基于冲突最小化的P2P桌面网格动态负载均衡

S. Di, Cho-Li Wang
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引用次数: 5

摘要

完全分散的P2P桌面网格资源分配允许每个参与节点同时充当资源提供者和请求者。系统的性能指标(包括吞吐量、makespan等)很容易因负载分配不平衡而降低,这可能是由于任意任务提交导致异构资源状态快速变化造成的。尽管协作式负载再平衡方法可以缓解这一问题,但随着任务到达率的增加,它们可能会引入对未充分利用的资源的争用,从而导致负载均衡效果不佳。我们的研究重点是如何在P2P桌面网格中通过考虑最小化自主任务迁移决策的冲突来优化负载平衡状态。我们的负载再平衡过程被建模为一组独立的随机伯努利试验,通过让每个重负载节点将其剩余负载推送到周围的轻负载节点。在考虑决策冲突的情况下,证明了剩余负载量应按适当比例进行转移,并设计了一种新的负载均衡算法,该算法具有可证明的决策冲突概率小的特点。我们推导了这个概率的上限,在我们的算法下,这个上限将降低到2%左右。最后,我们通过仿真验证了系统性能可以得到显著提高。
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Conflict-minimizing dynamic load balancing for P2P desktop Grid
Fully decentralized resource allocation for P2P desktop Grid allows each participating node to act as both resource provider and requester. The system performance indicators (including throughput, makespan, etc) are easily degraded by the unbalanced load distribution, which is probably caused by the fast-changing states of heterogeneous resources due to arbitrary task submissions. Although the cooperative load rebalancing methods can mitigate the problem, they are likely to introduce the contention on under-utilized resources with growing task arrival rates, leading to the sub-optimal load balancing efficacy. Our focus is on how to optimize load balancing status by taking into account minimizing the conflict of autonomic task migration decisions in P2P desktop Grid. Our load rebalancing process is modeled as a set of independent stochastic Bernoulli trials by letting each heavily loaded node push its surplus loads to its surrounding lightly loaded nodes. We proved that the surplus load amount should be shifted based on a proper ratio by considering decision conflicts and designed a novel load balancing algorithm with provably small decision conflict probability. We derived an upper-bound for this probability, which will be reduced down to about 2% under our algorithm. Finally, we validated via simulation that the system performance can be significantly improved accordingly.
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