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Runtime Parameters Documentation for FLASH Release 3.2
Simulation/SimulationMain/Blast2
refine_var_1 [STRING] ["pres"]
Valid Values: Unconstrained
first variable on which to refine
refine_var_2 [STRING] ["dens"]
Valid Values: Unconstrained
second variable on which to refine
sim_pLeft [REAL] [1000.]
Valid Values: Unconstrained
Pressure in the left part of the grid
sim_pMid [REAL] [0.01]
Valid Values: Unconstrained
Pressure in the middle of the grid
sim_pRight [REAL] [100.]
Valid Values: Unconstrained
Pressure in the righ part of the grid
sim_posnL [REAL] [0.1]
Valid Values: Unconstrained
Point of intersection between the left shock plane and x-axis
sim_posnR [REAL] [0.9]
Valid Values: Unconstrained
Point of intersection between the right shock plane and the x-axis
sim_rhoLeft [REAL] [1.]
Valid Values: Unconstrained
Density in the left part of the grid
sim_rhoMid [REAL] [1.]
Valid Values: Unconstrained
Density in the middle of the grid
sim_rhoRight [REAL] [1.]
Valid Values: Unconstrained
Density in the right part of the grid
sim_uLeft [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the left part of the grid
sim_uMid [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the middle of the grid
sim_uRight [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the right part of the grid
sim_xangle [REAL] [0.]
Valid Values: Unconstrained
Angle made by diaphragm normal w/x-axis (deg)
sim_yangle [REAL] [90.]
Valid Values: Unconstrained
Angle made by diaphragm normal w/y-axis (deg)
Simulation/SimulationMain/Cellular
noiseAmplitude [REAL] [1.0e-2]
Valid Values: Unconstrained
amplitude of the white noise added to the perturbation
noiseDistance [REAL] [5.0]
Valid Values: Unconstrained
distances above and below r_init get noise added
radiusPerturb [REAL] [25.6]
Valid Values: Unconstrained
distance below which the perturbation is applied
rhoAmbient [REAL] [1.0e7]
Valid Values: 0 to INFTY
density of the cold upstream material
rhoPerturb [REAL] [4.236e7]
Valid Values: Unconstrained
density of the post shock material
tempAmbient [REAL] [2.0e8]
Valid Values: 0 to INFTY
temperature of the cold upstream material
tempPerturb [REAL] [4.423e9]
Valid Values: Unconstrained
temperature of the post shock material
usePseudo1d [BOOLEAN] [FALSE]
.true. for a 1d initial configuration, with the copied along the y and z
directions .false. for a spherical configuration
velxAmbient [REAL] [0.0]
Valid Values: Unconstrained
x-velocity of the cold upstream material
velxPerturb [REAL] [2.876E+08]
Valid Values: Unconstrained
x-velocity of the post shock material
xCenterPerturb [REAL] [0.0]
Valid Values: Unconstrained
xc12 [REAL] [1.0]
Valid Values: 0.0 to 1.0
mass fraction of c12
xhe4 [REAL] [0.0]
Valid Values: 0.0 to 1.0
mass fraction of he4
xo16 [REAL] [0.0]
Valid Values: 0.0 to 1.0
mass fraction of o16
yCenterPerturb [REAL] [0.0]
Valid Values: Unconstrained
zCenterPerturb [REAL] [0.0]
Valid Values: Unconstrained
Simulation/SimulationMain/ConductionDelta
orientation [INTEGER] [1]
Valid Values: 0, 1, 2, 3
1/2/3 -- planar source is oriented along x/y/z axis, 0 --
three-dimensional point source
rho_init [REAL] [1.]
