Priority Weighted Round Robin Algorithm for Load Balancing in the Cloud

Ajay Katangur, S. Akkaladevi, Sadiskumar Vivekanandhan
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引用次数: 2

Abstract

Cloud computing, which helps in sharing resources through networks, has become one of the most widely used technologies in recent years. Vast numbers of organizations are moving to the cloud since it is more cost-effective and easy to maintain. An increase in the number of consumers using the cloud, however, results in increased traffic, which leads to the problem of balancing tasks on the loads. Numerous dynamic algorithms [1] have been proposed and implemented to handle these loads in different ways. The performance of these dynamic algorithms are scaled with different parameters, such as response time, throughput, utilization, efficiency, etc. The weighted round-robin algorithm is one of the most widely used load balancing algorithms. The proposed algorithm is an improvement of the weighted round-robin algorithm, which considers the priority of every task before assigning the tasks to different virtual machines (VMs). The proposed algorithm uses the priority of tasks to decide to which VMs the tasks should be assigned dynamically. The same process is used to migrate the tasks from overloaded VMs to under-loaded VMs. The simulations are conducted using CloudSim by varying cloud resources. Simulation results show that the proposed algorithm performs equivalent to the dynamic weighted round robin algorithm in all the QoS factors, but it shows significant improvement in handling high-priority tasks.
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云负载均衡的优先级加权轮循算法
云计算有助于通过网络共享资源,近年来已成为使用最广泛的技术之一。大量的组织正在迁移到云,因为它更具成本效益且易于维护。然而,使用云的用户数量的增加会导致流量的增加,从而导致在负载上平衡任务的问题。已经提出并实现了许多动态算法[1]来以不同的方式处理这些负载。这些动态算法的性能随响应时间、吞吐量、利用率、效率等参数的变化而变化。加权轮循算法是应用最广泛的负载均衡算法之一。该算法是对加权轮询算法的改进,加权轮询算法考虑每个任务的优先级,然后将任务分配给不同的虚拟机。该算法利用任务的优先级动态决定任务分配给哪些虚拟机。将任务从负载过重的虚拟机迁移到负载过轻的虚拟机,也使用相同的流程。通过改变云资源,使用CloudSim进行模拟。仿真结果表明,该算法在QoS各方面的性能与动态加权轮询算法相当,但在处理高优先级任务方面有明显改进。
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