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引用次数: 5
摘要
近年来,片上网络(Network on chip, NoC)被认为是复杂芯片的最佳通信架构。与传统总线不同,NoC允许多个核心并发通信,提供了更多的可扩展性,提高了系统性能。为此,我们提出了一种灵活的NoC架构路由器。该路由器采用最小路由算法来避免死锁,并采用基于优先级的仲裁器来保证服务质量的提高。在本文中,我们优化了以前版本的路由器设计,并提出了一种有效的方法来减少NoC架构中管道阶段之间的依赖关系。该工作旨在降低硬件复杂度,提高系统性能。为了评估我们的设计表现,我们将其与文献中的其他流行作品进行了比较。
Design and evaluation of optimized router pipeline stages for network on chip
In the past few years, Network on chip (NoC) is presented as the best communication architecture for complex chip. Unlike conventional bus, NoC allows many cores to communicate concurrently, provides more scalability and enhance the system performances. For this reason, we propose a flexible router for NoC architecture. The proposed router implements a minimal routing algorithm to avoid deadlocks and a priority based arbiter to ensure the quality of service (QoS) improvement. In this paper, we optimize a previous version of our router design and present an efficient approach to reduce the dependency between the pipeline stages for NoC architectures. This work aims to reduce the hardware complexity and enhance the system performances. In order to evaluate our design performances we compared it with other popular works from the literature.
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