Cloud Computing Models, Cloud Infrastructures, Cloud Architecture, Cloud Computing, Cloud Services Self-organisation, Self-management, Heterogeneous Resources, Resource as a Service, Cloud Orchestration, Data Flow Engine, Many-integrated Cores, MIC, GPU, FPGA, DFE
As clouds increase in size and as machines of different types are added to the infrastructure in order to maximize performance and power efficiency, heterogeneous clouds are being created. However, exploiting different architectures poses significant challenges. To efficiently access heterogeneous resources and, at the same time, to exploit these resources to reduce application development effort, to make optimisations easier and to simplify service deployment, requires a re-evaluation of our approach to service delivery. We propose a novel cloud management and delivery architecture based on the principles of self-organisation and self-management that shifts the deployment and optimisation effort from the consumer to the software stack running on the cloud infrastructure. Our goal is to address inefficient use of resources and consequently to deliver savings to the cloud provider and consumer in terms of reduced power consumption and improved service delivery, with hyperscale systems