利用高带宽光子技术的多 FPGA 网内稳定弧度分类器 [特邀］

IF 4 2区计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE Journal of Optical Communications and Networking Pub Date : 2024-11-13 DOI:10.1364/JOCN.530695

Kenji Mizutani;Yutaka Urino;Takanori Shimizu;Hiroshi Yamaguchi;Shigeru Nakamura;Tatsuya Usuki;Kiyo Ishii;Ryosuke Matsumoto;Takashi Inoue;Shu Namiki;Michihiro Koibuchi

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引用次数: 0

摘要

现代现场可编程门阵列（FPGA）卡可配备高带宽存储器和高带宽光互连网络。本文介绍了一种基于八 FPGA 集群的网内稳定弧度分拣机。每个定制的 Stratix10 MX2100 FPGA 卡拥有高达 819-Gbps 的内存带宽（{51.2}\;{rm Gbps} （{16}\;{rm 通道}$）和高达 800-Gbps 的网络带宽（{25}\;{rm Gbps} （{32}\;{rm 通道}$），并带有八个定制的嵌入式光模块。我们用于 32 位密钥范围的 radix 排序器由 8 个 4 位计数排序器组成，并针对网络内处理进行了优化。每个计数排序只需一次内存读/写访问即可提高吞吐量。我们演示了在 32 位密钥范围和 16 GB 数据大小下，使用 8 个内存通道（每个 FPGA 拥有 409.6 Gbps 内存带宽）实现 37.2 GB/s 的排序吞吐量和 9.2 MB/J 的能效。在 32 位密钥范围和 512 GB 数据大小的情况下，它可以扩展到 256 个 FPGA，排序吞吐量为 983 GB/s。

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In-network stable radix sorter using many FPGAs with high-bandwidth photonics [Invited]

A modern field-programmable gate array (FPGA) card can be equipped with high-bandwidth memory and high-bandwidth optical interconnection networks. This paper presents an in-network stable radix sorter on an eight-FPGA cluster. Each custom Stratix10 MX2100 FPGA card has up to 819-Gbps memory bandwidth ( ${51.2}\;{\rm Gbps} \times {16}\;{\rm channels}$ ) and up to 800-Gbps network bandwidth ( ${25}\;{\rm Gbps} \times {32}\;{\rm channels}$ ) with eight custom embedded optical modules. Our radix sorter for a 32-bit key range consists of eight 4-bit counting sorts optimized to in-network processing. Each counting sort needs only one memory read/write access for improving its throughput. We demonstrated a sorting throughput of 37.2 GB/s and an energy efficiency of 9.2 MB/J for 32-bit key range and 16-GiB data size using eight memory channels with 409.6 Gbps memory bandwidth per FPGA. It can scale up to 256 FPGAs with a sorting throughput of 983 GB/s for a 32-bit key range and 512-GiB data size.

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来源期刊

Journal of Optical Communications and Networking 工程技术-电信学

CiteScore

9.40

自引率

16.00%

发文量

104

审稿时长

4 months

期刊介绍： The scope of the Journal includes advances in the state-of-the-art of optical networking science, technology, and engineering. Both theoretical contributions (including new techniques, concepts, analyses, and economic studies) and practical contributions (including optical networking experiments, prototypes, and new applications) are encouraged. Subareas of interest include the architecture and design of optical networks, optical network survivability and security, software-defined optical networking, elastic optical networks, data and control plane advances, network management related innovation, and optical access networks. Enabling technologies and their applications are suitable topics only if the results are shown to directly impact optical networking beyond simple point-to-point networks.