Design and Performance Analysis of Hardware Realization of 3GPP Physical Layer for 5G Cell Search

2015 IEEE Hot Chips 27 Symposium (HCS) Pub Date : 2023-10-07 DOI:10.3390/chips2040014

Khalid Lodhi, Jayant Chhillar, Sumit J. Darak, Divisha Sharma

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Abstract

5G Cell Search (CS) is the first step for user equipment (UE) to initiate communication with the 5G node B (gNB) every time it is powered ON. In cellular networks, CS is accomplished via synchronization signals (SS) broadcasted by gNB. 5G 3rd generation partnership project (3GPP) specifications offer a detailed discussion on the SS generation at gNB, but a limited understanding of their blind search and detection is available. Unlike 4G, 5G SS may not be transmitted at the center of carrier frequency, and their frequency location is unknown to UE. In this work, we demonstrate the 5G CS by designing 3GPP compatible hardware realization of the physical layer (PHY) of the gNB transmitter and UE receiver. The proposed SS detection explores a novel down-sampling approach resulting in a 60% reduction in on-chip memory and 50% lower search time. Via detailed performance analysis, we analyze the functional correctness, computational complexity, and latency of the proposed approach for different word lengths, signal-to-noise ratio (SNR), and down-sampling factors. We demonstrate end-to-end 5G CS using GNU Radio-based RFNoC framework on the USRP-FPGA platform and achieve 66% faster SS search compared to software. The 3GPP compatibility and demonstration on hardware strengthen the commercial significance of the proposed work.

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面向5G小区搜索的3GPP物理层硬件实现设计与性能分析

5G小区搜索(5G Cell Search, CS)是用户设备(UE)每次上电时启动与5G节点B (gNB)通信的第一步。在蜂窝网络中，CS是通过gNB广播的同步信号(SS)完成的。5G第三代合作伙伴计划(3GPP)规范提供了gNB上SS代的详细讨论，但对其盲搜索和检测的理解有限。与4G不同，5G SS可能不会在载波频率中心传输，其频率位置对于UE来说是未知的。在这项工作中，我们通过设计gNB发射机和UE接收机物理层(PHY)的3GPP兼容硬件实现来演示5G CS。提出的SS检测探索了一种新的下采样方法，从而减少了60%的片上内存和50%的搜索时间。通过详细的性能分析，我们分析了该方法在不同字长、信噪比(SNR)和下采样因素下的功能正确性、计算复杂度和延迟。我们在USRP-FPGA平台上使用基于GNU radio的RFNoC框架演示了端到端5G CS，与软件相比，SS搜索速度提高了66%。3GPP的兼容性和硬件上的演示增强了所提出工作的商业意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE Hot Chips 27 Symposium (HCS)

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