Valid Values: Unconstrained
background density
sim_Q [REAL] [1.0]
Valid Values: Unconstrained
factor used for scaling the initial temperature distribution
sim_tempBackground [REAL] [0.0]
Valid Values: Unconstrained
constant temperature background, the Gaussian peak gets added to this
sim_xctr [REAL] [0.5]
Valid Values: Unconstrained
Temperature peak center X-coordinate
sim_yctr [REAL] [0.5]
Valid Values: Unconstrained
Temperature peak center Y-coordinate
sim_zctr [REAL] [0.5]
Valid Values: Unconstrained
Temperature peak center Z-coordinate
toffset [REAL] [.001]
Valid Values: Unconstrained
time offset for initial condition
Simulation/SimulationMain/DustCollapse
sim_ictr [REAL] [0.5]
Valid Values: Unconstrained
sim_initDens [REAL] [1.]
Valid Values: Unconstrained
sim_initRad [REAL] [0.05]
Valid Values: Unconstrained
sim_jctr [REAL] [0.5]
Valid Values: Unconstrained
sim_kctr [REAL] [0.5]
Valid Values: Unconstrained
sim_tAmbient [REAL] [1.]
Valid Values: Unconstrained
Simulation/SimulationMain/HydroStatic
sim_presRef [REAL] [1.0]
Valid Values: Unconstrained
sim_tempRef [REAL] [300.0]
Valid Values: Unconstrained
sim_xyzRef [REAL] [0.5]
Valid Values: Unconstrained
Simulation/SimulationMain/IsentropicVortex
nx_subint [INTEGER] [10]
Valid Values: Unconstrained
number of subintervals along IAXIS
ny_subint [INTEGER] [10]
Valid Values: Unconstrained
number of subintervals along JAXIS
p_ambient [REAL] [1.0]
Valid Values: Unconstrained
Initial ambient pressure
particle_attribute_1 [STRING] ["pdens"]
Valid Values: Unconstrained
particle_attribute_2 [STRING] ["ptemp"]
Valid Values: Unconstrained
rho_ambient [REAL] [1.0]
Valid Values: Unconstrained
Initial ambient density
u_ambient [REAL] [1.0]
Valid Values: Unconstrained
Initial ambient velocity
v_ambient [REAL] [1.0]
Valid Values: Unconstrained
vortex_strength [REAL] [5.0]
Valid Values: Unconstrained
xctr [REAL] [0.0]
Valid Values: Unconstrained
x coordinate of the vortex center
yctr [REAL] [0.0]
Valid Values: Unconstrained
y coordinate of the vortex center
Simulation/SimulationMain/Jeans
amplitude [REAL] [0.01]
Valid Values: Unconstrained
delta_deref [REAL] [0.01]
Valid Values: Unconstrained
delta_ref [REAL] [0.1]
Valid Values: Unconstrained
lambdax [REAL] [1.]
Valid Values: Unconstrained
lambday [REAL] [1.]
Valid Values: Unconstrained
lambdaz [REAL] [1.]
Valid Values: Unconstrained
p0 [REAL] [1.]
Valid Values: Unconstrained
reference_density [REAL] [1.]
Valid Values: Unconstrained
rho0 [REAL] [1.]
Valid Values: Unconstrained
Simulation/SimulationMain/MacLaurin
angular_velocity [REAL] [0.]
Valid Values: Unconstrained
Dimensionless angular velocity (Omega)
density [REAL] [1.]
Valid Values: -1.0 to INFTY
Spheroid density (rho)): set to -1 to generate spheroid mass of 1.0
eccentricity [REAL] [0.]
Valid Values: 0.0 to 1.0
Eccentricity of the ellipsoid (e)
equatorial_semimajor_axis [REAL] [1.]
Valid Values: 0.1 to INFTY
Equatorial semimajor axis (a1)
nsubzones [INTEGER] [2]
Valid Values: 1 to INFTY
Number of sub-zones per dimension
xctr [REAL] [0.5]
Valid Values: Unconstrained
X-coordinate of center of spheroid
yctr [REAL] [0.5]
Valid Values: Unconstrained
Y-coordinate of center of spheroid
zctr [REAL] [0.5]
Valid Values: Unconstrained
Z-coordinate of center of spheroid
Simulation/SimulationMain/NeiTest
radius [REAL] [0.2]
Valid Values: Unconstrained
rho_ambient [REAL] [2.e-16]
Valid Values: Unconstrained
t_ambient [REAL] [1.e4]
Valid Values: Unconstrained
t_perturb [REAL] [0.2]
Valid Values: Unconstrained
vel_init [REAL] [3.e5]
Valid Values: Unconstrained
xstep [REAL] [1.5e7]
Valid Values: Unconstrained
Simulation/SimulationMain/Orbit
ext_field [BOOLEAN] [TRUE]
external field (TRUE) or self-grav (FALSE)?
num_particles [INTEGER] [2]
Valid Values: Unconstrained
ptmass [REAL] [1.]
