Title: Pioneering Scalable Prototyping for Mid-Band XL-MIMO Systems: Design and Implementation Show Chinese title

Title: 中频XL-MIMO系统的开创性可扩展原型设计：设计与实现

Abstract: The mid-band frequency range, combined with extra large-scale multiple-input multiple-output (XL-MIMO), is emerging as a key enabler for future communication systems. Thanks to the advent of new spectrum resources and degrees of freedom brought by the near-field propagation, the mid-band XL-MIMO system is expected to significantly enhance throughput and inherently support advanced functionalities such as integrated sensing and communication. Although theoretical studies have highlighted the benefits of mid-band XL-MIMO systems, the promised performance gains have yet to be validated in practical systems, posing a major challenge to the standardization. In this paper, preliminaries are first discussed, followed by an analysis of key challenges in constructing a real-time prototype system. Subsequently, the design and implementation of a real-time mid-band XL-MIMO prototype system are presented. Benefiting from the novel architecture, the proposed prototype system supports metrics aligned with standardization, including a bandwidth of 200 MHz, up to 1024 antenna elements, and up to 256 transceiver chains. Operating in time-division duplexing (TDD) mode, the prototype enables multiuser communication with support for up to 12 users, while retaining standard communication procedures. Built on software-defined radio (SDR) platforms, the system is programmable and allows for flexible deployment of advanced algorithms. Moreover, the modular architecture ensures high scalability, making the system adaptable to various configurations, including distributed deployments and decentralized signal processing. Experimental results with the proposed prototype system demonstrate real-time digital sample processing at 1167.85 Gbps, a peak data throughput of 15.81 Gbps for 12 users, and a maximal spectral efficiency approaching 80 bit/s/Hz. Show Chinese abstract

Abstract: 中频带频率范围，结合超大规模多输入多输出（XL-MIMO），正成为未来通信系统的关键使能技术。 得益于近场传播带来的新频谱资源和自由度，中频带XL-MIMO系统有望显著提高吞吐量，并固有地支持集成感知与通信等先进功能。 尽管理论研究已经突出了中频带XL-MIMO系统的优点，但预期的性能提升尚未在实际系统中得到验证，这对标准化构成了重大挑战。 本文首先讨论了初步内容，随后分析了构建实时原型系统的关键挑战。 随后，介绍了实时中频带XL-MIMO原型系统的设计与实现。 得益于新颖的架构，所提出的原型系统支持与标准化一致的指标，包括200 MHz的带宽、最多1024个天线元件和最多256个收发链路。 在时分双工（TDD）模式下，原型系统支持多达12个用户的多用户通信，同时保留标准通信流程。 基于软件定义无线电（SDR）平台，该系统可编程，并允许灵活部署高级算法。 此外，模块化架构确保了高可扩展性，使系统能够适应各种配置，包括分布式部署和去中心化信号处理。 所提出的原型系统的实验结果表明，实现了1167.85 Gbps的实时数字样本处理，12个用户的峰值数据吞吐量为15.81 Gbps，最大频谱效率接近80 bit/s/Hz。