Toward Parallelism-Optimal Topology Generation for Wavelength-Routed Optical NoC Designs

The wavelength-routed optical network-on-chip (WRONoC) emerges as a promising solution for multi-core system communication, providing high-bandwidth, high-speed, and low-power transmission. As the number of cores in a WRONoC increases, however, some WRONoC topologies could be infeasible with bandwid...

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Bibliographic Details
Published in2023 60th ACM/IEEE Design Automation Conference (DAC) pp. 1 - 6
Main Authors Chen, Kuan-Cheng, Chen, Yan-Lin, Lu, Yu-Sheng, Chang, Yao-Wen
Format Conference Proceeding
LanguageEnglish
Published IEEE 09.07.2023
Subjects
Network topology
Network-on-chip
Optical crosstalk
Optical design
Optical fiber networks
Optical resonators
Parallel processing
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Summary:The wavelength-routed optical network-on-chip (WRONoC) emerges as a promising solution for multi-core system communication, providing high-bandwidth, high-speed, and low-power transmission. As the number of cores in a WRONoC increases, however, some WRONoC topologies could be infeasible with bandwidth and crosstalk constraints if bit-level parallelism is not considered during topology generation. Previous work optimized the parallelism only for the radius selection of microring resonators but not for topology generation. To remedy this drawback, we present a parallelism-aware WRONoC topology generation flow. The proposed flow guarantees to generate a parallelism-optimal topology for full connectivity; and a parallelism-optimal topology for customized connectivity if the netlist meets certain conditions. Compared with the state-of-the-art methods, experimental results show a 67.5% improvement in parallelism.
DOI:10.1109/DAC56929.2023.10247996