Valid Values: Unconstrained
point mass if external field
separation [REAL] [1.]
Valid Values: Unconstrained
particle separation (2*radius)
Simulation/SimulationMain/Pancake
MaxParticlePerZone [INTEGER] [10]
Valid Values: Unconstrained
Tfiducial [REAL] [100.0]
Valid Values: Unconstrained
lambda [REAL] [3.0857E24]
Valid Values: Unconstrained
pt_numX [INTEGER] [1]
Valid Values: Unconstrained
pt_numY [INTEGER] [1]
Valid Values: Unconstrained
pt_numZ [INTEGER] [1]
Valid Values: Unconstrained
xangle [REAL] [0.0]
Valid Values: Unconstrained
yangle [REAL] [90.0]
Valid Values: Unconstrained
zcaustic [REAL] [1.0]
Valid Values: Unconstrained
zfiducial [REAL] [100.0]
Valid Values: Unconstrained
Simulation/SimulationMain/PoisParticles
sim_densityThreshold [REAL] [0.85]
Valid Values: Unconstrained
sim_ptMass [REAL] [0.005]
Valid Values: Unconstrained
sim_smlRho [REAL] [1.e-10]
Valid Values: Unconstrained
Simulation/SimulationMain/PoisTest
sim_smlRho [REAL] [1.E-10]
Valid Values: Unconstrained
smallest allowed value of density
Simulation/SimulationMain/RHD_Sod
sim_pLeft [REAL] [1.]
Valid Values: Unconstrained
Pressure in the left part of the grid
sim_pRight [REAL] [0.1]
Valid Values: Unconstrained
Pressure in the righ part of the grid
sim_posn [REAL] [0.5]
Valid Values: Unconstrained
sim_rhoLeft [REAL] [1.]
Valid Values: Unconstrained
Density in the left part of the grid
sim_rhoRight [REAL] [0.125]
Valid Values: Unconstrained
Density in the right part of the grid
sim_uLeft [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the left part of the grid
sim_uRight [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the right part of the grid
sim_vLeft [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the left part of the grid
sim_vRight [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the right part of the grid
sim_wLeft [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the left part of the grid
sim_wRight [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the right part of the grid
sim_xangle [REAL] [0.]
Valid Values: Unconstrained
Angle made by diaphragm normal w/x-axis (deg)
sim_yangle [REAL] [90.]
Valid Values: Unconstrained
Simulation/SimulationMain/SBlast
sim_A1 [REAL] [1.]
Valid Values: 1 to INFTY
Atomic weight in region 2
sim_A2 [REAL] [1.]
Valid Values: 1 to INFTY
sim_AIn [REAL] [1.]
Valid Values: 1 to INFTY
Atomic weight inside the energy source
sim_EIn [REAL] [1.]
Valid Values: 0 to INFTY
Total energy inside the energy source
sim_Z1 [REAL] [1.]
Valid Values: 1 to INFTY
Atomic number in region 1
sim_Z2 [REAL] [1.]
Valid Values: 1 to INFTY
Atomic number in region 2
sim_ZIn [REAL] [1.]
Valid Values: 1 to INFTY
Atomic number inside the energy source
sim_atmos1 [INTEGER] [0]
Valid Values: Unconstrained
sim_atmos2 [INTEGER] [0]
Valid Values: Unconstrained
sim_gamma1 [REAL] [1.4]
Valid Values: 1.1 to INFTY
gamma in region 1
sim_gamma2 [REAL] [1.4]
Valid Values: 1.1 to INFTY
gamma in region 2
sim_gammaIn [REAL] [1.4]
Valid Values: 1.1 to INFTY
gamma inside the energy source
sim_geo [INTEGER] [0]
Valid Values: Unconstrained
specifies the geometry of the problem, not the geometry of the grid
sim_h1 [REAL] [1.]
