Research Article
An Efficient Class of Modulus-Based Matrix Splitting Methods for Nonlinear Complementarity Problems
Table 3
Numerical results for Problem
1 using Method
2.
| n | | | | | | | |
| 100 | CPU | 0.1 | 0.121 | 0.054 | 0.036 | 0.056 | 0.37 | Iter | 86 | 121 | 60 | 41 | 64 | 447 | Res | 9.7 893e−7 | 9.5 296e−7 | 8.8 894e−7 | 9.3 262e−7 | 9.5 452e−7 | 9.6 319e−7 |
| 400 | CPU | 3.35 | 4.778 | 2.319 | 1.616 | 3.029 | — | Iter | 87 | 127 | 62 | 43 | 81 | — | Res | 8.9 383e−7 | 9.9 707e−7 | 9.0 364e−7 | 7.7 447e−7 | 8.7 010e−7 | — |
| 900 | CPU | 34.022 | 50.732 | 24.375 | 16.623 | 34.383 | — | Iter | 87 | 131 | 63 | 43 | 89 | — | Res | 9.3 875e−7 | 9.5 828e−7 | 9.4 402e−7 | 9.5 916e−7 | 8.6 957e−7 | — |
| 1600 | CPU | 188.867 | 288.017 | 136.851 | 94.189 | 192.049 | — | Iter | 87 | 134 | 64 | 44 | 90 | — | Res | 9.8 162e−7 | 9.123e−7 | 9.1 586e−7 | 8.382e−7 | 8.8 297e−7 | — |
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