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Design-Space Exploration and Optimization of an Energy-Efficient and Reliable 3D Small-world Network-on-Chip

2016-08-24
Sourav Das, Janardhan Rao Doppa, Partha Pratim Pande, Krishnendu Chakrabarty

Abstract

A three-dimensional (3D) Network-on-Chip (NoC) enables the design of high performance and low power many-core chips. Existing 3D NoCs are inadequate for meeting the ever-increasing performance requirements of many-core processors since they are simple extensions of regular 2D architectures and they do not fully exploit the advantages provided by 3D integration. Moreover, the anticipated performance gain of a 3D NoC-enabled many-core chip may be compromised due to the potential failures of through-silicon-vias (TSVs) that are predominantly used as vertical interconnects in a 3D IC. To address these problems, we propose a machine-learning-inspired predictive design methodology for energy-efficient and reliable many-core architectures enabled by 3D integration. We demonstrate that a small-world network-based 3D NoC (3D SWNoC) performs significantly better than its 3D MESH-based counterparts. On average, the 3D SWNoC shows 35% energy-delay-product (EDP) improvement over 3D MESH for the PARSEC and SPLASH2 benchmarks considered in this work. To improve the reliability of 3D NoC, we propose a computationally efficient spare-vertical link (sVL) allocation algorithm based on a state-space search formulation. Our results show that the proposed sVL allocation algorithm can significantly improve the reliability as well as the lifetime of 3D SWNoC.

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URL

https://arxiv.org/abs/1608.06972

PDF

https://arxiv.org/pdf/1608.06972


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