`pymor.algorithms.symplectic`¶

Module Contents¶

class pymor.algorithms.symplectic.SymplecticBasis(E=None, F=None, phase_space=None, check_symplecticity=True)[source]¶

Bases: pymor.core.base.BasicObject

A canonically-symplectic basis based on pairs of basis vectors (e_i, f_i).

Is either initialzed (a) with a pair of VectorArrays E and F or (b) with a VectorSpace. The basis vectors are each contained in a VectorArray

E = (e_i)_{i=1}^n F = (f_i)_{i=1}^n

such that

V = [E, F].

Parameters

E: A VectorArray that represents the first half of basis vectors. May be none if phase_space is specified.
F: A VectorArray that represents the second half of basis vectors. May be none if phase_space is specified.
phase_space: A VectorSpace that represents the phase space. May be none if E and F are specified.
check_symplecticity: Flag, wether to check symplecticity of E and F in the constructor (if these are not None). Default is True.

Methods

`append`	Append another `SymplecticBasis`.
`extend`	Extend the `SymplecticBasis` with vectors from a `VectorArray`.
`from_array`	Generate `SymplecticBasis` from `VectorArray`.
`lincomb`
`to_array`	Convert to `VectorArray`.
`transposed_symplectic_inverse`	Compute transposed symplectic inverse J_{2N}.T * V * J_{2n}.

append(other, remove_from_other=False, check_symplecticity=True)[source]¶

Append another SymplecticBasis.

other: The SymplecticBasis to append.
remove_from_other: Flag, wether to remove vectors from other.
check_symplecticity: Flag, wether to check symplecticity of E and F in the constructor (if these are not None). Default is True.

extend(U, method='svd_like', modes=2, product=None)[source]¶

Extend the SymplecticBasis with vectors from a VectorArray.

Parameters

U

The vectors used for the extension as VectorArray.

method

The method used for extension. Available options are: (‘svd_like’, ‘complex_svd’, ‘symplectic_gram_schmidt’).

modes

Number of modes to extract from U. Has to be even.

product

A product to use for the projection error. Default is None.

classmethod from_array(U, check_symplecticity=True)[source]¶

Generate SymplecticBasis from VectorArray.

Parameters

U: The VectorArray.
check_symplecticity: Flag, wether to check symplecticity of E and F in the constructor (if these are not None). Default is True.

Returns

BASIS: The SymplecticBasis.

lincomb(coefficients)[source]¶

to_array()[source]¶

Convert to VectorArray.

Returns

BASIS: The SymplecticBasis as VectorArray.

transposed_symplectic_inverse()[source]¶

Compute transposed symplectic inverse J_{2N}.T * V * J_{2n}.

Returns

TSI_BASIS: The transposed symplectic inverse as SymplecticBasis.

pymor.algorithms.symplectic.esr(E, F, J=None)[source]¶

Elemenraty SR factorization. Transforms E and F such that

[E, F] = S * diag(r11, r22)

Coefficients are chosen such that ||E|| = ||F||. r12 is set to zero.

Parameters

E: A VectorArray of dim=1 from the same VectorSpace as F.
F: A VectorArray of dim=1 from the same VectorSpace as E.
J: A CanonicalSymplecticFormOperator operating on the same VectorSpace as E and F. Default is CanonicalSymplecticFormOperator(E.space).

Returns

R: A diagonal numpy.ndarray.

pymor.algorithms.symplectic.psd_complex_svd(U, modes)[source]¶

Generates a SymplecticBasis with the PSD complex SVD.

This is an implementation of Algorithm 2 in [PM16].

Parameters

U: The VectorArray for which the PSD SVD-like decompostion is to be computed.
modes: Number of modes (needs to be even).

Returns

BASIS: The SymplecticBasis.

pymor.algorithms.symplectic.psd_cotengent_lift(U, modes)[source]¶

Generates a SymplecticBasis with the PSD cotangent lift.

This is an implementation of Algorithm 1 in [PM16].

Parameters

U: The VectorArray for which the PSD SVD-like decompostion is to be computed.
modes: Number of modes (needs to be even).

Returns

BASIS: The SymplecticBasis.

pymor.algorithms.symplectic.psd_svd_like_decomp(U, modes, balance=True)[source]¶

Generates a SymplecticBasis with the PSD SVD-like decompostion.

This is an implementation of Algorithm 1 in [BBH19].

Parameters

U: The VectorArray for which the PSD SVD-like decompostion is to be computed.
modes: Number of modes (needs to be even).
balance: A flag, wether to balance the norms of pairs of basis vectors.

Returns

BASIS: The SymplecticBasis.

pymor.algorithms.symplectic.symplectic_gram_schmidt(E, F, return_Lambda=False, atol=1e-13, rtol=1e-13, offset=0, reiterate=True, reiteration_threshold=0.9, check=True, check_tol=0.001, copy=True)[source]¶

Symplectify a VectorArray using the modified symplectic Gram-Schmidt algorithm.

This is an implementation of Algorithm 3.2. in [AA11] with a modified criterion for reiteration.

Decomposition:

[E, F] = S * Lambda

with S symplectic and Lambda a permuted upper-triangular matrix.

Parameters

E, F: The two VectorArrays which are to be symplectified.
return_Lambda: If True, the matrix Lambda from the decomposition is returned.
atol: Vectors of norm smaller than atol are removed from the array.
rtol: Relative tolerance used to detect non-symplectic subspaces (which are then removed from the array).
offset: Assume that the first offset pairs vectors in E and F are already symplectic and start the algorithm at the offset + 1-th vector.
reiterate: If True, symplectify again if the symplectic product of the symplectified vectors is much smaller than the symplectic product of the original vector.
reiteration_threshold: If reiterate is True, “re-orthonormalize” if the ratio between the symplectic products of the symplectified vectors and the original vectors is smaller than this value.
check: If True, check if the resulting VectorArray is really symplectic.
check_tol: Tolerance for the check.

Returns

S: The symplectified VectorArray.
Lambda: if return_Lambda is True.

pymor.algorithms.symplectic¶

Module Contents¶

`pymor.algorithms.symplectic`¶