Multi-tenant computing network resource allocation algorithm based on deep reinforcement learning

Multi-tenant computing network resource allocation algorithm based on deep reinforcement learning

With the rapid advancement of intelligent businesses, the pre-existing relationship between traditional network architectures and computing capabilities has made it difficult to meet the current demands, making the implementation of computing-network convergence inevitable. Under the new computing p...

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Bibliographic Details
Main Authors: HU Yuxiang, FENG Xu, DONG Yongji, HE Mengyang, ZHUANG Lei, SONG Yanrui
Format: Article
Language:zho
Published: China InfoCom Media Group 2024-12-01
Series:物联网学报
Subjects:
integration of computing and networking
computing power network
resource scheduling
multi objective optimization
deep reinforcement learning
Online Access:http://www.wlwxb.com.cn/zh/article/doi/10.11959/j.issn.2096-3750.2024.00446/
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Summary:With the rapid advancement of intelligent businesses, the pre-existing relationship between traditional network architectures and computing capabilities has made it difficult to meet the current demands, making the implementation of computing-network convergence inevitable. Under the new computing power network framework brought about by the convergence of computing networks, efficient and intelligent resource scheduling strategy has become a key link to improve user experience. However, the existing resource scheduling algorithms have a single optimization objective and cannot meet the differentiated business needs of multi-tenants. To this end, a Multi objective deep reinforcement learning resource scheduling (MODRLRS) was proposed to call the computing resources and network resources in the computing power network. The algorithm performs multi-objective scheduling optimization of computing network resources by constructing a Pareto optimal solution set to meet the personalized business needs of different tenants. Simulation experimental results show that compared with other multi-objective resource scheduling algorithms, the proposed algorithm improves the request acceptance rate by 4.9% and the compliant delay request rate by 4.78%, which can flexibly adapt to the unique requirements of various computing services.
ISSN:2096-3750

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