LTE下行控制信道接收机中浮点数据路径的设计与性能权衡分析

S. A. Abbas, S. Susithra, D. Priya, S. Thiruvengadam
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引用次数: 0

摘要

长期演进(LTE)接收机处理涉及解码来自每个天线端口的复杂有价值的接收符号,以检测发射机发送的码字。本文的主要目的是设计和实现控制信道的接收机硬件体系结构。PCFICH(物理控制格式指示通道)和PHICH(物理混合ARQ指示通道)采用定点和IEEE 754单精度浮点算术单元进行单输入单输出(SISO)配置,并根据检测接收码字的信噪比(SNR)和均方误差(MSE)或决策值验证其性能。基于浮点的接收机在减少开发时间,降低复杂性,更高的精度,更高的精度和容错能力方面比定点接收机具有优势,但代价是硬件的增加。本文综合并实现了采用折叠和超标量技术的基于浮点数的接收机,通过减少资源利用率来优化体系结构。使用ModelSim 6.4a对结果进行仿真,同时使用Xilinx-Plan Ahead工具在Virtex-6 FPGA器件上实现该架构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and performance tradeoff analysis of floating point datapath in LTE downlink control channel receiver
Long Term Evolution (LTE) receiver processing involves decoding of complex valued received symbols from each antenna port to detect the codeword sent by the transmitter. The main objective of this paper is to design and implement the receiver hardware architectures for the control channels, PCFICH (Physical Control Format Indicator Channel) and PHICH (Physical Hybrid ARQ Indicator Channel) using fixed point and IEEE 754 single precision floating point arithmetic units for single input single output (SISO) configuration and validate their performance based on the signal to noise ratio (SNR) and mean square error (MSE) or the decision values for detecting the code words received. Floating point based receiver has an edge over fixed point in terms of reduced developing time, reduced complexity, higher accuracy, higher precision and tolerance to error but at the cost of increased hardware. Floating point based receivers employing folding and superscalar techniques to optimize the architectures through reduction in resource utilization are synthesized and implemented. ModelSim 6.4a is used to simulate the results while the architecture is implemented in Virtex-6 FPGA device using Xilinx-Plan Ahead tool.
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