Valid Values: Unconstrained
Thickness of region 1
sim_ibound [BOOLEAN] [FALSE]
Bounday/Discontinuity present?
sim_p1 [REAL] [1.]
Valid Values: 0 to INFTY
Pressure in region 2
sim_p2 [REAL] [1.]
Valid Values: 0 to INFTY
sim_pIn [REAL] [1.]
Valid Values: 0 to INFTY
Pressure inside the energy source
sim_rIn [REAL] [0.1]
Valid Values: 0 to INFTY
radius of the energy source
sim_rho1 [REAL] [1.]
Valid Values: 0 to INFTY
Density in region 2
sim_rho2 [REAL] [1.]
Valid Values: 0 to INFTY
sim_rhoIn [REAL] [1.]
Valid Values: 0 to INFTY
Density inside the energy source
sim_sh1 [REAL] [1.]
Valid Values: Unconstrained
Scale height in region 2
sim_sh2 [REAL] [1.]
Valid Values: Unconstrained
sim_useE [BOOLEAN] [FALSE]
Use total energy to define energy source
sim_xcIn [REAL] [0.]
Valid Values: Unconstrained
x location of the center of the energy source
sim_ycIn [REAL] [0.]
Valid Values: Unconstrained
y location of the center of the energy source
sim_zcIn [REAL] [0.]
Valid Values: Unconstrained
z location of the center of the energy source
Simulation/SimulationMain/Sedov
sim_expEnergy [REAL] [1.]
Valid Values: Unconstrained
Explosion energy (distributed over 2^dimen central zones)
sim_nsubzones [INTEGER] [7]
Valid Values: Unconstrained
Number of `sub-zones' in cells for applying 1d profile
sim_pAmbient [REAL] [1.E-5]
Valid Values: Unconstrained
Initial ambient pressure
sim_rInit [REAL] [0.05]
Valid Values: Unconstrained
Radial position of inner edge of grid (for 1D)
sim_rhoAmbient [REAL] [1.]
Valid Values: Unconstrained
Initial ambient density
sim_xctr [REAL] [0.5]
Valid Values: Unconstrained
Explosion center coordinates
sim_yctr [REAL] [0.5]
Valid Values: Unconstrained
Explosion center coordinates
sim_zctr [REAL] [0.5]
Valid Values: Unconstrained
Explosion center coordinates
Simulation/SimulationMain/SedovSelfGravity
exp_energy [REAL] [1.]
Valid Values: Unconstrained
Explosion energy (distributed over 2^dimen central zones)
p_ambient [REAL] [1.E-5]
Valid Values: Unconstrained
Initial ambient pressure
r_init [REAL] [0.05]
Valid Values: Unconstrained
Radial position of the inner edge of the grid
rho_ambient [REAL] [1.]
Valid Values: Unconstrained
Initial ambient density
sim_nsubzones [INTEGER] [7]
Valid Values: Unconstrained
Number of `sub-zones' to break cells into for applying 1d profile
t_init [REAL] [0.]
Valid Values: Unconstrained
Initial time since explosion
Simulation/SimulationMain/Sod
sim_pLeft [REAL] [1.]
Valid Values: 0 to INFTY
Pressure in the left part of the grid
sim_pRight [REAL] [0.1]
Valid Values: 0 to INFTY
Pressure in the righ part of the grid
sim_posn [REAL] [0.5]
Valid Values: Unconstrained
sim_rhoLeft [REAL] [1.]
Valid Values: 0 to INFTY
Density in the left part of the grid
sim_rhoRight [REAL] [0.125]
Valid Values: 0 to INFTY
Density in the right part of the grid
sim_uLeft [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the left part of the grid
sim_uRight [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the right part of the grid
sim_xangle [REAL] [0.]
