Lightweight thermal monitoring in optical networks-on-chip via router reuse
Optical network-on-chip (ONoC) is an emerging communication architecture for manycore systems due to low latency, high bandwidth, and low power dissipation. However, a major concern lies in its thermal susceptibility - under onchip temperature variations, functional nanophotonic devices, especially...
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sg-ntu-dr.10356-1453222023-12-15T04:17:21Z Lightweight thermal monitoring in optical networks-on-chip via router reuse Li, Mengquan Zhou, Jun Liu, Weichen School of Computer Science and Engineering 2020 Design, Automation & Test in Europe Conference & Exhibition (DATE) Engineering::Computer science and engineering Optical Sensors Monitoring Optical network-on-chip (ONoC) is an emerging communication architecture for manycore systems due to low latency, high bandwidth, and low power dissipation. However, a major concern lies in its thermal susceptibility - under onchip temperature variations, functional nanophotonic devices, especially microring resonator (MR)-based devices, suffer from significant thermal-induced optical power loss, which potentially counteracts the power advantages of ONoCs and even cause functional failures. Considering the fact that temperature gradients are typically found on many-core systems, effective thermal monitoring, performing as the foundation of thermal-aware management, is critical on ONoCs. In this paper, a lightweight thermal monitoring scheme is proposed for ONoCs. We first design a temperature measurement module based on generic optical routers. It introduces trivial overheads in chip area by reusing the components in routers. A major problem with reusing optical routers is that it may potentially interfere with the normal communications in ONoCs. To address it, we then propose a time allocation strategy to schedule thermal sensing operations in the time intervals between communications. Evaluation results show that our scheme exhibits an untrimmed inaccuracy of 1.0070 K with low energy consumption of 656.38 pJ/Sa. It occupies an extremely small area of 0.0020 mm 2 , reducing the area cost by 83.74% on average compared to the state-of-the-art optical thermal sensor design. Ministry of Education (MOE) Published version This work is partially supported by MoE AcRF Tier 2 MOE2019-T2-1-071 and Tier 1 MOE2019-T1-1-072, NTU NAP M4082282 and SUG M4082087, Singapore and NSFC 61772094, China. 2020-12-17T04:47:24Z 2020-12-17T04:47:24Z 2020 Conference Paper Li, M., Zhou, J., & Liu, W. (2020). Lightweight thermal monitoring in optical networks-on-chip via router reuse. Proceedings of the Design, Automation & Test in Europe Conference & Exhibition (DATE), 406-411. doi:10.23919/DATE48585.2020.9116351 https://hdl.handle.net/10356/145322 10.23919/DATE48585.2020.9116351 406 411 en 10.21979/N9/O2VA8M © 2020 European Design and Automation Association (EDAA). All rights reserved. This paper was published in 2019 Design, Automation & Test in Europe Conference & Exhibition (DATE) and is made available with permission of European Design and Automation Association (EDAA). application/pdf |
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Engineering::Computer science and engineering Optical Sensors Monitoring Li, Mengquan Zhou, Jun Liu, Weichen Lightweight thermal monitoring in optical networks-on-chip via router reuse |
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Optical network-on-chip (ONoC) is an emerging communication architecture for manycore systems due to low latency, high bandwidth, and low power dissipation. However, a major concern lies in its thermal susceptibility - under onchip temperature variations, functional nanophotonic devices, especially microring resonator (MR)-based devices, suffer from significant thermal-induced optical power loss, which potentially counteracts the power advantages of ONoCs and even cause functional failures. Considering the fact that temperature gradients are typically found on many-core systems, effective thermal monitoring, performing as the foundation of thermal-aware management, is critical on ONoCs. In this paper, a lightweight thermal monitoring scheme is proposed for ONoCs. We first design a temperature measurement module based on generic optical routers. It introduces trivial overheads in chip area by reusing the components in routers. A major problem with reusing optical routers is that it may potentially interfere with the normal communications in ONoCs. To address it, we then propose a time allocation strategy to schedule thermal sensing operations in the time intervals between communications. Evaluation results show that our scheme exhibits an untrimmed inaccuracy of 1.0070 K with low energy consumption of 656.38 pJ/Sa. It occupies an extremely small area of 0.0020 mm 2 , reducing the area cost by 83.74% on average compared to the state-of-the-art optical thermal sensor design. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Li, Mengquan Zhou, Jun Liu, Weichen |
| format |
Conference or Workshop Item |
| author |
Li, Mengquan Zhou, Jun Liu, Weichen |
| author_sort |
Li, Mengquan |
| title |
Lightweight thermal monitoring in optical networks-on-chip via router reuse |
| title_short |
Lightweight thermal monitoring in optical networks-on-chip via router reuse |
| title_full |
Lightweight thermal monitoring in optical networks-on-chip via router reuse |
| title_fullStr |
Lightweight thermal monitoring in optical networks-on-chip via router reuse |
| title_full_unstemmed |
Lightweight thermal monitoring in optical networks-on-chip via router reuse |
| title_sort |
lightweight thermal monitoring in optical networks-on-chip via router reuse |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145322 |
| _version_ |
1787136643226927104 |