Smart HPA: A Resource-Efficient Horizontal Pod Auto-scaler for Microservice Architectures
arxiv(2024)
摘要
Microservice architectures have gained prominence in both academia and
industry, offering enhanced agility, reusability, and scalability. To simplify
scaling operations in microservice architectures, container orchestration
platforms such as Kubernetes feature Horizontal Pod Auto-scalers (HPAs)
designed to adjust the resources of microservices to accommodate fluctuating
workloads. However, existing HPAs are not suitable for resource-constrained
environments, as they make scaling decisions based on the individual resource
capacities of microservices, leading to service unavailability and performance
degradation. Furthermore, HPA architectures exhibit several issues, including
inefficient data processing and a lack of coordinated scaling operations. To
address these concerns, we propose Smart HPA, a flexible resource-efficient
horizontal pod auto-scaler. It features a hierarchical architecture that
integrates both centralized and decentralized architectural styles to leverage
their respective strengths while addressing their limitations. We introduce
resource-efficient heuristics that empower Smart HPA to exchange resources
among microservices, facilitating effective auto-scaling of microservices in
resource-constrained environments. Our experimental results show that Smart HPA
outperforms the Kubernetes baseline HPA by reducing resource overutilization,
overprovisioning, and underprovisioning while increasing resource allocation to
microservice applications.
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