The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Récemment, les chercheurs ont accordé davantage d’attention à la conception de routeurs optiques, car ils constituent des éléments essentiels de toutes les architectures d’interconnexion photonique. Ainsi, les améliorer pourrait conduire à une amélioration spontanée des performances globales du réseau. Les routeurs optiques souffrent du dilemme de l’augmentation de la perte d’insertion et de la diaphonie, ce qui augmente la consommation d’énergie à mesure que le réseau évolue. Dans cet article, nous proposons un nouveau routeur optique non bloquant 7 × 7 basé sur l'algorithme Dimension Order Routing (DOR). De plus, nous développons une méthode permettant de garantir le plus petit nombre de résonateurs MicroRing (MRR) dans un routeur optique. Par conséquent, en réduisant ces dispositifs optiques, le routeur optique proposé peut diminuer la diaphonie et la perte d’insertion du réseau. Ce routeur optique est évalué et comparé au routeur de Ye et à la barre transversale optimisée pour le réseau 3D Mesh qui utilise l'algorithme de routage XYZ. Contrairement à de nombreux autres routeurs proposés, cet article évalue les routeurs optiques non seulement du point de vue prospectif au niveau du routeur, mais prend également en compte l'état global au niveau du réseau. Les évaluations montrent que notre routeur optique peut réduire la perte d'insertion réseau dans le pire des cas de près de 8.7 %, 46.39 %, 39.3 % et 41.4 % par rapport au routeur de Ye, à la barre transversale optimisée, à l'OR universel optimisé et au VOTEX optimisé, respectivement. De plus, il diminue le rapport signal/bruit optique (OSNR) dans le pire des cas de près de 27.92 %, 88 %, 77 % et 69.6 % par rapport au routeur de Ye, à la barre transversale optimisée, à l'OR universel optimisé et au VOTEX optimisé, respectivement. Il réduit également la consommation d'énergie de 3.22 %, 23.99 %, 19.12 % et 20.18 % par rapport au routeur de Ye, à la barre transversale optimisée, à l'OR universel optimisé et au VOTEX optimisé, respectivement.
Meaad FADHEL
Xidian University
Huaxi GU
Xidian University
Wenting WEI
Xidian University
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Meaad FADHEL, Huaxi GU, Wenting WEI, "DORR: A DOR-Based Non-Blocking Optical Router for 3D Photonic Network-on-Chips" in IEICE TRANSACTIONS on Information,
vol. E104-D, no. 5, pp. 688-696, May 2021, doi: 10.1587/transinf.2020EDP7122.
Abstract: Recently, researchers paid more attention on designing optical routers, since they are essential building blocks of all photonic interconnection architectures. Thus, improving them could lead to a spontaneous improvement in the overall performance of the network. Optical routers suffer from the dilemma of increased insertion loss and crosstalk, which upraises the power consumed as the network scales. In this paper, we propose a new 7×7 non-blocking optical router based on the Dimension Order Routing (DOR) algorithm. Moreover, we develop a method that can ensure the least number of MicroRing Resonators (MRRs) in an optical router. Therefore, by reducing these optical devices, the optical router proposed can decrease the crosstalk and insertion loss of the network. This optical router is evaluated and compared to Ye's router and the optimized crossbar for 3D Mesh network that uses XYZ routing algorithm. Unlike many other proposed routers, this paper evaluates optical routers not only from router level prospective yet also consider the overall network level condition. The appraisals show that our optical router can reduce the worst-case network insertion loss by almost 8.7%, 46.39%, 39.3%, and 41.4% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively. Moreover, it decreases the Optical Signal-to-Noise Ratio (OSNR) worst-case by almost 27.92%, 88%, 77%, and 69.6% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively. It also reduces the power consumption by 3.22%, 23.99%, 19.12%, and 20.18% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively.
URL: https://global.ieice.org/en_transactions/information/10.1587/transinf.2020EDP7122/_p
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@ARTICLE{e104-d_5_688,
author={Meaad FADHEL, Huaxi GU, Wenting WEI, },
journal={IEICE TRANSACTIONS on Information},
title={DORR: A DOR-Based Non-Blocking Optical Router for 3D Photonic Network-on-Chips},
year={2021},
volume={E104-D},
number={5},
pages={688-696},
abstract={Recently, researchers paid more attention on designing optical routers, since they are essential building blocks of all photonic interconnection architectures. Thus, improving them could lead to a spontaneous improvement in the overall performance of the network. Optical routers suffer from the dilemma of increased insertion loss and crosstalk, which upraises the power consumed as the network scales. In this paper, we propose a new 7×7 non-blocking optical router based on the Dimension Order Routing (DOR) algorithm. Moreover, we develop a method that can ensure the least number of MicroRing Resonators (MRRs) in an optical router. Therefore, by reducing these optical devices, the optical router proposed can decrease the crosstalk and insertion loss of the network. This optical router is evaluated and compared to Ye's router and the optimized crossbar for 3D Mesh network that uses XYZ routing algorithm. Unlike many other proposed routers, this paper evaluates optical routers not only from router level prospective yet also consider the overall network level condition. The appraisals show that our optical router can reduce the worst-case network insertion loss by almost 8.7%, 46.39%, 39.3%, and 41.4% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively. Moreover, it decreases the Optical Signal-to-Noise Ratio (OSNR) worst-case by almost 27.92%, 88%, 77%, and 69.6% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively. It also reduces the power consumption by 3.22%, 23.99%, 19.12%, and 20.18% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively.},
keywords={},
doi={10.1587/transinf.2020EDP7122},
ISSN={1745-1361},
month={May},}
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TY - JOUR
TI - DORR: A DOR-Based Non-Blocking Optical Router for 3D Photonic Network-on-Chips
T2 - IEICE TRANSACTIONS on Information
SP - 688
EP - 696
AU - Meaad FADHEL
AU - Huaxi GU
AU - Wenting WEI
PY - 2021
DO - 10.1587/transinf.2020EDP7122
JO - IEICE TRANSACTIONS on Information
SN - 1745-1361
VL - E104-D
IS - 5
JA - IEICE TRANSACTIONS on Information
Y1 - May 2021
AB - Recently, researchers paid more attention on designing optical routers, since they are essential building blocks of all photonic interconnection architectures. Thus, improving them could lead to a spontaneous improvement in the overall performance of the network. Optical routers suffer from the dilemma of increased insertion loss and crosstalk, which upraises the power consumed as the network scales. In this paper, we propose a new 7×7 non-blocking optical router based on the Dimension Order Routing (DOR) algorithm. Moreover, we develop a method that can ensure the least number of MicroRing Resonators (MRRs) in an optical router. Therefore, by reducing these optical devices, the optical router proposed can decrease the crosstalk and insertion loss of the network. This optical router is evaluated and compared to Ye's router and the optimized crossbar for 3D Mesh network that uses XYZ routing algorithm. Unlike many other proposed routers, this paper evaluates optical routers not only from router level prospective yet also consider the overall network level condition. The appraisals show that our optical router can reduce the worst-case network insertion loss by almost 8.7%, 46.39%, 39.3%, and 41.4% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively. Moreover, it decreases the Optical Signal-to-Noise Ratio (OSNR) worst-case by almost 27.92%, 88%, 77%, and 69.6% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively. It also reduces the power consumption by 3.22%, 23.99%, 19.12%, and 20.18% compared to Ye's router, optimized crossbar, optimized universal OR, and Optimized VOTEX, respectively.
ER -