Litcius/Paper detail

Container orchestration on HPC systems through Kubernetes

Naweiluo Zhou, Yiannis Georgiou, Marcin Pospieszny, Zhong Li, Huan Zhou, Christoph Niethammer, Branislav Pejak, Oskar Marko, Dennis Hoppe

2021Journal of Cloud Computing Advances Systems and Applications67 citationsDOIOpen Access PDF

Abstract

Abstract Containerisation demonstrates its efficiency in application deployment in Cloud Computing. Containers can encapsulate complex programs with their dependencies in isolated environments making applications more portable, hence are being adopted in High Performance Computing (HPC) clusters. Singularity , initially designed for HPC systems, has become their de facto standard container runtime. Nevertheless, conventional HPC workload managers lack micro-service support and deeply-integrated container management, as opposed to container orchestrators. We introduce a Torque-Operator which serves as a bridge between HPC workload manager (TORQUE) and container orchestrator (Kubernetes). We propose a hybrid architecture that integrates HPC and Cloud clusters seamlessly with little interference to HPC systems where container orchestration is performed on two levels.

Topics & Concepts

OrchestrationContainer (type theory)Computer scienceCloud computingOperating systemWorkloadSupercomputerDistributed computingSoftware deploymentService (business)Computer architectureEngineeringEconomyMusicalVisual artsMechanical engineeringEconomicsArtCloud Computing and Resource ManagementDistributed and Parallel Computing SystemsScientific Computing and Data Management