An efficient block variant of robust structured multifrontal factorization method |
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Authors: | Zuo Xian-Yu Mo Ze-Yao and Gu Tong-Xiang |
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Institution: | [1]School of Computer and Information Engineering, Henan University, Kaifeng 475004, China [2]Laboratory of Computational Physics, Institute of Applied Physics and Computational Mathematics, Beijing 100088, China |
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Abstract: | Based on the two-dimensional three-temperature (2D3T) radiation diffusion equations and its discrete system, using the block diagonal structure of the three-temperature matrix, the reordering and symbolic decomposition parts of the RSMF method are replaced with corresponding block operation in order to improve the solution efficiency. We call this block form method block RSMF (in brief, BRSMF) method. The new BRSMF method not only makes the reordering and symbolic decomposition become more effective, but also keeps the cost of numerical factorization from increasing and ensures the precision of solution very well. The theoretical analysis of the computation complexity about the new BRSMF method shows that the solution efficiency about the BRSMF method is higher than the original RSMF method. The numerical experiments also show that the new BRSMF method is more effective than the original RSMF method. |
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Keywords: | HSS structure low-rank property multifrontal method two-dimensional three-temperature radia-tive diffusion equations |
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