simpeg.meta.SumMetaSimulation.getJtJdiag#
- SumMetaSimulation.getJtJdiag(m, W=None, f=None)[source]#
Return the squared sum of columns of the Jacobian.
Evaluates the weighted squared norm of each column of the Jacobian matrix. This is usually used to construct sensitivity weighting matrices or for diagonal preconditioners to iterative solvers.
- Parameters:
- m(
n_m
)numpy.ndarray
The model to evalute the Jacobian at.
- W(
n_d
,n_d
)scipy.sparse.csr_matrix
,optional
A diagonal data weighting matrix.
- f
fields
,optional
The fields object created from this class.
- m(
- Returns:
- (
n_m
)numpy.ndarray
Squared sum of columns of the Jacobian matrix
- (
Notes
Internally, this function evaluates the
getJtJdiag
method of each simulation, then applies the model mapping to the output as:>>> sq_sum = 0 >>> for i in range(n_sim): ... row = sim[i].getJtJdiag(model) ... sq_sum += W[i] * (sp.diag(sqrt(row)) @ mapping[i].deriv()).power(2).sum(axis=0)
This approach is correct for mapping that match input parameters to a single output parameter, (i.e. the mapping.deriv has only 1 element in each column). For other mappings, it is usually close within a scaling factor, whose accuracy is then controlled by how diagonally dominant
J.T @ J
is.