3.6 A 60pJ/b 300Mb/s 128×8 Massive MIMO precoder-detector in 28nm FD-SOI

2017 IEEE International Solid-State Circuits Conference (ISSCC) Pub Date : 2017-02-03 DOI:10.1109/ISSCC.2017.7870260
H. Prabhu, J. Rodrigues, Liang Liu, O. Edfors
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引用次数: 38

Abstract

Further exploitation of the spatial domain, as in Massive MIMO (MaMi) systems, is imperative to meet future communication requirements [1]. Up-scaling of conventional 4×4 small-scale MIMO implementations to MaMi is prohibitive in-terms of flexibility, as well as area and power cost. This work discloses a 1.1mm2 128×8 MaMi baseband chip, achieving up to 12dB array and 2× spatial multiplexing gains. The area cost compared to previous state-of-the-art MIMO implementations [2–3], is reduced by 53% and 17% for up- and down-link, respectively. Algorithm optimizations and a highly flexible framework were evaluated on real measured channels. Extensive hardware time multiplexing lowered area cost, and leveraging on flexible FD-SOI body bias and clock gating resulted in an energy efficiency of 6.56nJ/QRD and 60pJ/b at 300Mb/s detection rate.
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3.6 A 60pJ/b 300Mb/s 128×8 28nm FD-SOI大规模MIMO预编码检测器
进一步开发空间域,如大规模MIMO (MaMi)系统,是满足未来通信需求的必要条件[1]。将传统的4×4小规模MIMO实现扩展到MaMi在灵活性、面积和功耗方面是令人望而却步的。这项工作公开了一种1.1mm2 128×8 MaMi基带芯片,可实现高达12dB的阵列和2倍的空间复用增益。与之前最先进的MIMO实现相比[2-3],上行链路和下行链路的面积成本分别降低了53%和17%。在实际测量信道上对算法优化和高度灵活的框架进行了评价。广泛的硬件时间复用降低了面积成本,并利用灵活的FD-SOI体偏置和时钟门控,在300Mb/s的检测速率下实现了6.56nJ/QRD和60pJ/b的能量效率。
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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2017 IEEE International Solid-State Circuits Conference (ISSCC)
2017 IEEE International Solid-State Circuits Conference (ISSCC)
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