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Iterative solver : ウィキペディア英語版
Iterative method
In computational mathematics, an iterative method is a mathematical procedure that generates a sequence of improving approximate solutions for a class of problems. A specific implementation of an iterative method, including the termination criteria, is an algorithm of the iterative method. An iterative method is called convergent if the corresponding sequence converges for given initial approximations. A mathematically rigorous convergence analysis of an iterative method is usually performed; however, heuristic-based iterative methods are also common. In the problems of finding the root of an equation (or a solution of a system of equations), an iterative method uses an initial guess to generate successive approximations to a solution.
In contrast, direct methods attempt to solve the problem by a finite sequence of operations. In the absence of rounding errors, direct methods would deliver an exact solution (like solving a linear system of equations A\mathbf=\mathbf by Gaussian elimination). Iterative methods are often the only choice for nonlinear equations. However, iterative methods are often useful even for linear problems involving a large number of variables (sometimes of the order of millions), where direct methods would be prohibitively expensive (and in some cases impossible) even with the best available computing power.
==Attractive fixed points==
If an equation can be put into the form ''f''(''x'') = ''x'', and a solution x is an attractive fixed point of the function ''f'', then one may begin with a point ''x''1 in the basin of attraction of x, and let ''x''''n''+1 = ''f''(''x''''n'') for ''n'' ≥ 1, and the sequence ''n'' ≥ 1 will converge to the solution x. Here ''x''''n'' is the ''n''th approximation or iteration of ''x'' and ''x''''n''+1 is the next or ''n'' + 1 iteration of ''x''. Alternately, superscripts in parentheses are often used in numerical methods, so as not to interfere with subscripts with other meanings. (For example, ''x''(''n''+1) = ''f''(''x''(''n'')).) If the function ''f'' is continuously differentiable, a sufficient condition for convergence is that the spectral radius of the derivative is strictly bounded by one in a neighborhood of the fixed point. If this condition holds at the fixed point, then a sufficiently small neighborhood (basin of attraction) must exist.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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