Enhancing Datacenter Resource Management through Temporal Logic Constraints

Abstract

Resource management of modern datacenters needs to consider multiple competing objectives that involve complex system interactions. In this work, Linear Temporal Logic (LTL) is adopted in describing such interactions by leveraging its ability to express complex properties. Further, LTL-based constraints are integrated with reinforcement learning according the recent progress on control synthesis theory. The LTL-constrained reinforcement learning facilitates desired balance among the competing objectives in managing resources for datacenters. The effectiveness of this new approach is demonstrated by two scenarios. In datacenter power management, the LTL-constrained manager reaches the best balance among power, performance and battery stress compared to the previous work and other alternative approaches. In multitenant job scheduling, 200 MapReduce jobs are emulated on the Amazon AWS cloud. The LTL-constrained scheduler achieves the best balance between system performance and fairness compared to several other methods including three Hadoop schedulers.