Valid Values: 0 to 360
Angle made by diaphragm normal w/x-axis (deg)
sim_yangle [REAL] [90.]
Valid Values: 0 to 360
Simulation/SimulationMain/SodSpherical
sim_idir [INTEGER] [1]
Valid Values: 1, 2
the direction along which to propagate the shock. sim_idir = 1 is
horizontal. sim_idir = 2 is vertical.
sim_pLeft [REAL] [1.]
Valid Values: Unconstrained
initial pressure on the left side of the interface
sim_pRight [REAL] [0.1]
Valid Values: Unconstrained
initial pressure on the right side of the interface
sim_rhoLeft [REAL] [1.]
Valid Values: Unconstrained
initial density left of the interface
sim_rhoRight [REAL] [0.125]
Valid Values: Unconstrained
initial density right of interface
sim_shockpos [REAL] [0.4]
Valid Values: Unconstrained
distance of the shock plane from y-axis (for sim_idir=1) or x-axis (for
sim_idir=2)
Simulation/SimulationMain/SodStep
nblockx [INTEGER] [4]
Valid Values: Unconstrained
num initial blocks in x dir
nblocky [INTEGER] [4]
Valid Values: Unconstrained
num initial blocks in y dir
nblockz [INTEGER] [1]
Valid Values: Unconstrained
num initial blocks in z dir
sim_pLeft [REAL] [1.]
Valid Values: 0 to INFTY
Pressure in the left part of the grid
sim_pRight [REAL] [0.1]
Valid Values: 0 to INFTY
Pressure in the righ part of the grid
sim_posn [REAL] [0.5]
Valid Values: Unconstrained
sim_rhoLeft [REAL] [1.]
Valid Values: 0 to INFTY
Density in the left part of the grid
sim_rhoRight [REAL] [0.125]
Valid Values: 0 to INFTY
Density in the right part of the grid
sim_stepInDomain [BOOLEAN] [false]
-- whether there is a missing block in the initial domain
sim_uLeft [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the left part of the grid
sim_uRight [REAL] [0.]
Valid Values: Unconstrained
fluid velocity in the right part of the grid
sim_xangle [REAL] [0.]
Valid Values: 0 to 360
Angle made by diaphragm normal w/x-axis (deg)
sim_yangle [REAL] [90.]
Valid Values: 0 to 360
Simulation/SimulationMain/StirTurb
c_ambient [REAL] [1.e0]
Valid Values: Unconstrained
reference sound speed
mach [REAL] [0.3]
Valid Values: Unconstrained
reference mach number
rho_ambient [REAL] [1.e0]
Valid Values: Unconstrained
reference density
Simulation/SimulationMain/WindTunnel
sim_pAmbient [REAL] [1.0]
Valid Values: Unconstrained
sim_rhoAmbient [REAL] [1.4]
Valid Values: Unconstrained
sim_windVel [REAL] [3.0]
Valid Values: Unconstrained
Simulation/SimulationMain/magnetoHD/BlastBS
Bx0 [REAL] [100.]
Valid Values: Unconstrained
Initial magnitude of Bx
Radius [REAL] [0.1]
Valid Values: Unconstrained
Radius
tiny [REAL] [1.e-16]
Valid Values: Unconstrained
Threshold value used for numerical zero
xCtr [REAL] [0.]
Valid Values: Unconstrained
x center of the computational domain
yCtr [REAL] [0.]
Valid Values: Unconstrained
y center of the computational domain
zCtr [REAL] [0.]
Valid Values: Unconstrained
z center of the computatoinal domain
Simulation/SimulationMain/magnetoHD/BrioWu
b_normal [REAL] [0.75]
Valid Values: Unconstrained
Magnetic field normal component
by_left [REAL] [1.]
Valid Values: Unconstrained
by_right [REAL] [-1.]
Valid Values: Unconstrained
bz_left [REAL] [0.]
Valid Values: Unconstrained
bz_right [REAL] [0.]
Valid Values: Unconstrained
p_left [REAL] [1.]
