Tapping seagull optimization algorithm for greener and more energy-efficient edge-cloud data centers

Owners of technology and industrial centers have extensively utilized edge-cloud data centers (ECDC) to meet user requirements, yet the consequent energy expenditure is substantial.

Consequently, proper assignment of virtual machines (VM) to physical machines (PM) has become a crucial factor in decreasing energy consumption. This, however, entails not only tangible objectives regarding power utilization, but also network element traffic which renders it a difficult task.

In a new study published in the KeAi journal Internet of Things and Cyber-Physical Systems, researchers from the United Kingdom, China and Austria describe a novel energy-saving approach involving multi-objective VM placement via seagull optimization algorithm— a high-level algorithm that mimics the migrating and hunting behaviour of seagulls—to address both power usage and network traffic.

The study showed that the proposed method could result in a 5.5% decrease in energy consumption, 70% reduction in network traffic and 80% cutback in the power consumption of network components—all measures which align with the ultimate goal of sustainable computing to combat climate change. Through concentrating VM communications on fewer PMs, data transfer across the network is limited while beneficially reducing power usage.

"Our findings represent a major milestone in the area of cloud computing," says Sayyidshahab Nabavi, lead author of the study. "The novel approach considers both traffic and energy and applies the seagull optimization algorithm (SOA) to select the ideal virtual machine placement."

Notably, SOA surpasses other commonly used meta-heuristic optimization techniques due to its power in resolving large-scale constrained problems like resource scheduling in edge-cloud computing, as well as its speed in attaining a global minimum because of its better exploration and exploitation capability.

"Our simulation results show that SOA system improves ECDC  performance while decreasing switch activation times and power consumption," adds Nabavi.

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Contact the corresponding author: Sayyidshahab Nabavi, Institute of Electronic Engineering, FH JOANNEUM, University of Applied Sciences, Graz, Austria shahab.nab@gmail.com

The publisher KeAi was established by Elsevier and China Science Publishing & Media Ltd to unfold quality research globally. In 2013, our focus shifted to open access publishing. We now proudly publish more than 100 world-class, open access, English language journals, spanning all scientific disciplines. Many of these are titles we publish in partnership with prestigious societies and academic institutions, such as the National Natural Science Foundation of China (NSFC).