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Table 3 Numerical results for Example 4.3

From: Modified HS conjugate gradient method for solving generalized absolute value equations

n

\(x^{*}\)

k

Val

10

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

8

4.5674e−05

10

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

9

5.0220e−05

50

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

11

7.1865e−05

50

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

12

3.1082e−05

100

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

14

4.2381e−05

100

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

14

4.2647e−05

200

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

12

4.0803e−05

200

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

12

4.3772e−05

300

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

12

5.5250e−05

300

\((1.0000,1.0000,\ldots,1.0000)^{T}\)

12

4.3772e−05