Table 3 Comparison of Algorithm 3.2 with other algorithms
From: New inertial algorithm for solving split common null point problem in Banach spaces
DOL | Method | Step size | Iter (n) | CPU time (s) | \(\frac{\|z-x_{n}\|}{\|x_{0}-x_{n+1}\|}\) |
|---|---|---|---|---|---|
10−6 | Algorithm 3.2 | \(\lambda _{n}=\frac{\rho _{n}f(w_{n})}{\|F(w_{n})\|^{2}+\|H(w_{n})\|^{2}}\) | 19 | 0.143539 | 2.8971e − 08 |
(VM) Suantai et al. [4] | 0.001 | 85 | 0.155777 | 1.9452e − 07 | |
(HM) Alofi et al. [25] | 0.001 | 87 | 0.156777 | 1.9582e − 07 | |
10−8 | Algorithm 3.2 | \(\lambda _{n}=\frac{\rho _{n}f(w_{n})}{\|F(w_{n})\|^{2}+\|H(w_{n})\|^{2}}\) | 27 | 0.157909 | 2.8306e − 10 |
(VM) Suantai et al. [4] | 0.001 | 114 | 0.916747 | 1.9458e − 09 | |
(HM) Alofi et al. [25] | 0.001 | 116 | 0.168193 | 2.01508e − 09 | |
10−10 | Algorithm 3.2 | \(\lambda _{n}=\frac{\rho _{n} f(w_{n})}{\|F(w_{n})\|^{2}+\|H(w_{n})\|^{2}}\) | 31 | 0.147318 | 2.7699e − 12 |
(VM) Suantai et al. [4] | 0.001 | 143 | 1.251064 | 1.997e − 11 | |
(HM) Alofi et al. [25] | 0.001 | 145 | 1.207683 | 2.1133e − 11 |