提高了求解感应式航空勘探三维任务的有限元格式的效率

Proceedings Third Russian-Korean International Symposium on Science and Technology. KORUS'99 (Cat. No.99EX362) Pub Date : 1999-06-22 DOI:10.1109/KORUS.1999.876215

M.E. Royak, S.H. Royak, Y. Soloveichik, G. Trigubovich, D.O. Kositcyn

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引用次数: 0

摘要

通过对电法航空勘探实例的研究，得出以下结论:最节省计算时间的是GMRES和使用lu38类型块元素预处理的方案。lu26类型块的应用显著降低了内存需求，但增加了计算时间。我们注意到，具有lu26类型和深度为10的块的预处理GMRES实际上与具有lu38类型块的预处理方案的内存开销一致，但在时间上远远落后于它。如果只使用矩阵P分解的对角线块，则优势特别大。在这种情况下，内存开销几乎相差一个量级。使用这样的前提条件对计算时间极为不利;然而，在记忆不足的情况下，这种方法可以唯一地获得详细有限元网格上的解。

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Increasing of efficiency of the finite-element shemes for solving induction aerial prospecting three-dimensional tasks

Research carried out on an example of aerial prospecting by electric methods problem solving has allowed to make the following conclusions. Best on calculation time expenditures are GMRES and schemes using preconditioning with block-elements of type lu38. The application of lu26-type blocks allows noticeably reduced memory requirements, but increase of calculation time. We note that preconditioned GMRES with the block of type lu26 and depth 10 practically coincides memory expenditures with preconditioned scheme with the lu38-type block, but considerably behind it on time. Advantages are especially great if only diagonal blocks of a matrix P decomposition is used. In this case memory expenditures differ almost of an order. Using such preconditions is extremely disadvantageous to calculation time; however in conditions of memory deficiency such methods can uniquely obtain solutions on a detailed finite-element mesh.

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Proceedings Third Russian-Korean International Symposium on Science and Technology. KORUS'99 (Cat. No.99EX362)

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