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Traffic plane: two K8s clusters are deployed in private lab.
项目路标,待补充:
Envisioned Signpost
Road map:
1、业务多集群分分发部署:Scheduling computing force by cluster weight. already release in R7;
2、容灾场景下的业务部署调度:Rescheduling computing force when a cluster resource is abnormal. 3、算网协同调度算法增强;(可作为下一阶段的特性规划进来)already release in R7;
3. Designing of integrated computing and network resource scheduling algorithm (next step, envisioned Signpost) 基于算网状态的联合调度算法
By the end of this stage, the CFN BP focuses on the functional integration of computing force scheduling in the ubiquitous computing environment composed of a number of heterogeneous computing nodes. Computing resource-demanding applications from OTT partner, MIGU, are successfully deployed under the guidance of the scheduling decision in our experiment. However, as CFN BP is still in an early stage, the network topology is simple and the number of nodes is limited. Thus, no modern network measurement techniques are deployed in the system. The scheduler only made scheduling decisions based on coarse information about the network, i.e., accessibility. The computing capability in nodes played a major role in the decision process, which is fine for the present experiment, but not sufficient for the final goal of the CFN BP.
In the future stage, on the one hand, when more nodes are added to the experiment environment, the complexity of network topologies will emerge. Thus, the computing task scheduling results without timely and sufficient information on the network will probably impact the performance of the application. Integrated computing and network resource sensing will be of first importance, which forms the basis for making resonable scheduling decisions. On the other, as for applications, when micro-service architectured or cloud-native applications are introduced in the experiment. The sequential dependency between microservices components in the application should be carefully considered when planning the distributive deployment, adding more complexity to the task scheduling problem. The rapid development of graph learning makes feature extraction from graphic data about networked infrastructure and componentized applications fast and easy, greatly facilitating the training of deep learning models and reinforcement learning agents. Thus, artificial intelligence techniques-based task and resource scheduling approaches are considered in the future stage of the CFN BP.
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4. Scheduling algorithm enhancement considering higher-level factors.(next step, envisioned Signpost)基于成本、资源利用率的调度算法增强
As the CFN is intended to provide service to wide consumers, in spite of technique issues, the computing and network resource scheduling will be also influenced by some higher level factors, such as the preference of computing force customers, intents of computing, and network resource suppliers, etc. Practically, consumers will not only care about how fast their computing tasks are finished and how good the performance of the desired service is but also how much is the cost. And different consumers may show different sensitivity to the cost, which deserves further work on mapping from subjective preference to objective measurable metrics. Moreover, some consumers may also care about the robustness of their application, thus duplicate and redundant deployment of applications or just critical exponents should be taken into consideration.
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