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Large-Scale Simulation of Structural Dynamics Computing on GPU Clusters

DescriptionStructural dynamics simulation plays an important role in research on reactor design and complex engineering. The Hybrid Total Finite Element Tearing and Interconnecting (HTFETI) method combined with Newmark method is an efficient way to solve large-scale structural dynamics problems. However, the sparse direct solver and the load imbalance caused by inconsistent density models are two critical issues limiting the performance and the scalability of structural dynamics computing. For the former, we propose an efficient variable-size batched method to accelerate SpMV on GPUs. For the latter, we establish an online performance prediction model, based on which we then design a novel inter-cluster subdomain fine-tuning algorithm to balance the workload of HTFETI parallel computing. We are the first to achieve the high-fidelity structural dynamics simulation of China Experimental Fast Reactor core assembly with up to 53.4 billion grids. The weak and strong scalability efficiencies reach 91.77% and 86.13% on 12,800 GPUs, respectively.

Authors

Yumeng Shi

Computer Network Information Center, Chinese Academy of Sciences

Ningming Nie

Computer Network Information Center, Chinese Academy of Sciences

University of Chinese Academy of Sciences

Shunde Li

Computer Network Information Center, Chinese Academy of Sciences

Jue Wang

Computer Network Information Center, Chinese Academy of Sciences

Kehao Lin

Hangzhou Dianzi University