High Performance Computing
| In our laboratory, we frequently perform numerical simulations as well as experiments. The large-scale electromagnetic field analyses of superconductor magnets can be calculated by using our computer cluster. Our computer cluster system has total 212 cores and 3 TB. |
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By performing numerical electromagnetic field analyses, microscopic phenomena can be visualized, which cannot be observed by experiments. For example, the non-uniform current distribution is appeared in the coated conductors wound into 3D-coils. |
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| Not only performing the electromagnetic field analyses, we also work on
reducing computation time and memory consumption by using some techniques.
For example, ・ Hierarchical matrices (H-matrices) ・ Parallel computing ・ Preconditioning techniques ・ Newton-Raphson method |
Fig. name |
| In our laboratory, we frequently perform numerical simulations as well as experiments. The large-scale electromagnetic field analyses of superconductor magnets can be calculated by using our computer cluster. Our computer cluster system has total 212 cores and 3 TB. |
Computer cluster system |
| By performing numerical electromagnetic field analyses, microscopic phenomena can be visualized, which cannot be observed by experiments. For example, the non-uniform current distribution is appeared in the coated conductors wound into 3D-coils. | Results ofnumerical electromagnetic field analyses |
| Not only performing the electromagnetic field analyses, we also work on
reducing computation time and memory consumption by using some techniques.
For example, ・ Hierarchical matrices (H-matrices) ・ Parallel computing ・ Preconditioning techniques ・ Newton-Raphson method |
Hierarchical matrices |