minimize(method=’TNC’)

scipy.optimize.minimize(fun, x0, args=(), method='TNC', jac=None, bounds=None, tol=None, callback=None, options={'eps': 1e-08, 'mesg_num': None, 'scale': None, 'stepmx': 0, 'ftol': -1, 'eta': -1, 'accuracy': 0, 'disp': False, 'xtol': -1, 'rescale': -1, 'maxCGit': -1, 'offset': None, 'minfev': 0, 'gtol': -1, 'maxiter': None})

Minimize a scalar function of one or more variables using a truncated Newton (TNC) algorithm.

See also

For documentation for the rest of the parameters, see scipy.optimize.minimize

Options:

eps : float

Step size used for numerical approximation of the jacobian.

scale : list of floats

Scaling factors to apply to each variable. If None, the factors are up-low for interval bounded variables and 1+|x] fo the others. Defaults to None

offset : float

Value to subtract from each variable. If None, the offsets are (up+low)/2 for interval bounded variables and x for the others.

disp : bool

Set to True to print convergence messages.

maxCGit : int

Maximum number of hessian*vector evaluations per main iteration. If maxCGit == 0, the direction chosen is -gradient if maxCGit < 0, maxCGit is set to max(1,min(50,n/2)). Defaults to -1.

maxiter : int

Maximum number of function evaluation. if None, maxiter is set to max(100, 10*len(x0)). Defaults to None.

eta : float

Severity of the line search. if < 0 or > 1, set to 0.25. Defaults to -1.

stepmx : float

Maximum step for the line search. May be increased during call. If too small, it will be set to 10.0. Defaults to 0.

accuracy : float

Relative precision for finite difference calculations. If <= machine_precision, set to sqrt(machine_precision). Defaults to 0.

minfev : float

Minimum function value estimate. Defaults to 0.

ftol : float

Precision goal for the value of f in the stoping criterion. If ftol < 0.0, ftol is set to 0.0 defaults to -1.

xtol : float

Precision goal for the value of x in the stopping criterion (after applying x scaling factors). If xtol < 0.0, xtol is set to sqrt(machine_precision). Defaults to -1.

gtol : float

Precision goal for the value of the projected gradient in the stopping criterion (after applying x scaling factors). If gtol < 0.0, gtol is set to 1e-2 * sqrt(accuracy). Setting it to 0.0 is not recommended. Defaults to -1.

rescale : float

Scaling factor (in log10) used to trigger f value rescaling. If 0, rescale at each iteration. If a large value, never rescale. If < 0, rescale is set to 1.3.