Design And Implementation Of Computing Power Service Chain Orchestration System Based On Smart Integration Identifier Network

With the continuous growth of the network scale,the disadvantages of the traditional network are becoming more and more prominent.The shortcomings of the traditional network in terms of customized services,centralized management and control,and efficient resource utilization have become pain points and obstacles for the rapid development of new network formats.Smart Integration Identifier Net Work(SINET)creatively proposes a "three-layer and three-domain" architecture,which intelligently integrates multi-space and multi-dimensional resources of the entire network,providing a new idea for the innovation of the network system.On the other hand,the research on the Computing Power Network is in full swing,but there is no conclusion on how to efficiently utilize the computing power resources in the network and provide computing power services.Based on SINET,this paper investigates computing power perception,computing power modeling,computing power scheduling and other technologies in the computing power network,and conducts in-depth research on how to efficiently process computing power tasks.aiming to provide flexible and dynamic computing power services,combine computing and network heterogeneous computing power resources,improve the processing efficiency of computing power tasks,and save network resources.This paper designs and implements a computing power service chain orchestration system under SINET.The system can perceive multi-dimensional computing power resources,use multi-attribute decision-making algorithms to unify computing power evaluation standards,analyze user computing power requests,and Efficiently processes computing tasks.At the same time,a Stackelberg game algorithm is also proposed,aiming at the two roles in the network which are computing power users and computing power providers,comprehensively considering their benefits,and solving the problems of computing power pricing and task allocation.The main work of this paper is as follows:First of all,it investigates the domestic and foreign research status of SINET,Computing Power Network and In-Net Computing,then expounds the architecture of SINET,and introduces related concepts and technologies such as programmable network and game theory.Secondly,the design requirements of the computing power service chain orchestration system are analyzed.Based on the requirement analysis,the overall architecture design of the computing power service chain orchestration system based on SINET is carried out,and then each module in the system is introduced in detail,including the identification module,Computing power perception and modeling module,computing power service chain orchestration algorithm module and computing power service chain deployment module.Then,based on the design of each module,the implementation idea,implementation plan and implementation details of each module are introduced in detail.In addition,for the two roles of computing power users and computing power providers in the network,an algorithm based on Stackelberg game is proposed to solve the computing power pricing and task allocation strategy under the optimal income.Finally,an expriment topology is built in the test environment to test the function and performance of each module and algorithm of the system.The effectiveness of the workflow of each module is verified.The performance analysis of the computing power service chain orchestration algorithm module and the computing power service chain deployment module was performed,and the algorithm proposed in this paper was compared with the other two strategies to verify the effectiveness of the algorithm proposed in this paper.For the processing of computing power tasks,the processing delay of using the computing power service chain and local computing is compared,and the efficiency of using the computing power service chain to process tasks is therefore verified.