Design of a performance enhanced and power reduced dual-crossbar Network-on-Chip (NoC) architecture

Yixuan Zhang; Randy Morris; Avinash K. Kodi

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Design of a performance enhanced and power reduced dual-crossbar Network-on-Chip (NoC) architecture

机译：性能增强和功耗降低的双交叉开关片上网络（NoC）架构的设计

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The input buffers of the current packet-switched Network-on-Chip (NoC) architectures consume a significant portion of the total power of the interconnection network. Reducing the size of input buffers would result in degraded performance, while eliminating all buffers would result in increased power at high network load. In this article, we propose DXbar: an innovative dual-crossbar design. By combining the advantages of buffered and bufferless networks, we achieve at least 20% performance improvement in terms of throughput and latency, and at least 20% power saving over buffered networks with virtual channels. Furthermore, DXbar can outperform current bufferless networks with deflecting and dropping protocols while consuming at most half of the power.

机译：当前的分组交换片上网络（NoC）体系结构的输入缓冲器消耗了互连网络总功率的很大一部分。减小输入缓冲区的大小将导致性能下降，而消除所有缓冲区将导致在高网络负载下增加功率。在本文中，我们提出了DXbar：一种创新的双交叉开关设计。通过结合使用缓冲和无缓冲网络的优势，我们在吞吐量和延迟方面至少提高了20％的性能，与带虚拟通道的缓冲网络相比，节省了至少20％的电能。此外，DXbar可以通过偏转和丢弃协议胜过当前的无缓冲网络，而最多消耗一半的功率。

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来源
《Microprocessors and microsystems》 |2011年第2期|p.110-118|共9页
作者
Yixuan Zhang; Randy Morris; Avinash K. Kodi;
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作者单位

School of Electrical Engineering and Computer Science, Ohio University, Athens, OH 45701, United States;

School of Electrical Engineering and Computer Science, Ohio University, Athens, OH 45701, United States;

School of Electrical Engineering and Computer Science, Ohio University, Athens, OH 45701, United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
dual-crossbar; power reduction; network-on-chip;

机译：双交叉开关;功耗降低;片上网络;

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1. ON DESIGN AND APPLICATION MAPPING OF A NETWORK-ON-CHIP(NOC) ARCHITECTURE [J] . JUN HO BAHN, SEUNG EUN LEE, YOON SEOK YANG, Parallel Processing Letters . 2008,第2期

机译：片上网络（NOC）体系结构的设计和应用映射研究
2. An area-efficient low-power SCM topology for high performance network-on Chip (NoC) architecture using an optimized routing design [J] . R. Poovendran, S. Sumathi Concurrency, practice and experience . 2019,第14期

机译：使用优化的路由设计，用于高性能片上网络（NoC）架构的面积有效的低功耗SCM拓扑
3. P2NoC: Power- and Performance-aware NoC Architectures for Sustainable Computing [J] . Hemanta Kumar Mondal, Sri Harsha Gade, Raghav Kishore, Sustainable Computing . 2017,第deca期

机译：P2NoC：用于可持续计算的具有功耗和性能意识的NoC架构
4. Design of Intelligent Power Saving (IPS) architecture for reducing power and area in NoC [C] . Syed Basha S, Babu, T.Ravichandra IEEE International Conference on Innovations in Information , Embedded and Communication Systems . 2015

机译：用于降低NoC功耗和面积的智能节能（IPS）架构设计
5. Design of high-performance, energy-efficient, and reliable Network-on-Chip (NoC) architectures. [D] . Park, Dongkook. 2008

机译：高性能，高能效，可靠的片上网络（NoC）架构的设计。
6. Fault-Tolerant Network-On-Chip Router Architecture Design for Heterogeneous Computing Systems in the Context of Internet of Things [O] . Muhammad Rashid, Naveed Khan Baloch, Muhammad Akmal Shafique, 2020

机译：容错网络上环路路由器架构在内容互联网上的异构计算系统
7. High Performance Network-on-Chips (NoCs) Design: Performance Modeling, Routing Algorithm and Architecture Optimization [O] . Qian, Zhiliang 2014

机译：高性能片上网络（NoC）设计：性能建模，路由算法与体系结构优化

Design of a performance enhanced and power reduced dual-crossbar Network-on-Chip (NoC) architecture

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