scipy.optimize.fixed_point¶
- scipy.optimize.fixed_point(func, x0, args=(), xtol=1e-08, maxiter=500, method='del2')[source]¶
Find a fixed point of the function.
Given a function of one or more variables and a starting point, find a fixed-point of the function: i.e. where func(x0) == x0.
Parameters: func : function
Function to evaluate.
x0 : array_like
Fixed point of function.
args : tuple, optional
Extra arguments to func.
xtol : float, optional
Convergence tolerance, defaults to 1e-08.
maxiter : int, optional
Maximum number of iterations, defaults to 500.
method : {“del2”, “iteration”}, optional
Method of finding the fixed-point, defaults to “del2” which uses Steffensen’s Method with Aitken’s Del^2 convergence acceleration [R143]. The “iteration” method simply iterates the function until convergence is detected, without attempting to accelerate the convergence.
References
[R143] (1, 2) Burden, Faires, “Numerical Analysis”, 5th edition, pg. 80 Examples
>>> from scipy import optimize >>> def func(x, c1, c2): ... return np.sqrt(c1/(x+c2)) >>> c1 = np.array([10,12.]) >>> c2 = np.array([3, 5.]) >>> optimize.fixed_point(func, [1.2, 1.3], args=(c1,c2)) array([ 1.4920333 , 1.37228132])