BarycentricFactorisedOperator

class minterpy.schemes.barycentric.operators.BarycentricFactorisedOperator(transformation, transformation_data)

Bases: BarycentricOperator

Concrete implementation of the BarycentricOperator given by the edge case given by realizing the factorised copied of the basic 1D atomic sub-problem.

Properties

array_repr_full	Array representation of the global transformation matrix.
array_repr_sparse	Array representation of the sub-transformation matrix transforming only the active monomials.
array_representation	Reconstructs the global transformation matrix.

Methods

merging_fct(leaf_factors, leaf_positions, ...)	Reconstructing the global transformation matrix from the precomputed transformation in factorised format.
transformation_fct(coeffs_out_placeholder, ...)	Transformation based on factorised format that minimises storage.

Parameters:

transformation (TransformationABC)

transformation_fct(coeffs_out_placeholder, first_leaf_solution, leaf_factors, leaf_positions, leaf_sizes)

Transformation based on factorised format that minimises storage.

The factorised copies of the basic 1D atomic sub-problem are assigned to each combination of leaf problems. By keeping the decomposition, the transformation acts on the respective parts (slices) of the coefficients.

Parameters:

• leaf_factors (ndarray) – square array of lower triangular form containing a factor for each combination of leaf nodes.

• first_leaf_solution (ndarray) – the solution of the 1D sub-problem (leaf) of maximal size

• coeffs_in (ndarray) – the Lagrange coefficients to be transformed

• coeffs_out_placeholder (ndarray) – a placeholder for the output coefficients NOTE: must be initialised to all 0 and have the equal size as the input coefficients

• leaf_positions (ndarray)

• leaf_sizes (ndarray)

Return type:

None

merging_fct(leaf_factors, leaf_positions, leaf_sizes)

Reconstructing the global transformation matrix from the precomputed transformation in factorised format.

Parameters:

• first_leaf_solution (ndarray)

• leaf_factors (ndarray)

• leaf_positions (ndarray)

• leaf_sizes (ndarray)

Returns:

Return type:

ndarray

__init__(transformation, transformation_data)

Parameters:

transformation (TransformationABC)

__matmul__(other)

Applies the transformation operator on the input.

Parameters:

other (OperatorABC | ndarray)

Return type:

MatrixOperator | ndarray

__weakref__

list of weak references to the object (if defined)

_get_array_repr()

Reconstructs the global transformation matrix.

property array_repr_full: ndarray

Array representation of the global transformation matrix.

Returns:

the matrix representation of the transformation.

Notes

The output transforms the whole basis (not only the active monomials)!

property array_repr_sparse: ndarray

Array representation of the sub-transformation matrix transforming only the active monomials.

Returns:

the transformation matrix for the active monomials.

Notes

This is an experimental feature which is part of ongoing work.

property array_representation: ndarray

Reconstructs the global transformation matrix.