Recommendations for Flux Skew
For Flux Skew, we use the two machines below by varying the mesh to increase the number of nodes in order to recommend the right solver and the right number of cores according to the number of mesh nodes.
Figure 1. Both machines used by Flux Skew for the recommendations
The machine (a) used for the Magnetostatic and Transient Magnetic applications is the same machine used as for the 2D Flux example.
Machine (b) is used in Steady-State AC magnetic application, it is an induction machine with 4 poles also powered by a circuit coupling.
Several recommendations are provided in the tables below for each of the Flux Skew
applications (Transient Magnetic, Steady-State AC magnetic and Magnetostatic). Note
that the number of nodes in the extruded geometry can be estimated by multiplying
the number of nodes of the 2D mesh by the number of layers of the Skew
geometry.
| Magnetostatic project | ||||||
|---|---|---|---|---|---|---|
| Number of nodes in the mesh (extruded geometry) | 0 - 300k | 300k - 1M | 1M - 2M | 2M - 5M | 5M - 8M | 8M + |
| Recommended number of cores | 1 | 2 | 8 | 16 | ||
| Minimal memory required | 2 GB | 8GB | 12 GB | 24 GB | 40 GB | 40+ GB |
| Recommended linear solver | Direct (MUMPS) | |||||
| Steady-State AC magnetic project | ||||||
| Number of nodes in the mesh (extruded geometry) | 0 - 100k | 100k - 400k | 400k - 1.5M | 1.5M + | ||
| Recommended number of cores | 1 | 2 | 4 | 4 to 8 | ||
| Minimal memory required | 500 MB | 1 GB | 4 GB | 8+ GB | ||
| Recommended linear solver | Direct (MUMPS) | |||||
| Transient Magnetic Project | ||||||
| Number of nodes in the mesh (extruded geometry) | 0 - 100k | 100k - 400k | 400k - 1.5M | 1.5M + | ||
| Recommended number of cores | 1 | 2 | 4 | 4 to 8 | ||
| Minimal memory required | 500 MB | 1 GB | 2GB | 4+ GB | ||
| Recommended linear solver | Direct (MUMPS) | |||||