Research on hyper-converged architecture of digital twin hydraulic engineering data centers
To address the issues of low computational and storage efficiency,information silos,and high operation and maintenance complexity in current digital twin hydraulic engineering data centers,this study proposes a construction scheme based on hyper-converged architecture.The scheme aims to meet the increasing demand for real-time computation and storage of massive datasets generated by digital twin hydraulic engineering,thereby supporting intelligent simulation and decision-making applications for tasks such as flood control scheduling and water resource allocation.By leveraging virtualization,hyper-convergence,and related technologies,the approach virtualizes and pools heterogeneous resources,enabling on-demand resource allocation,flexible scheduling,and enhanced operation and maintenance monitoring.This enhances the reliability,availability,and scalability of the data center.Taking the construction of the digital twin Jiulongjiang Beixi Data Center as a case study,the paper elaborates on the technical features,construction concepts,implementation plans,and application outcomes of the hyper-converged data center architecture.The findings provide a valuable reference and demonstration for the development of other digital twin hydraulic engineering data centers.
万方数据
维普