Valid Values: Unconstrained
p_right [REAL] [0.1]
Valid Values: Unconstrained
posn [REAL] [0.5]
Valid Values: Unconstrained
Point of intersection between the shock plane and the x-axis
rho_left [REAL] [1.]
Valid Values: Unconstrained
rho_right [REAL] [0.125]
Valid Values: Unconstrained
rx [REAL] [0.]
Valid Values: Unconstrained
ry [REAL] [1.]
Valid Values: Unconstrained
tiny [REAL] [1.e-16]
Valid Values: Unconstrained
Threshold value used for numerical zero
u_left [REAL] [0.]
Valid Values: Unconstrained
u_right [REAL] [0.]
Valid Values: Unconstrained
v_left [REAL] [0.]
Valid Values: Unconstrained
v_right [REAL] [0.]
Valid Values: Unconstrained
w_left [REAL] [0.]
Valid Values: Unconstrained
w_right [REAL] [0.]
Valid Values: Unconstrained
xangle [REAL] [0.]
Valid Values: Unconstrained
Angle made by diaphragm normal w/x-axis (deg)
xmax [REAL] [1.]
Valid Values: Unconstrained
xmin [REAL] [0.]
Valid Values: Unconstrained
yangle [REAL] [90.]
Valid Values: Unconstrained
Angle made by diaphragm normal w/y-axis (deg)
ymax [REAL] [1.]
Valid Values: Unconstrained
ymin [REAL] [0.]
Valid Values: Unconstrained
Simulation/SimulationMain/magnetoHD/CurrentSheet
B0 [REAL] [1.0]
Valid Values: Unconstrained
Magnitude of By
U0 [REAL] [0.1]
Valid Values: Unconstrained
Amplitude of U (x-velocity)
beta [REAL] [0.2]
Valid Values: Unconstrained
Initial beta plasma
tiny [REAL] [1.e-16]
Valid Values: Unconstrained
Threshold value used for a numerical zero
Simulation/SimulationMain/magnetoHD/FieldLoop
Az_initial [REAL] [0.001]
Valid Values: Unconstrained
Strength of initial z-component of magnetic vector potential
R_fieldLoop [REAL] [0.3]
Valid Values: Unconstrained
Radius of field loop
U_initial [REAL] [2.23606796749979]
Valid Values: Unconstrained
Strength of initial vector fields
rx [REAL] [1.]
Valid Values: Unconstrained
Field loop advection angle = atan(rx/ry)
ry [REAL] [2.]
Valid Values: Unconstrained
tiny [REAL] [1.e-16]
Valid Values: Unconstrained
Threshold value used for numerical zero
velz_initial [REAL] [0.0]
Valid Values: Unconstrained
xCtr [REAL] [1.]
Valid Values: Unconstrained
x center of the computational domain
yCtr [REAL] [0.5]
Valid Values: Unconstrained
y center of the computational domain
zCtr [REAL] [0.0]
Valid Values: Unconstrained
z center of the computatoinal domain
Simulation/SimulationMain/magnetoHD/OrszagTang
tiny [REAL] [1.e-16]
Valid Values: Unconstrained
Threshold value used for numerical zero
Simulation/SimulationMain/magnetoHD/Rotor
Radius [REAL] [0.115]
Valid Values: Unconstrained
Radius
tiny [REAL] [1.e-16]
Valid Values: Unconstrained
Threshold value used for numerical zero
xCtr [REAL] [0.]
Valid Values: Unconstrained
x center of the computational domain
yCtr [REAL] [0.]
Valid Values: Unconstrained
y center of the computational domain
zCtr [REAL] [0.]
