设计特定应用的3D片上网络架构

2008 IEEE International Conference on Computer Design Pub Date : 2008-10-01 DOI:10.1109/ICCD.2008.4751853

Shan Yan, Bill Lin

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引用次数: 62

摘要

三维(3D)硅集成技术的日益增长的可行性为芯片设计创新开辟了新的机会，包括将基于片上网络(NoC)互连架构的新兴片上系统(SoC)设计范例扩展到3D芯片设计的前景。在本文中，我们考虑了设计针对给定应用进行优化的特定应用的3D-NoC架构的问题。我们提出了新颖的3D- noc合成算法，该算法利用精确的功率和延迟模型进行具有硅通孔的3D布线。特别是，我们提出了一种非常有效的3D-NoC合成算法，称为ripup-reroute-and-router- merge (RRRM)，该算法基于路由流的撕裂和重路由公式以及网络优化的路由器合并过程。在3D- noc设计案例上的实验结果表明，我们的合成结果比常规3D网格实现平均降低74%的功耗和17%的跳数，比优化的3D网格实现平均降低52%的功耗和17%的跳数。

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Design of application-specific 3D Networks-on-Chip architectures

The increasing viability of three dimensional (3D) silicon integration technology has opened new opportunities for chip design innovations, including the prospect of extending emerging systems-on-chip (SoC) design paradigms based on networks-on-chip (NoC) interconnection architectures to 3D chip designs. In this paper, we consider the problem of designing application-specific 3D-NoC architectures that are optimized for a given application. We present novel 3D-NoC synthesis algorithms that make use of accurate power and delay models for 3D wiring with through-silicon vias. In particular, we present a very efficient 3D-NoC synthesis algorithm called ripup-reroute-and-router-merging (RRRM), that is based on a rip-up and reroute formulation for routing flows and a router merging procedure for network optimization. Experimental results on 3D-NoC design cases show that our synthesis results can on average achieve a 74% reduction in power consumption and a 17% reduction in hop count over regular 3D mesh implementations and a 52% reduction in power consumption and a 17% reduction in hop count over optimized 3D mesh implementations.

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2008 IEEE International Conference on Computer Design

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