Optically Connected Memory for Disaggregated Data Centers

机译：用于分类数据中心的光连接内存

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Recent advances in integrated photonics enable the implementation of reconfigurable, high-bandwidth, and low energy-per-bit interconnects in next-generation data centers. We propose and evaluate an Optically Connected Memory (OCM) architecture that disaggregates the main memory from the computation nodes in data centers. OCM is based on micro-ring resonators (MRRs), and it does not require any modification to the DRAM memory modules. We calculate energy consumption from real photonic devices and integrate them into a system simulator to evaluate performance. Our results show that (1) OCM is capable of interconnecting four DDR4 memory channels to a computing node using two fibers with 1.07 pJ energy-per-bit consumption and (2) OCM performs up to 5.5x faster than a disaggregated memory with 40G PCIe NIC connectors to computing nodes.

机译：集成光子技术的最新进展使下一代数据中心能够实现可重新配置的，高带宽和低单位能耗的互连。我们提出并评估了一种光学连接内存（OCM）架构，该架构可将主内存与数据中心的计算节点进行分解。 OCM基于微环谐振器（MRR），并且不需要对DRAM存储模块进行任何修改。我们计算实际光子设备的能耗，并将其集成到系统模拟器中以评估性能。我们的结果表明：（1）OCM能够使用两条光纤（每位能量消耗1.07 pJ能量）将四个DDR4内存通道互连到计算节点，并且（2）OCM的性能比具有40G PCIe的分解内存快5.5倍NIC连接到计算节点的连接器。

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《IEEE International Symposium on Computer Architecture and High Performance Computing》|2020年|43-50|共8页
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Jorge Gonzalez; Alexander Gazman; Maarten Hattink; Mauricio G. Palma; Meisam Bahadori; Ruth Rubio-Noriega; Lois Orosa; Madeleine Glick; Onur Mutlu; Keren Bergman; Rodolfo Azevedo;
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disaggregated computing; disaggregated memory; photonics; data-centers; DRAM; memory systems;

机译：分解计算;分解内存;光子学;数据中心; DRAM;内存系统;

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专利

1. Building Data Centers With Optically Connected Memory [J] . Brunina D., Lai C., Garg A., Optical Communications and Networking, IEEE/OSA Journal of . 2011,第8期

机译：使用光学连接的内存构建数据中心
2. MCF-SMF Hybrid Low-Latency Circuit-Switched Optical Network for Disaggregated Data Centers [J] . Arsalan Saljoghei, Hui Yuan, Vaibhawa Mishra, Journal of Lightwave Technology . 2019,第16期

机译：用于分解数据中心的MCF-SMF混合低延迟电路交换光网络
3. MCF-SMF Hybrid Low-Latency Circuit-Switched Optical Network for Disaggregated Data Centers [J] . Arsalan Saljoghei, Hui Yuan, Vaibhawa Mishra, Journal of Lightwave Technology . 2019,第16期

机译：用于分解数据中心的MCF-SMF混合低延迟电路交换光网络
4. Demonstrating Optically Interconnected Remote Serial and Parallel Memory in Disaggregated Data Centers [C] . Vaibhawa Mishra, Joshua L Benjamin, Georgios Zervas Optical Fiber Communications Conference and Exhibition . 2020

机译：在分类数据中心演示光学互连的远程串行和并行存储器
5. Optically-Connected Memory: Architectures and Experimental Characterizations. [D] . Brunina, Daniel. 2012

机译：光学连接的存储器：体系结构和实验特性。
6. High-capacity optical long data memory based on enhanced Young’s modulus in nanoplasmonic hybrid glass composites [O] . Qiming Zhang, Zhilin Xia, Yi-Bing Cheng, -1

机译：基于增强的杨氏模量的纳米等离子体混合玻璃复合材料大容量光学长数据存储器
7. In Compute/Memory Dynamic Packet/Circuit Switch Placement for Optically Disaggregated Data Centers [O] . Adaranijo Peters, George Oikonomou, Georgios Zervas 2018

机译：在计算/内存动态数据包/电路交换机放置，用于光学分类数据中心

Optically Connected Memory for Disaggregated Data Centers

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