Low occupancy high performance elemental products in assembly free FEM on GPU

Stress-constrained topology optimization of geometrically nonlinear continuum structures by using parallel computing strategy

L Zhao, J Zheng, J Cai, J Hu, Y Han, J Rong - Advances in Engineering …, 2025 - Elsevier
Stress-constrained topology optimization under geometrical nonlinear conditions is still an
open topic as it often encounter difficulties such as mesh distortion, inaccurate stress …
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[HTML][HTML] High-efficiency computation for electromagnetic forming process: An explicit-implicit GPU approach

Y Pei, D Tang, S Li, X Cao, H Yang, Y Cai, X Cui - Iscience, 2024 - cell.com
Low computational efficiency is one of the crucial challenges in electromagnetic forming
process simulation. However, the huge gap in switching from the electromagnetic field to …
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[PDF][PDF] GPU parallel computation strategy for electrothermal coupling problems using improved assembly-free FEM

S Wu, Y Wang, J Hou, R Meng - Journal of Computational …, 2024 - academic.oup.com
The analysis of electrothermal coupling problems finds extensive application in engineering.
However, for large-scale electrothermal coupling problems, the time cost and storage …
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Accelerated Finite Element Method Solver for RCS Analysis Using CUDA-based Parallel Computing

M Jo, W Park, M Kim, W Lee - IEEE Access, 2024 - ieeexplore.ieee.org
When addressing large-scale electromagnetic problems using the finite element method
(FEM), the resulting matrices are typically sparse, necessitating numerous sparse matrix …
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An Efficient GPU-Accelerated Algorithm for Solving Dynamic Response of Fluid-Saturated Porous Media

W Lin, Q Zhou, X Chen, W Shi, J Ai - Mathematics, 2025 - search.proquest.com
The traditional finite element program is executed on the CPU; however, it is challenging for
the CPU to compute the ultra-large scale finite element model. In this paper, we present a …
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