Cluster-based topologies for 3D stacked architectures

ACM International Conference on Computing Frontiers Pub Date : 2011-05-03 DOI:10.1145/2016604.2016621
M. Daneshtalab, M. Ebrahimi, P. Liljeberg, J. Plosila, H. Tenhunen
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引用次数: 7

Abstract

As Three Dimensional Integrated Circuits (3D ICs) have been emerging as a viable candidate to achieve better performance and package, combining the benefits of 3D IC and Network-on-Chip (NoC) schemes provides a significant performance gain for 3D architectures. Through-Silicon-Via (TSV), employed for inter-layer connectivity (vertical channel)in 3D ICs, reduces wafer utilization and yield which impact design of 3D architectures using a large number of TSVs. In this paper, we propose two novel stacked topologies for 3D architectures to reduce the area overhead of TSVs and power dissipation on each layer with minimal performance penalty. The presented schemes benefit of clustering the mesh topology in order to mitigate TSV footprint on each stacked layer.
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基于集群的3D堆叠结构拓扑
由于三维集成电路(3D IC)已经成为实现更好性能和封装的可行候选,将3D IC和片上网络(NoC)方案的优势结合起来,可以为3D架构提供显着的性能提升。通过硅通孔(TSV)在3D集成电路中用于层间连接(垂直通道),降低了晶圆利用率和产量,影响了使用大量TSV的3D架构的设计。在本文中,我们提出了两种新的用于3D架构的堆叠拓扑,以减少tsv的面积开销和每层的功耗,同时最小化性能损失。所提出的方案利用网格拓扑聚类来减少TSV在每个堆叠层上的占用。
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ACM International Conference on Computing Frontiers
ACM International Conference on Computing Frontiers
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