1 research outputs found
Investigations into Elasticity in Cloud Computing
The pay-as-you-go model supported by existing cloud infrastructure providers
is appealing to most application service providers to deliver their
applications in the cloud. Within this context, elasticity of applications has
become one of the most important features in cloud computing. This elasticity
enables real-time acquisition/release of compute resources to meet application
performance demands. In this thesis we investigate the problem of delivering
cost-effective elasticity services for cloud applications.
Traditionally, the application level elasticity addresses the question of how
to scale applications up and down to meet their performance requirements, but
does not adequately address issues relating to minimising the costs of using
the service. With this current limitation in mind, we propose a scaling
approach that makes use of cost-aware criteria to detect the bottlenecks within
multi-tier cloud applications, and scale these applications only at bottleneck
tiers to reduce the costs incurred by consuming cloud infrastructure resources.
Our approach is generic for a wide class of multi-tier applications, and we
demonstrate its effectiveness by studying the behaviour of an example
electronic commerce site application.
Furthermore, we consider the characteristics of the algorithm for
implementing the business logic of cloud applications, and investigate the
elasticity at the algorithm level: when dealing with large-scale data under
resource and time constraints, the algorithm's output should be elastic with
respect to the resource consumed. We propose a novel framework to guide the
development of elastic algorithms that adapt to the available budget while
guaranteeing the quality of output result, e.g. prediction accuracy for
classification tasks, improves monotonically with the used budget.Comment: 211 pages, 27 tables, 75 figure