3D NoC-Bus混合架构的通用监控和管理基础设施

A. Rahmani, Kameswar Rao Vaddina, Khalid Latif, P. Liljeberg, J. Plosila, H. Tenhunen
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引用次数: 17

摘要

三维集成电路(3D ic)以更低的成本和更小的占地面积实现了增强的系统集成和改进的性能。为了利用3D集成电路固有的缩短线长的能力,提出了具有性能、功耗和面积优势的3D NoC-Bus混合网格结构。除了各种优点之外,该体系结构还具有一种独特的、迄今为止尚未开发的方式来实现高效的系统范围的监控网络。本文提出了一种低成本的三维堆叠网格结构集成监控平台,可以有效地用于交通监控、热管理和容错等多种系统管理目的。提出的通用监视和管理基础设施称为ARB-NET,利用总线仲裁器在不使用数据网络的情况下直接相互交换监视信息。作为测试用例,基于所提出的监控管理平台,利用总线仲裁器网络产生的可行信息,提出了一种完全感知拥塞、层间容错的路由算法AdaptiveXYZ。此外,我们在ARB-NET基础设施之上提出了热监测和管理策略。与最近提出的堆叠网格3D noc相比,我们对合成基准和真实基准的广泛模拟表明,我们使用AdaptiveXYZ路由的架构可以帮助实现显着的功率和性能改进,同时保持系统可靠性,硬件开销可以忽略不计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Generic Monitoring and Management Infrastructure for 3D NoC-Bus Hybrid Architectures
Three-dimensional integrated circuits (3D ICs) achieve enhanced system integration and improved performance at lower cost and reduced area footprint. In order to exploit the intrinsic capability of reducing the wire length in 3D ICs, 3D NoC-Bus Hybrid mesh architecture was proposed which provides performance, power consumption, and area benefits. Besides its various advantages, this architecture has a unique and hitherto previously unexplored way to implement an efficient system-wide monitoring network. In this paper, an integrated low-cost monitoring platform for 3D stacked mesh architectures is proposed which can be efficiently used for various system management purposes such as traffic monitoring, thermal management and fault tolerance. The proposed generic monitoring and management infrastructure called ARB-NET utilizes bus arbiters to exchange the monitoring information directly with each other without using the data network. As a test case, based on the proposed monitoring and management platform, a fully congestion-aware and inter-layer fault tolerant routing algorithm named AdaptiveXYZ is presented taking advantage of viable information generated using bus arbiter network. In addition, we propose a thermal monitoring and management strategy on top of our ARB-NET infrastructure. Compared to recently proposed stacked mesh 3D NoCs, our extensive simulations with synthetic and real benchmarks reveal that our architecture using the AdaptiveXYZ routing can help in achieving significant power and performance improvements while preserving the system reliability with negligible hardware overhead.
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