Saver: a proactive microservice resource scheduling strategy based on STGCN

Yi Jiang, Jin Xue, Kun Hu, Tianxiang Chen, Tong Wu
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Abstract

As container technology and microservices mature, applications increasingly shift to microservices and cloud deployment. Growing microservices scale complicates resource scheduling. Traditional methods, based on fixed thresholds, are simple but lead to resource waste and poor adaptability to traffic spikes. To address this problem, we design a new resource scheduling strategy Saver based on the container cloud platform, which combines a microservice request prediction model with a microservice performance evaluation model that predicts SLO (Service Level Objective) violations and a heuristic algorithm to solve the optimal resource scheduling for the cluster. We deploy the microservices open-source project sock-shop in a Kubernetes cluster to evaluate Saver. Experimental results show that Saver saves 7.9% of CPU resources, 13% of the instances, and reduces the SLO violation rate by 31.2% compared to K8s autoscaler.

Abstract Image

Saver:基于 STGCN 的主动式微服务资源调度策略
随着容器技术和微服务的成熟,应用程序越来越多地转向微服务和云部署。微服务规模的不断扩大使资源调度变得更加复杂。基于固定阈值的传统方法虽然简单,但会造成资源浪费,对流量峰值的适应性也很差。为解决这一问题,我们设计了一种基于容器云平台的新型资源调度策略Saver,它将微服务请求预测模型与预测SLO(服务级别目标)违规情况的微服务性能评估模型和启发式算法相结合,以解决集群的最优资源调度问题。我们在 Kubernetes 集群中部署了微服务开源项目 sock-shop,以评估 Saver。实验结果表明,与 K8s autoscaler 相比,Saver 节省了 7.9% 的 CPU 资源和 13% 的实例,并将 SLO 违规率降低了 31.2%。
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