DL ‐ DC : Deep learning‐based deadline constrained load balancing technique

Load balancing is a crucial feature of cloud computing that evenly distributes workload between servers, network interfaces, and hard drives. Because of dynamic computing over the internet, cloud computing suffers from request overloading. To address this challenge, this paper proposes a new deep le...

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Veröffentlicht in:	Concurrency and computation 2023-11, Vol.35 (26)
Hauptverfasser:	Champla, Dharavath, Dhandapani, Sivakumar, Velmurugan, Nagarajan
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Cloud computing Deep learning Load balancing Network latency Resource utilization Response time Schedules Servers Virtual environments
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container_title	Concurrency and computation
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creator	Champla, Dharavath Dhandapani, Sivakumar Velmurugan, Nagarajan
description	Load balancing is a crucial feature of cloud computing that evenly distributes workload between servers, network interfaces, and hard drives. Because of dynamic computing over the internet, cloud computing suffers from request overloading. To address this challenge, this paper proposes a new deep learning‐based deadline constrained (DL‐DC) load balancing technique. The proposed DL‐DC technique will improve resource utilization, reduce cost, latency, and response time, as well as balance load between servers and improve reliability. The proposed DL‐DC technique will direct traffic to a load balancer, which will forward the load with a deadline to a deep Inception ResNet. This network considers some parameters, such as sticky session, content‐based and instance health check and efficiently predicts the schedule for the task. Finally, a predicted task schedule has been derived using the DL‐DC model which is used to distribute the task to the virtual machine. The proposed DL‐DC load balancing algorithm is compared with other existing algorithms such as QMPSO, DQTS, and ACSO in terms of cost, makespan, response time, transmission time and task migration. The proposed method achieves up to 21.08% low response time, 27.3% decrease in make span, 25.5% decrease in task migration, and 38.9% decrease in cost respectively.
doi_str_mv	10.1002/cpe.7839
format	Article
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subjects	Algorithms Cloud computing Deep learning Load balancing Network latency Resource utilization Response time Schedules Servers Virtual environments
title	DL ‐ DC : Deep learning‐based deadline constrained load balancing technique
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