SimPEG.meta.DaskMetaSimulation#

class SimPEG.meta.DaskMetaSimulation(simulations, mappings, client)[source]#

Bases: MetaSimulation

Dask Distributed version of simulation of simulations.

This class makes use of dask.distributed module to provide concurrency, executing the internal simulations in parallel. This class is meant to be a (mostly) drop in replacement for MetaSimulation. If you want to test your implementation, we recommend starting with a small problem using MetaSimulation, then switching it to this class. the serial version of this class is good for testing correctness.

Parameters:

simulations(n_sim) list of SimPEG.simulation.BaseSimulation or list of dask.distributed.Future: The list of unique simulations (or futures that would return a simulation) that each handle a piece of the problem.
mappings(n_sim) list of SimPEG.maps.IdentityMap or list of dask.distributed.Future: The map for every simulation (or futures that would return a map). Every map should accept the same length model, and output a model appropriate for its paired simulation.
clientdask.distributed.Client, optional: The dask client to use for communication.

Attributes

`clean_on_model_update`	A list of solver objects to clean when the model is updated
`client`	The distributed client that handles the internal tasks.
`counter`	SimPEG `Counter` object to store iterations and run-times.
`deleteTheseOnModelUpdate`	A list of properties stored on this object to delete when the model is updated
`mappings`	The future mappings paired to each simulation.
`mesh`	Mesh for the simulation.
`model`	The inversion model.
`needs_model`	True if a model is necessary
`sensitivity_path`	Path to directory where sensitivity file is stored.
`simulations`	The future list of simulations.
`solver`	Numerical solver used in the forward simulation.
`solver_opts`	Solver-specific parameters.
`survey`	The survey for the simulation.
`verbose`	Verbose progress printout.

Methods

`Jtvec`(m, v[, f])	Compute the Jacobian transpose times a vector for the model provided.
`Jtvec_approx`(m, v[, f])	Approximation of the Jacobian transpose times a vector for the model provided.
`Jvec`(m, v[, f])	Compute the Jacobian times a vector for the model provided.
`Jvec_approx`(m, v[, f])	Approximation of the Jacobian times a vector for the model provided.
`dpred`([m, f])	Predicted data for the model provided.
`fields`(m)	Create fields for every simulation.
`getJtJdiag`(m[, W, f])	Return the squared sum of columns of the Jacobian.
`make_synthetic_data`(m[, relative_error, ...])	Make synthetic data for the model and Gaussian noise provided.
`residual`(m, dobs[, f])	The data residual.