Intra-chip Wireless Interconnect: The Road Ahead

Proceedings of the 10th International Workshop on Network on Chip Architectures Pub Date : 2017-10-14 DOI:10.1145/3139540.3139548

A. Ganguly, N. Mansoor, Md Shahriar Shamim, M. Ahmed, Rounak Singh Narde, Abhishek Vashist, J. Venkataraman

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引用次数: 5

Abstract

On-chip wireless interconnects have been proposed to provide energy-efficient data communication paths between cores in System-on-Chips (SoCs) in the multi and many-core era. Networks-on-Chips (NoCs) when interconnecting hundreds of cores consume large amounts of energy and suffer from high and unpredictable latency due to congestion at intermediate routers. Wireless interconnects alleviate this problem by providing direct single-hop links between distant cores in the chip. While various wireless NoC (WiNoC) architectures have been proposed and evaluated in the in the past decade this technology is not yet adopted in the mainstream industry. In order to benefit from the past decade of research in WiNoC designs a few important myths regarding wireless interconnects need to be dispelled while propelling the research to tangible technology transfer. In this paper several vectors that define the design space of WiNoCs will be identified while highlighting the state-of-the-art accomplishments in those directions by leading research groups. This will be followed by identifying the future direction that needs to be pursued to make WiNoCs a mainstream reality. At the end a few potential high-impact use-cases for wireless interconnects are discussed.

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芯片内无线互连:未来之路

在多核和多核时代，为了在片上系统(soc)内核之间提供高能效的数据通信路径，提出了片上无线互连技术。当连接数百个核心时，片上网络(noc)会消耗大量的能量，并且由于中间路由器的拥塞而遭受高且不可预测的延迟。无线互连通过在芯片中遥远的核心之间提供直接的单跳连接来缓解这个问题。虽然在过去的十年中已经提出了各种无线NoC (WiNoC)架构并对其进行了评估，但该技术尚未被主流行业采用。为了从过去十年的WiNoC设计研究中获益，在推动研究向有形技术转移的同时，需要消除一些关于无线互连的重要神话。在本文中，定义WiNoCs设计空间的几个向量将被确定，同时强调由领先的研究小组在这些方向上取得的最新成就。接下来将确定需要追求的未来方向，使WiNoCs成为主流现实。最后讨论了无线互连的一些潜在的高影响用例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 10th International Workshop on Network on Chip Architectures

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