The EXTRA method enables accurate 3D magneto-thermal FE simulations of large-scale NI HTS magnets by explicitly resolving critical turns while homogenizing others, reducing computation time by up to 13x on benchmarks.
and Lin, Paul and Liu, Yang and Sao, Piyush: Newly released capabilities in the distributed-memory SuperLU sparse direct solver
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Review chapter summarizing advances in parallel sparse direct solvers along communication reduction and data-sparse compression axes.
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Explicit Turn Resolution with Anisotropic Homogenisation for Efficient 3D Magneto-Thermal Finite-Element Simulation of Large-Scale No-Insulation HTS Magnets
The EXTRA method enables accurate 3D magneto-thermal FE simulations of large-scale NI HTS magnets by explicitly resolving critical turns while homogenizing others, reducing computation time by up to 13x on benchmarks.
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Parallel Sparse and Data-Sparse Factorization-based Linear Solvers
Review chapter summarizing advances in parallel sparse direct solvers along communication reduction and data-sparse compression axes.