Current approaches to designing energy-efficient applications typically rely on measuring individual components using readily available local metrics, like CPU utilization. However, these metrics fall short when applied to cloud-native applications, which operate within the multi-tenant, shared environments of distributed cloud providers. Assessing and optimizing the energy efficiency of cloud-native applications requires consideration of the complex, layered nature of modern cloud stacks. To address this need, we present a comprehensive, automated, and extensible experimentation framework that enables developers to measure energy efficiency across all relevant layers of a cloud-based application and evaluate associated quality trade-offs. Our framework integrates a suite of service quality and sustainability metrics, providing compatibility with any Kubernetes-based application. We demonstrate the feasibility and effectiveness of this approach through initial experimental results, comparing architectural design alternatives for a widely used open-source cloud-native application.
@article{arxiv.2503.08641,
title = {A Comprehensive Experimentation Framework for Energy-Efficient Design of Cloud-Native Applications},
author = {Sebastian Werner and Maria C. Borges and Karl Wolf and Stefan Tai},
journal= {arXiv preprint arXiv:2503.08641},
year = {2025}
}
Comments
This work has been accepted to the 22nd IEEE International Conference on Software Architecture (ICSA'25)