Architecture Design of a Memory Subsystem for Massive MIMO Baseband Processing

Yangxurui Liu; Liang Liu; Viktor Öwall

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Architecture Design of a Memory Subsystem for Massive MIMO Baseband Processing

机译：大规模MIMO基带处理的存储子系统的体系结构设计

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摘要

This brief presents an on-chip memory subsystem for massive multiple-input-multiple-output (MIMO) baseband processing at the base station. In massive MIMO systems, the required memory bandwidth and capacity are orders of magnitude higher than those used in conventional wireless systems, due to the large number of serving antennas. These are further combined with design targets on low access latency and flexibility in data organization and access modes. This brief applies and improves the concept of parallel memories to achieve the challenging design target with low hardware overhead. As a case study, a memory subsystem for 128-antenna and 16-user massive MIMO systems is evaluated using ST 28-nm technology. According to postlayout simulation results, the proposed memory subsystem provides 512-Gb/s throughput and offers 1-Mb capacity with a cost of 0.30 mm.

机译：本简介介绍了一种片上存储器子系统，用于在基站进行大规模多输入多输出（MIMO）基带处理。在庞大的MIMO系统中，由于服务天线数量众多，因此所需的存储带宽和容量要比常规无线系统中使用的存储带宽和容量高几个数量级。这些进一步与低访问延迟和数据组织和访问模式的灵活性的设计目标结合在一起。本简介适用并改进了并行存储器的概念，以较低的硬件开销实现了具有挑战性的设计目标。作为案例研究，使用ST 28-nm技术评估了128天线和16用户大规模MIMO系统的存储子系统。根据后期布局仿真结果，所提出的内存子系统可提供512 Gb / s的吞吐量，并提供1-Mb容量，成本为0.30 mm。

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来源
《IEEE transactions on very large scale integration (VLSI) systems》 |2017年第10期|2976-2980|共5页
作者
Yangxurui Liu; Liang Liu; Viktor Öwall;
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作者单位

Department of Electrical and Information Technology, Lund University, Lund, Sweden;

Department of Electrical and Information Technology, Lund University, Lund, Sweden;

Department of Electrical and Information Technology, Lund University, Lund, Sweden;

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原文格式 PDF
正文语种 eng
中图分类
关键词
MIMO; Baseband; Memory management; Bandwidth; Antennas; Hardware; Precoding;

机译：MIMO;基带;内存管理;带宽;天线;硬件;预编码;

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1. A 2.92-Gb/s/W and 0.43-Gb/s/MG Flexible and Scalable CGRA-Based Baseband Processor for Massive MIMO Detection [J] . Peng Guiqiang, Liu Leibo, Zhou Sheng, IEEE Journal of Solid-State Circuits . 2020,第2期

机译：2.92-GB / S / W和0.43-GB / S / MG的柔性和可伸缩的CGRA基基带处理器，用于大规模MIMO检测
2. Design and Implementation of MIMO-OFDM Baseband Processor for High-Speed Wireless LANs [J] . Yunho Jung, Jiho Kim, SeongjooLee, IEEE transactions on circuits and systems. II, Express briefs . 2007,第7期

机译：高速无线局域网中MIMO-OFDM基带处理器的设计与实现
3. Design and Implementation of MIMO-OFDM Baseband Processor for High-Speed Wireless LANs [J] . Jung Y., Kim J., Lee S., IEEE Transactions on Circuits and Systems. II, Analog and Digital Signal Processing . 2007,第7期

机译：高速无线局域网中MIMO-OFDM基带处理器的设计与实现
4. Reducing On-Chip Memory for Massive MIMO Baseband Processing Using Channel Compression [C] . Yangxurui Liu, Ove Edfors, Liang Liu, IEEE Vehicular Technology Conference . 2017

机译：使用通道压缩减少用于大规模MIMO基带处理的片上存储器
5. Design and Optimization of Emerging Interconnection and Memory Subsystems for Future Manycore Architectures [D] . Thakkar, Ishan G. 2018

机译：面向未来的Manycore架构的新兴互连和内存子系统的设计和优化
6. FPGA implemented testbed in 8-by-8 and 2-by-2 OFDM–MIMO channel estimation and design of baseband transceiver [O] . S. Ramesh, R. Seshasayanan -1

机译：FPGA在8×8和2×2 OFDM–MIMO信道估计中实现的测试平台以及基带收发器的设计
7. Design Trade-offs for Decentralized Baseband Processing in Massive MU-MIMO Systems [O] . Kaipeng Li, James McNaney, Chance Tarver, 2019

机译：大型MU-MIMO系统中分散基带处理的设计权衡

Architecture Design of a Memory Subsystem for Massive MIMO Baseband Processing

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