674 Methods for Solving Grid Equationscollection in a certain sense of t.he paran1eters T 1 , T 2 , ... , T 11 specified by
formula ( 43). In what follows the set so formed is denoted byScheme (14) with new parametersk = 1, 2, ... , n,
possesses the property of computational stability. Assuming that the effect
of rounding errors is equivalent to possible perturbations of input data: the
initial approximation, the right-hand side and the operator A involved in
the iteration scheme (14). Under such an approach a numerical solution 'f.h
of proble111 (14) can be treated as t.he exact solution of the problen1
·ih+1 - Yk - _ ,, 1 _
----+Ayk=ik+1+--wk+11 k=0,1,2, ... ,n.
Tk+l Tk+l
In this context, it should be noted that the rnember C\+ 1 covers the error
1
of --Yk·
Tk+l
When possible perturbations of the operator A are neglected for one
reason or other, the intern1ediate solutions Yrn turn out to be bounded in
norm:II Ym _ II < c^1 II Yo _ II+ ( 1 + n cm ) ( -^1 in.ax II f; - II+ c^1 max II W; _ II ) ,
c, c, fl l:<:;z:<:;m c, l:<:;z:<:;mwhere cm = 1 if m f:. 2P; cm = 0 if in= 2P and the error z 11 = Yn - u of n
iterations satisfies the estimate
II Yn - u II< qn II Yo - u II+
1- qn max II Ji - f II+
4
/C 1nax II W; 11.
fl l:<:;z:<:;n 3 v~ l<z<nThe derivation of these estimates espressing computational stability of iter-
ative i11ethods with optimal sets of Chebyshev's pararneters { r;} is omitted
in the present book. In the sequel we involve only the collection { r;}, allow-
ing a simpler writing of the ensuing formulas without concern of symbols
"*"
The results of calculations for the exa1nple from Section 5 through
the use of the explicit scheme ( 14) with ordered sets of parameters { r;} are
presented in the Table 5.