基于CPU-GPU异构并行的静态和动态负载下分层混合结构并行三维拓扑优化方法

IF 7.3 1区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Computer Methods in Applied Mechanics and Engineering Pub Date : 2025-09-22 DOI:10.1016/j.cma.2025.118408

Yunfei Liu , Ruxin Gao , Ying Li , Daining Fang

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引用次数: 0

摘要

三维分层混合结构（HHS）的拓扑优化受到高维设计空间和多尺度计算复杂性耦合的约束，通常通过限制某些可设计部件来解决，这限制了对设计空间的充分探索和性能潜力的实现。本文提出了一种新的3D-HHS并发拓扑优化方法，实现了静态和动态载荷下所有可设计部件的并发优化，包括宏观拓扑、子结构拓扑及其空间分布。这种方法极大地扩展了设计空间，提高了分层结构的力学性能。为了解决大规模三维问题的计算挑战，我们采用CPU-GPU异构并行计算来提高结构响应和灵敏度分析的效率。数值算例表明，该方法具有较好的3D- hhs设计效果，优化效率显著提高，为高效的三维结构优化提供了一种创新的解决方案。

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Concurrent 3D topology optimization method for hierarchical hybrid structures under static and dynamic loads with CPU-GPU heterogeneous parallelism

Topology optimization of 3D hierarchical hybrid structures (HHS) is constrained by the coupling of high-dimensional design spaces and multiscale computational complexity, often addressed by restricting certain designable components, which limits the full exploration of the design space and realization of performance potential. This paper proposes a novel concurrent topology optimization method for 3D-HHS, achieving concurrent optimization of all designable components, including macroscopic topology, substructural topology, and their spatial distribution, under static and dynamic loads. This approach significantly expands the design space, enhancing the mechanical performance of hierarchical structures. To address the computational challenges of large-scale 3D problems, we employ CPU-GPU heterogeneous parallel computing to improve the efficiency of structural response and sensitivity analysis. Numerical examples demonstrate that this method delivers superior 3D-HHS designs with markedly improved optimization efficiency, providing an innovative solution for efficient 3D structural optimization.

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来源期刊

Computer Methods in Applied Mechanics and Engineering 工程技术-工程：综合

CiteScore

12.70

自引率

15.30%

发文量

719

审稿时长

44 days

期刊介绍： Computer Methods in Applied Mechanics and Engineering stands as a cornerstone in the realm of computational science and engineering. With a history spanning over five decades, the journal has been a key platform for disseminating papers on advanced mathematical modeling and numerical solutions. Interdisciplinary in nature, these contributions encompass mechanics, mathematics, computer science, and various scientific disciplines. The journal welcomes a broad range of computational methods addressing the simulation, analysis, and design of complex physical problems, making it a vital resource for researchers in the field.