Energy Efficient Cloud Computing Environment via Autonomic Meta-director Framework

• Published in: 2013 Sixth International Conference on Developments in eSystems Engineering pp. 198 - 203
• Main Authors: Baker, Thar, Ngoko, Yanik, Tolosana-Calasanz, Rafael, Rana, Omer F., Randles, Martin
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.12.2013
• Subjects: Cloud computing; Data models; Educational institutions; Energy consumption; Energy Efficiency; Green products; Logic gates; Power demand; Routing Algorithms
• ISBN: 147995263X; 9781479952632
• ISSN: 2161-1343
• DOI: 10.1109/DeSE.2013.43

The ever-increasing density in cloud computing users, services, and data centres has led to significant increases in network traffic and the associated energy consumed by its huge infrastructure, e.g. extra servers, switches, routers, which is required to respond quickly and effectively to users requests. Transferring data, via a high bandwidth connection between data centres and cloud users, consumes even larger amounts of energy than just processing and storing the data on a cloud data centre, and hence producing high carbon dioxide emissions. This power consumption is highly significant when transferring data into a data centre located relatively far from the user's geographical location. Thus, it became high-necessity to locate the lowest energy consumption route between the user and the designated data centre, while making sure the user's requirements, e.g. response time, are met. This paper proposes a high-end autonomic meta-director framework to find the most energy efficient route to the green data centre by utilising the linear programming approach. The framework is, first, formalised by the situation calculus, and then evaluated against shortest path algorithm with minimum number of nodes traversed.