Source code for nifty8.library.wiener_filter_curvature

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# Copyright(C) 2013-2021 Max-Planck-Society
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# NIFTy is being developed at the Max-Planck-Institut fuer Astrophysik.

from ..operators.endomorphic_operator import EndomorphicOperator
from ..operators.inversion_enabler import InversionEnabler
from ..operators.sampling_enabler import SamplingEnabler
from ..operators.sandwich_operator import SandwichOperator




def WienerFilterCurvature(R, N, S, iteration_controller=None,
                          iteration_controller_sampling=None):
    """The curvature of the WienerFilterEnergy.

    This operator implements the second derivative of the
    WienerFilterEnergy used in some minimization algorithms or
    for error estimates of the posterior maps. It is the
    inverse of the propagator operator.

    Parameters
    ----------
    R : LinearOperator
        The response operator of the Wiener filter measurement.
    N : EndomorphicOperator
        The noise covariance.
    S : EndomorphicOperator
        The prior signal covariance.
    iteration_controller : IterationController
        The iteration controller to use during numerical inversion via
        ConjugateGradient.
    iteration_controller_sampling : IterationController
        The iteration controller to use for sampling.

    Note
    ----
    If samples shall be drawn from this operator, `N` and `S` have to implement
    `draw_sample()`.
    """
    if not isinstance(N, EndomorphicOperator):
        raise TypeError
    if not isinstance(S, EndomorphicOperator):
        raise TypeError
    M = SandwichOperator.make(R, N.inverse)
    Sinv = S.inverse
    if iteration_controller_sampling is not None:
        op = SamplingEnabler(M, Sinv, iteration_controller_sampling, Sinv)
    else:
        op = M + Sinv
    return InversionEnabler(op, iteration_controller, Sinv)