solid::Linear::Cubic |
Bunge Euler angle \(\Phi\) |
[prefix].phi2
|
Model::Solid::Linear::Cubic |
Bunge Euler angle \(\phi_2\) |
[prefix].C11
|
Model::Solid::Linear::Hexagonal |
Elastic constant |
[prefix].C12
|
Model::Solid::Linear::Hexagonal |
Elastic constant |
[prefix].C13
|
Model::Solid::Linear::Hexagonal |
Elastic constant |
[prefix].C33
|
Model::Solid::Linear::Hexagonal |
Elastic constant |
[prefix].C44
|
Model::Solid::Linear::Hexagonal |
Elastic constant |
[prefix].phi1
|
Model::Solid::Linear::Hexagonal |
Bunge Euler angle \(\phi_1\) |
[prefix].Phi
|
Model::Solid::Linear::Hexagonal |
Bunge Euler angle \(\Phi\) |
[prefix].phi2
|
Model::Solid::Linear::Hexagonal |
Bunge Euler angle \(\phi_2\) |
[prefix].planestress
|
Model::Solid::Linear::Isotropic |
Whether or not to use the
plane stress
approximation. |
[prefix].lame
|
Model::Solid::Linear::Isotropic |
Lame parameter |
[prefix].shear
|
Model::Solid::Linear::Isotropic |
Shear modulus (redundant with “mu”) |
[prefix].lambda
|
Model::Solid::Linear::Isotropic |
Lame parameter |
[prefix].mu
|
Model::Solid::Linear::Isotropic |
Shear modulus (redundant with “shear”) |
[prefix].E
|
Model::Solid::Linear::Isotropic |
Elastic modulus |
[prefix].nu
|
Model::Solid::Linear::Isotropic |
Poisson’s ratio |
[prefix].E1
|
Model::Solid::Linear::IsotropicDegradableTanh |
|
[prefix].E2
|
Model::Solid::Linear::IsotropicDegradableTanh |
|
[prefix].Tg
|
Model::Solid::Linear::IsotropicDegradableTanh |
|
[prefix].Ts
|
Model::Solid::Linear::IsotropicDegradableTanh |
|
[prefix].nu
|
Model::Solid::Linear::IsotropicDegradableTanh |
|
[prefix].temp
|
Model::Solid::Linear::IsotropicDegradableTanh |
|
[prefix].lambda
|
Model::Solid::Linear::IsotropicDegradable |
|
[prefix].mu
|
Model::Solid::Linear::IsotropicDegradable |
|
[prefix].E
|
Model::Solid::Linear::IsotropicDegradable |
|
[prefix].nu
|
Model::Solid::Linear::IsotropicDegradable |
|
[prefix].str
|
Numeric::Interpolator::Linear |
Interpolator string used when Parsed from queryclass. |
[prefix].small
|
Operator::Elastic |
|
[prefix].max_iter
|
Solver::Nonlocal::Linear |
Max number of iterations to perform before erroring out |
[prefix].bottom_max_iter
|
Solver::Nonlocal::Linear |
Max number of iterations on the bottom solver |
[prefix].max_fmg_iter
|
Solver::Nonlocal::Linear |
Max number of F-cycle iterations to perform |
[prefix].fixed_iter
|
Solver::Nonlocal::Linear |
Number of fixed iterations to perform before exiting gracefully |
[prefix].verbose
|
Solver::Nonlocal::Linear |
Verbosity of the solver (1-5) |
[prefix].pre_smooth
|
Solver::Nonlocal::Linear |
Number of smoothing operations before bottom solve (2) |
[prefix].post_smooth
|
Solver::Nonlocal::Linear |
Number of smoothing operations after bottom solve (2) |
[prefix].final_smooth
|
Solver::Nonlocal::Linear |
Number of final smoothing operations when smoother is used as bottom solver (8) |
[prefix].bottom_smooth
|
Solver::Nonlocal::Linear |
Additional smoothing after bottom CG solver (0) |
[prefix].bottom_solver
|
Solver::Nonlocal::Linear |
The method that is used for the multigrid bottom solve (cg, bicgstab, smoother) |
[prefix].bottom_tol_rel
|
Solver::Nonlocal::Linear |
Relative tolerance on bottom solver |
[prefix].bottom_tol_abs
|
Solver::Nonlocal::Linear |
Absolute tolerance on bottom solver |
[prefix].tol_rel
|
Solver::Nonlocal::Linear |
Relative tolerance |
[prefix].tol_abs
|
Solver::Nonlocal::Linear |
Absolute tolerance |
[prefix].omega
|
Solver::Nonlocal::Linear |
Omega (used in gauss-seidel solver) |
[prefix].average_down_coeffs
|
Solver::Nonlocal::Linear |
Whether to average down coefficients or use the ones given.
(Setting this to true is important for fracture.) |
[prefix].normalize_ddw
|
Solver::Nonlocal::Linear |
Whether to normalize DDW when calculating the diagonal.
This is primarily used when DDW is near-singular - like when there
is a “void” region or when doing phase field fracture. |
[prefix].dump_on_fail
|
Solver::Nonlocal::Linear |
[false]
If set to true, output diagnostic multifab information
whenever the MLMG solver fails to converge.
(Note: you must also set amrex.signalhandling=0
and amrex.throw_exception=1 for this to work.) |
[prefix].abort_on_fail
|
Solver::Nonlocal::Linear |
[true]
If set to false, MLMG will not die if convergence criterion
is not reached.
(Note: you must also set amrex.signalhandling=0
and amrex.throw_exception=1 for this to work.) |
[prefix].nriters
|
Solver::Nonlocal::Newton |
Number of newton-raphson iterations. |
[prefix].nrtolerance
|
Solver::Nonlocal::Newton |
|