Valid Values: Unconstrained
z center of the computatoinal domain
Simulation/SimulationMain/unitTest/Cosmology
eintSwitch [REAL] [0.0]
Valid Values: Unconstrained
Simulation/SimulationMain/unitTest/Eos
eosMode [STRING] ["dens_temp"]
Valid Values: Unconstrained
The Mode for applying Eos
sim_densMax [REAL] [1.e8]
Valid Values: Unconstrained
Initial distribution of density, maximum. Even distribution between
logarithm of min/max.
sim_densMin [REAL] [1.e-2]
Valid Values: Unconstrained
Initial distribution of density, minimum. Even distribution between
logarithm of min/max.
sim_initialMass [INTEGER] [-1]
Valid Values: -1 to INFTY
Distribution of initial mass. -1 to put gradient in SPEC(1) and
SPEC(NSPECIES) 0 to divide evenly throughout SPECIES i to put all mass
on SPECIES i
sim_presMax [REAL] [1.e7]
Valid Values: Unconstrained
Initial distribution of pressure, maximum. Even distribution between
logarithm of min/max
sim_presMin [REAL] [1.e-2]
Valid Values: Unconstrained
Initial distribution of pressure, minimum. Even distribution between
logarithm of min/max
sim_tempMax [REAL] [1.e9]
Valid Values: Unconstrained
Initial distribution of temperature, maximum. Even distribution between
logarithm of min/max
sim_tempMin [REAL] [1.e5]
Valid Values: Unconstrained
Initial distribution of temperature, minimum. Even distribution between
logarithm of min/max
sim_xnMax [REAL] [1.0]
Valid Values: Unconstrained
Initial distribution of a single species, maximum. Even distribution
between logarithm of min/max
sim_xnMin [REAL] [1.e-10]
Valid Values: Unconstrained
Initial distribution of a single species, minimum. Even distribution
between logarithm of min/max
smallt [REAL] [1.E-10]
Valid Values: Unconstrained
Cutoff value for temperature
Simulation/SimulationMain/unitTest/Gravity/Poisson
sim_subSample [INTEGER] [7]
Valid Values: 1 to 12
Reflects the subsampling philosophy of Multipole. See
physics/Grid/GridSolvers/Multipole/Config/mpole_subSample
Simulation/SimulationMain/unitTest/Gravity/Poisson2
convertToConsvdInMeshInterp [BOOLEAN] [FALSE]
indicates if appropriate variables are converted to conserved form
during propagation within the interpolation routines invoked by
Paramesh. No variables should be converted back and forth in this test.
density [REAL] [10.0]
Valid Values: Unconstrained
discRadius [REAL] [1.0]
Valid Values: Unconstrained
Simulation/SimulationMain/unitTest/Gravity/Poisson3
angular_velocity [REAL] [0.]
Valid Values: Unconstrained
Dimensionless angular velocity (Omega)
density [REAL] [1.]
Valid Values: -1.0 to INFTY
Spheroid density (rho): set to -1 to generate spheroid mass of 1.0
eccentricity [REAL] [0.]
Valid Values: 0.0 to 1.0
Eccentricity of the ellipsoid (e)
equatorial_semimajor_axis [REAL] [1.]
Valid Values: 0.0 to INFTY
Equatorial semimajor axis (a1)
nsubzones [INTEGER] [2]
Valid Values: 1 to INFTY
Number of sub-zones per dimension
pass_tolerance [REAL] [0.015]
Valid Values: 0.00000000000001 to 1.0
Allowed error for testing. 0.015 = 1.5 percent error
xctr [REAL] [0.5]
Valid Values: Unconstrained
X-coordinate of center of spheroid
yctr [REAL] [0.5]
Valid Values: Unconstrained
Y-coordinate of center of spheroid
zctr [REAL] [0.5]
Valid Values: Unconstrained
Z-coordinate of center of spheroid
Simulation/SimulationMain/unitTest/Gravity/Poisson3_active
angular_velocity [REAL] [0.]
Valid Values: Unconstrained
Dimensionless angular velocity (Omega)
density [REAL] [1.]
Valid Values: -1.0 to INFTY
Spheroid density (rho): set to -1 to generate spheroid mass of 1.0
eccentricity [REAL] [0.]
Valid Values: 0.0 to 1.0
Eccentricity of the ellipsoid (e)
equatorial_semimajor_axis [REAL] [1.]
