Abstract

As the traditional grid data architecture develops with enterprises, its security risks will become greater and greater, and it will not be able to satisfy customers' differentiated services. Predecessors' research on the application of blockchains and nanomaterials is still insufficient. To solve the various shortcomings of the traditional power grid data governance architecture, a new type of sensor designed using blockchain technology and nanomaterials is designed through new technical means. It is applicable to the current digital grid data management architecture. The study found that the scale of the system gradually increased from 4 nodes to 16 nodes, and the TPS entered the smoothing stage after about 10, 50, 70, and 100 s, and stabilized at a small fluctuation point. We found that for every 4 nodes increase in the cluster size, the throughput drops by about 8%. Clusters of different sizes have entered a state of stable throughput. Although TPS has shown an overall downward trend of 8%, the peak situation of TPS has shown a certain different trend. This shows that the digital grid data governance network framework designed through blockchain technology and nanomaterial technology can meet the various needs of modern digital grid data centers for data center networks, such as: business scalability, reliability, security, etc.

摘要

传统的网格数据架构随着企业的发展，其安全风险会越来越大，无法满足客户的差异化服务。前人对区块链和纳米材料应用的研究还不够。针对传统电网数据治理架构的种种不足，通过新的技术手段设计了一种利用区块链技术和纳米材料设计的新型传感器。适用于当前的数字网格数据管理架构。研究发现，系统规模从4个节点逐渐增加到16个节点，TPS在10、50、70、100 s左右后进入平滑阶段，稳定在一个小的波动点。我们发现，集群大小每增加 4 个节点，吞吐量下降约 8%。不同大小的集群都进入了稳定吞吐的状态。虽然TPS整体呈现8%的下降趋势，但TPS的峰值情况却呈现出一定的不同趋势。这表明通过区块链技术和纳米材料技术设计的数字网格数据治理网络框架能够满足现代数字网格数据中心对数据中心网络的各种需求，例如：业务可扩展性、可靠性、安全性等。