Area and power savings via asymmetric organization of buffers in 3D-NoCs for heterogeneous 3D-SoCs

Jan Moritz Joseph; Christopher Blochwitz; Alberto García-Ortiz; Thilo Pionteck

doi:10.1016/j.micpro.2016.09.011

Area and power savings via asymmetric organization of buffers in 3D-NoCs for heterogeneous 3D-SoCs

Jan Moritz Joseph^*, Christopher Blochwitz, Alberto García-Ortiz, Thilo Pionteck

^*Corresponding author for this work

Institute of Computer Engineering

University of Bremen

12 Citations (Scopus)

Abstract

In this paper we investigate the effects of asymmetric organization and depths of Network-on-Chip (NoC) router buffers among dies in heterogeneous 3D-System-on-Chips (SoCs). In our novel approach the properties of the routers are aligned with the characteristics of the technological nodes per layer. We call these designs Asymmetric 3D-NoCs (A-3D-NoCs). In this work we demonstrate potentials of A-3D-NoCs in comparison to a conventional, symmetric 3D-NoC: Applying asymmetric buffer reorganization we achieve area savings of 8.3% and power savings of 5.4% for link buffers while accepting a minor average system performance loss of 2.1%. With additional asymmetry in buffer depth up to 28% cost savings and 15% power reduction are given in combination with a 4.6% performance decline. Thus, the proposed buffer organization scheme is applicable for cost and power critical applications of NoCs in heterogeneous 3D-SoCs.

Original language	English
Journal	Microprocessors and Microsystems
Volume	48
Pages (from-to)	36-47
Number of pages	12
ISSN	0141-9331
DOIs	https://doi.org/10.1016/j.micpro.2016.09.011
Publication status	Published - 01.02.2017

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10.1016/j.micpro.2016.09.011

Cite this

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title = "Area and power savings via asymmetric organization of buffers in 3D-NoCs for heterogeneous 3D-SoCs",

abstract = "In this paper we investigate the effects of asymmetric organization and depths of Network-on-Chip (NoC) router buffers among dies in heterogeneous 3D-System-on-Chips (SoCs). In our novel approach the properties of the routers are aligned with the characteristics of the technological nodes per layer. We call these designs Asymmetric 3D-NoCs (A-3D-NoCs). In this work we demonstrate potentials of A-3D-NoCs in comparison to a conventional, symmetric 3D-NoC: Applying asymmetric buffer reorganization we achieve area savings of 8.3\% and power savings of 5.4\% for link buffers while accepting a minor average system performance loss of 2.1\%. With additional asymmetry in buffer depth up to 28\% cost savings and 15\% power reduction are given in combination with a 4.6\% performance decline. Thus, the proposed buffer organization scheme is applicable for cost and power critical applications of NoCs in heterogeneous 3D-SoCs.",

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T1 - Area and power savings via asymmetric organization of buffers in 3D-NoCs for heterogeneous 3D-SoCs

AU - Joseph, Jan Moritz

AU - Blochwitz, Christopher

AU - García-Ortiz, Alberto

AU - Pionteck, Thilo

PY - 2017/2/1

Y1 - 2017/2/1

N2 - In this paper we investigate the effects of asymmetric organization and depths of Network-on-Chip (NoC) router buffers among dies in heterogeneous 3D-System-on-Chips (SoCs). In our novel approach the properties of the routers are aligned with the characteristics of the technological nodes per layer. We call these designs Asymmetric 3D-NoCs (A-3D-NoCs). In this work we demonstrate potentials of A-3D-NoCs in comparison to a conventional, symmetric 3D-NoC: Applying asymmetric buffer reorganization we achieve area savings of 8.3% and power savings of 5.4% for link buffers while accepting a minor average system performance loss of 2.1%. With additional asymmetry in buffer depth up to 28% cost savings and 15% power reduction are given in combination with a 4.6% performance decline. Thus, the proposed buffer organization scheme is applicable for cost and power critical applications of NoCs in heterogeneous 3D-SoCs.

AB - In this paper we investigate the effects of asymmetric organization and depths of Network-on-Chip (NoC) router buffers among dies in heterogeneous 3D-System-on-Chips (SoCs). In our novel approach the properties of the routers are aligned with the characteristics of the technological nodes per layer. We call these designs Asymmetric 3D-NoCs (A-3D-NoCs). In this work we demonstrate potentials of A-3D-NoCs in comparison to a conventional, symmetric 3D-NoC: Applying asymmetric buffer reorganization we achieve area savings of 8.3% and power savings of 5.4% for link buffers while accepting a minor average system performance loss of 2.1%. With additional asymmetry in buffer depth up to 28% cost savings and 15% power reduction are given in combination with a 4.6% performance decline. Thus, the proposed buffer organization scheme is applicable for cost and power critical applications of NoCs in heterogeneous 3D-SoCs.

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DO - 10.1016/j.micpro.2016.09.011

M3 - Journal articles

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EP - 47

JO - Microprocessors and Microsystems

JF - Microprocessors and Microsystems

ER -

Area and power savings via asymmetric organization of buffers in 3D-NoCs for heterogeneous 3D-SoCs

Abstract

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