Optimal Global Interconnects for Networks-on-Chip in Many-Core Architectures

Balakrishnan A.; Naeemi A.

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Optimal Global Interconnects for Networks-on-Chip in Many-Core Architectures

机译：多核架构中片上网络的最佳全局互连

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摘要

While integrated circuits are moving toward many-core architectures, no circuit-aware interconnect technology optimization methodology has been reported for such chips. To utilize a many-core chip to its full potential, low-latency ultrahigh-bandwidth intercore interconnects are needed. In this letter, for the first time, interconnect dimensions in a network-on-chip (NoC) are optimized to achieve large bandwidth density and small latency simultaneously. The optimal wire width for a NoC is found to be more than ten times smaller than the previously obtained optimal global interconnect width. For a 1000-core chip implemented in the technology year 2015, the optimal wire width is found to be minimum-dimension limited.

机译：尽管集成电路正朝着多核架构发展，但尚未有针对此类芯片的电路感知互连技术优化方法的报道。为了充分利用多核芯片的潜力，需要低延迟的超高带宽内核间互连。在这封信中，首次对片上网络（NoC）中的互连尺寸进行了优化，以同时实现较大的带宽密度和较小的延迟。发现NoC的最佳导线宽度比以前获得的最佳全局互连宽度小十倍以上。对于在2015年技术年度实施的1000核芯片，发现最佳导线宽度受到最小尺寸的限制。

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来源
《Electron Device Letters, IEEE》 |2010年第4期|P.290-292|共3页
作者
Balakrishnan A.; Naeemi A.;
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作者单位

School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta , GA, USA;

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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
Circuit optimization; delay estimation; multiprocessor interconnections; routing;

机译：电路优化;延迟估计;多处理器互连;路由;

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Optimal Global Interconnects for Networks-on-Chip in Many-Core Architectures

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