分布式实时系统延迟分配的在线优化

C. Lumezanu, S. Bhola, Mark Astley
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引用次数: 10

摘要

随着分布式实时应用程序的流行,一个关键的挑战是分配资源,以便在不违反时效性约束的情况下,能够适应不同的实时需求(包括非实时应用程序)、分布式应用程序组件和不同的工作负载。我们研究了分布式软实时系统中的资源分配问题,其中网络和CPU资源都被消耗。应用程序的时效性约束通过效用函数表示,效用函数将“收益”计算为端到端延迟的函数。我们提出了LLA(拉格朗日延迟分配),这是一种可扩展和高效的分布式算法,通过计算端到端延迟和分配资源之间的最佳权衡来最大化总效用。该算法可以连续运行,并适应工作负载和资源的变化。如果工作负载和资源需求稳定,LLA可以保证收敛。我们评估了结果的质量和收敛特性在各种工作负载下,使用模拟和现实世界的实验。
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Online Optimization for Latency Assignment in Distributed Real-Time Systems
As distributed real-time applications gain in popularity, a key challenge is to allocate resources so that diverse real-time requirements (including non-real-time applications), distributed application components and varying workloads can all be accommodated without violating timeliness constraints. We examine the problem of resource allocation in distributed soft real-time systems, where both network and CPU resources are consumed. The timeliness constraints of applications are expressed through utility functions, which compute "benefit" as a function of end-to-end latency. We present LLA (Lagrangian Latency Assignment), a scalable and efficient distributed algorithm which maximizes aggregate utility by computing an optimal trade-off between end-to-end latency and allocated resources. The algorithm runs continuously and adapts to both workload and resource variations. LLA is guaranteed to converge if the workload and resource requirements stabilize. We evaluate the quality of results and convergence characteristics under various workloads, using both simulation and real-world experimentation.
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