Ready for Rain? A View from SPEC Research on the Future of Cloud Metrics

TL;DR

This paper reviews and proposes metrics for evaluating key properties of cloud systems, such as elasticity, isolation, availability, and operational risk, aiming to establish industry-standard benchmarks.

Contribution

It identifies essential cloud system properties and introduces or reviews metrics and measurement approaches to evaluate them effectively.

Findings

Reviewed state-of-the-art metrics for cloud properties

Proposed new metrics for elasticity and operational risk

Laid groundwork for industry-standard cloud benchmarks

Abstract

In the past decade, cloud computing has emerged from a pursuit for a service-driven information and communication technology (ICT), into a signifcant fraction of the ICT market. Responding to the growth of the market, many alternative cloud services and their underlying systems are currently vying for the attention of cloud users and providers. Thus, benchmarking them is needed, to enable cloud users to make an informed choice, and to enable system DevOps to tune, design, and evaluate their systems. This requires focusing on old and new system properties, possibly leading to the re-design of classic benchmarking metrics, such as expressing performance as throughput and latency (response time), and the design of new, cloud-specififc metrics. Addressing this requirement, in this work we focus on four system properties: (i) elasticity of the cloud service, to accommodate large variations in the amount of service requested, (ii) performance isolation between the tenants of shared cloud systems, (iii) availability of cloud services and systems, and the (iv) operational risk of running a production system in a cloud environment.Focusing on key metrics, for each of these properties we review the state-of-the-art, then select or propose new metrics together with measurement approaches. We see the presented metrics as a foundation towards upcoming, industry-standard, cloud benchmarks. Keywords: Cloud Computing; Metrics; Measurement; Benchmarking; Elasticity; Isolation; Performance; Service Level Objective; Availability; Operational Risk.