Enzo-E initial conditions¶
[ This page is under development ]
Initial conditions define the initial setup of a problem. They include field values and particle values at the start of the simulation. They can be declared in the parameter file using Cello’s “value” initializer, or specific problem initializers can be invoked, such as “implosion_2d” for the “Implosion test”, or “sedov_array_3d” for a 3D array of Sedov blast waves.
Initialize a sink particle with some mass, position, and velocity, in a background medium of constant density and pressure, possibly with a velocity directed towards the initial position of the sink particle.
Initialize a “BB Test” problem, following the setup described in Federrath et al 2010, ApJ, 713, 269.
Initialize a spherical cloud embedded in a hot wind.
Initialize a spherical collapse test.
Initialize from input HDF5 file. Not implemented yet.
Initialize for a grackle 2.0 chemistry and cooling library test (depreciated).
Initialize an “implosion” test problem.
Initialize an inclined wave test problem. (Primarily used for testing the VL+CT MHD solver).
Initialise sink particles with masses, positions, and velocities read from a text file specified in the parameter file.
"dark"matter particles in either a regular uniform array with one particle per cell, or randomly following the
Initialize fields for the PPML solver for a high-pressure shpere in an anisotropic magnetic field.
"sedov_array_3d"initializer depending on the problem rank.
Initialize a regular 2D array of Sedov blast problems. Used for parallel-scaling studies without load balancing.
Initialize a regular 3D array of Sedov blast problems. Used for parallel-scaling studies without load balancing.
"sedov_random" [ Thomas Bolden ]
Initialize a regular 3D array of Sedov blast problems. Used for parallel-scaling studies with load balancing.
Initialize an axis-aligned shock tube test problem (Primarily used for testing the VL+CT MHD solver).
Initialize a Shu Collapse problem, following the setup described in Federrath et al 2010, ApJ, 713, 269.
Similar to the
"sedov"problem, but with letters instead of spheres.
"trace"tracer particles in either a regular uniform array with one particle per cell, or randomly following the
Initialize fields for driving turbulence, including
Initialize fields using expressions directly from the parameter file.
For technical reasons,
"value"does not work reliably for multi-node problems.
Initialize the cell-centered magnetic fields for use by the VL + CT method. This initialization can be performed from expressions specified in the parameter file for each component of the magnetic vector potential (in this case, the face-centered magnetic fields are also initialized) OR from the face-centered magnetic fields that have already been initialized by a separate initializer. Additionally, it provides the ability to update partially initialized
"total_energy"fields with the specific magnetic energy computed from the newly computed cell-centered bfields and pre-initialized