Published Data
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Publication Figures
Publication Date:
2018-09-26
First Author:
D. Samaddar
Title:
Application of the parareal algorithm to simulations of ELMs in ITER plasma
Paper Identifier:
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| Figure Reference | Title | Description | Number of Figure Data Items | Identifier | Download Figure Details | ||
|---|---|---|---|---|---|---|---|
| Fig. 1 | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 1 | The figure shows the radial profile of the particle density gradient diffusivity along the outer mid-plane. The colours represent different times in the simulation. | 1 | CF/18/64 | Download | ||
| Fig. 2 | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 2 | The figure shows the computational grid used for the fine computation. | 0 | CF/18/66 | Download | ||
| Fig. 3a | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 3a | The electron density on the separatrix at the outer midplane is plotted against time along the x-axis. | 0 | CF/18/67 | Download | ||
| Fig. 3b | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 3b | The maximum total power flux along the outer divertor is plotted against time along the x-axis. | 0 | CF/18/68 | Download | ||
| Fig. 4 | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 4 | The electron density on the separatrix at the outer midplane is plotted against time on the x-axis. | 0 | CF/18/69 | Download | ||
| Fig 5a | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 5a | The electron density on the separatrix at the outer midplane is plotted against time along the x-axis for parareal iteration k=1 as described in detail in the paper. | 0 | CF/18/70 | Download | ||
| Fig. 5b | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 5b | The electron density on the separatrix at the outer midplane is plotted against time along the x-axis, for parareal iteration k=2 as described in detail in the paper. | 0 | CF/18/71 | Download | ||
| Fig. 6 | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 6 | Radial profile of the electron density at the outer midplane. The different colours/symbols in the plots represent different times in the simulation. | 0 | CF/18/72 | Download | ||
| Fig. 7 | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 7 | Radial profile of the electron temperature at the outer midplane. The different colours/symbols in the plots represent different times in the simulation. | 0 | CF/18/73 | Download | ||
| Fig. 8a | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 8a | The electron density on the separatrix at the outer midplane is plotted against time along the x-axis. The plot corresponds to a successful parareal run - as described in detail in the paper. | 0 | CF/18/74 | Download | ||
| Fig. 8b | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 8b | The electron temperature on the separatrix at the outer midplane is plotted against time along the x-axis. The plot corresponds to a successful parareal run - as described in detail in the paper. | 0 | CF/18/75 | Download | ||
| Fig. 8c | Application of the parareal algorithm to simulations of ELMs in ITER plasma-Fig. 8c | The maximum total power flux along the outer target is plotted against time along the x-axis. The plot corresponds to a successful parareal run - as described in detail in the paper. | 0 | CF/18/76 | Download | ||
| Application of the parareal algorithm to simulations of ELMs in ITER plasma-Table 1 | The table represents the number of iterations required (second column) for given ntim(first column). ntim represents the number of timesteps solved per processor. | 0 | CF/18/77 | Download | |||
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