Reliability-driven task mapping for lifetime extension of networks-on-chip based multiprocessor systems

Anup Das, Akash Kumar, B. Veeravalli
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引用次数: 77

Abstract

Shrinking transistor geometries, aggressive voltage scaling and higher operating frequencies have negatively impacted the lifetime reliability of embedded multi-core systems. In this paper, a convex optimization-based task-mapping technique is proposed to extend the lifetime of a multiprocessor systems-on-chip (MPSoCs). The proposed technique generates mappings for every application enabled on the platform with variable number of cores. Based on these results, a novel 3D-optimization technique is developed to distribute the cores of an MPSoC among multiple applications enabled simultaneously. Additionally, reliability of the underlying network-on-chip links is also addressed by incorporating aging of links in the objective function. Our formulations are developed for directed acyclic graphs (DAGs) and synchronous dataflow graphs (SDFGs), making our approach applicable for streaming as well as non-streaming applications. Experiments conducted with synthetic and real-life application graphs demonstrate that the proposed approach extends the lifetime of an MPSoC by more than 30% when applications are enabled individually as well as in tandem.
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基于片上网络的多处理器系统寿命扩展的可靠性驱动任务映射
缩小晶体管的几何形状,侵略性的电压缩放和更高的工作频率对嵌入式多核系统的寿命可靠性产生了负面影响。本文提出了一种基于凸优化的任务映射技术来延长多处理器片上系统(mpsoc)的寿命。提出的技术为平台上启用的每个具有可变核数的应用程序生成映射。基于这些结果,开发了一种新的3d优化技术,可以将MPSoC的核心分布在同时启用的多个应用中。此外,通过在目标函数中加入链路老化,还解决了底层片上网络链路的可靠性问题。我们的公式是为有向无环图(dag)和同步数据流图(sdfg)开发的,使我们的方法适用于流和非流应用程序。通过合成和实际应用图进行的实验表明,无论应用是单独启用还是串联启用,所提出的方法都可以将MPSoC的使用寿命延长30%以上。
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