Valid Values: 0.0 to INFTY
Equatorial semimajor axis (a1)
nsubzones [INTEGER] [2]
Valid Values: 1 to INFTY
Number of sub-zones per dimension
pass_tolerance [REAL] [0.015]
Valid Values: 0.00000000000001 to 1.0
Allowed error for testing. 0.015 = 1.5 percent error
xctr [REAL] [0.5]
Valid Values: Unconstrained
X-coordinate of center of spheroid
yctr [REAL] [0.5]
Valid Values: Unconstrained
Y-coordinate of center of spheroid
zctr [REAL] [0.5]
Valid Values: Unconstrained
Z-coordinate of center of spheroid
Simulation/SimulationMain/unitTest/PFFT_BlktriFD
alpha_x [REAL] [0.]
Valid Values: Unconstrained
waven_x [REAL] [1.]
Valid Values: Unconstrained
waven_y [REAL] [1.]
Valid Values: Unconstrained
waven_z [REAL] [1.]
Valid Values: Unconstrained
Simulation/SimulationMain/unitTest/PFFT_XYperZneuFD
alpha_x [REAL] [0.3141592653589793]
Valid Values: Unconstrained
alpha_y [REAL] [0.3141592653589793]
Valid Values: Unconstrained
waven_x [REAL] [1.]
Valid Values: Unconstrained
waven_y [REAL] [1.]
Valid Values: Unconstrained
waven_z [REAL] [1.]
Valid Values: Unconstrained
Simulation/SimulationMain/unitTest/ParticlesAdvance
sim_maxTolCoeff0 [REAL] [1.0e-8]
Valid Values: Unconstrained
sim_maxTolCoeff1 [REAL] [0.0001]
Valid Values: Unconstrained
sim_maxTolCoeff2 [REAL] [0.01]
Valid Values: Unconstrained
sim_maxTolCoeff3 [REAL] [0.0]
Valid Values: Unconstrained
sim_schemeOrder [INTEGER] [2]
Valid Values: Unconstrained
Simulation/SimulationMain/unitTest/ParticlesAdvance/HomologousPassive
sim_a0 [REAL] [1.0]
Valid Values: Unconstrained
constant component of velocity field factor a(t)
sim_a1 [REAL] [0.1]
Valid Values: Unconstrained
varying part of velocity field factor a(t)
sim_analyticParticlePositions [BOOLEAN] [FALSE]
sim_fakeMapMeshToParticles [BOOLEAN] [TRUE]
sim_p_amb [REAL] [8.e5]
Valid Values: Unconstrained
Gas Pressure: Entire domain receives this ambient parameter
sim_rho_amb [REAL] [0.95e-3]
Valid Values: Unconstrained
Gas Density: Entire domain receives this ambient parameter
sim_seed [REAL] [1.0]
Valid Values: Unconstrained
Random number seed -- NOT USED please ignore
sim_vx_amb [REAL] [0.5]
Valid Values: Unconstrained
Gas x-velocity: Dominant flow velocity throughout domain
sim_vx_multiplier [REAL] [1.0]
Valid Values: Unconstrained
Half of the domain in y has x-velocity multiplied by this value
sim_vx_pert [REAL] [0.1]
Valid Values: Unconstrained
Scales [-1,1] random number in x direction: set to zero for uniform flow
sim_vy_pert [REAL] [0.1]
Valid Values: Unconstrained
Scales [-1,1] random number in y direction: set to zero for uniform flow
sim_vz_pert [REAL] [0.1]
Valid Values: Unconstrained
Scales [-1,1] random number in z direction: set to zero for uniform flow
Research
High-Energy Density Physics
Thermonuclear-Powered Supernovae
Fluid-Structure Interaction
Implicit Solvers
High-Energy Density Physics
Thermonuclear-Powered Supernovae
Fluid-Structure Interaction
Implicit Solvers
FLASH Code
Code Requests
Download
Contributed code
Flash Test downloads
Visualization downloads
Documentation and User Support
Publications
FLASH internal
Code Requests
Download
Contributed code
Flash Test downloads
Visualization downloads
Documentation and User Support
Publications
FLASH internal
The Flash Center for Computational Science is based at the University of Rochester and is supported by U.S. DOE and NSF.