scipy.optimize.LbfgsInvHessProduct

class scipy.optimize.LbfgsInvHessProduct(*args, **kwargs)

Linear operator for the L-BFGS approximate inverse Hessian.

This operator computes the product of a vector with the approximate inverse of the Hessian of the objective function, using the L-BFGS limited memory approximation to the inverse Hessian, accumulated during the optimization.

Objects of this class implement the scipy.sparse.linalg.LinearOperator interface.

Parameters

skarray_like, shape=(n_corr, n)

Array of n_corr most recent updates to the solution vector. (See [1]).

ykarray_like, shape=(n_corr, n)

Array of n_corr most recent updates to the gradient. (See [1]).

References

1

Nocedal, Jorge. “Updating quasi-Newton matrices with limited storage.” Mathematics of computation 35.151 (1980): 773-782.

Attributes

H

Hermitian adjoint.

T

Transpose this linear operator.

Methods

__call__(self, x)	Call self as a function.
adjoint(self)	Hermitian adjoint.
dot(self, x)	Matrix-matrix or matrix-vector multiplication.
matmat(self, X)	Matrix-matrix multiplication.
matvec(self, x)	Matrix-vector multiplication.
rmatmat(self, X)	Adjoint matrix-matrix multiplication.
rmatvec(self, x)	Adjoint matrix-vector multiplication.
todense(self)	Return a dense array representation of this operator.
transpose(self)	Transpose this linear operator.

__mul__