基于任务适应调度策略的新型社会志愿者计算环境

IF 0.6 Q4 COMPUTER SCIENCE, THEORY & METHODS International Journal of Grid and High Performance Computing Pub Date : 2021-04-01 DOI:10.4018/IJGHPC.2021040103

Nabil Kadache, Rachid Seghir

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引用次数: 0

摘要

志愿计算(VC)已经成为一种比较成熟的分布式计算技术。它的基础是在征得用户同意的情况下，利用普通在线机器的空闲时间。目标应用程序通常是需要大量计算资源的科学项目。现有的风投平台提出了几个挑战。这项工作试图为两个失败带来解决方案。第一个是志愿者的参与;参与者的减少会影响全局的性能。为了解决这一问题，提出了一种新的社会志愿者计算环境，使更多的志愿者参与其中。第二个要解决的问题是任务调度，其目的是优化资源的使用。该算法为每个资源类生成许多任务，这些任务的执行成本反映了资源的瞬时容量。新的解决方案通过一个名为“Collatz猜想”的数论项目得到验证。

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A New Social Volunteer Computing Environment With Task-Adapted Scheduling Policy (TASP)

Volunteer computing (VC) has become a relatively mature technique of distributed computing. It is based on exploiting the idle time of ordinary online machines with the consent of their owners. Target applications are generally scientific projects requiring a huge amount of computational resources. Existing VC platforms raise several challenges. This work attempts to bring solutions for two defeats. The first one is the involvement of volunteers; the decreasing of participants affects the global performances. To cope with this, a new social volunteer computing environment is proposed in order to involve more volunteers. The second addressed problem is the task scheduling, which aims to optimize the use of resources. The proposed algorithm generates for each resource's class, a number of tasks whose cost of execution reflects the momentary capacity of the resources. The new solutions are validated through a theory of number's project, called “Collatz Conjecture.”

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