快速衰落无线电信道上OFDM检测的嵌入式可重构解决方案

M. Sima, M. McGuire
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引用次数: 5

摘要

在快速衰落的无线电信道下,OFDM解调的计算量非常大,使得软件定义无线电(SDR)解决方案的实现存在问题。基于信道传输矩阵块QR分解的次优解调算法以较低的计算成本提供了接近最优的性能,但仍然需要硬件支持。我们首先在可重构硬件上提出了一个坐标旋转数字计算机(CORDIC)旋转器,以揭示QR分解的块内并行性,然后在软件层面上利用它。特别是,我们表明,尽管旋转器是深度管道化的,但CORDIC算法固有的尺度因子仍然可以在整个管道中进行分布式补偿,而不会产生额外的周期时间损失。然后,对于带有可重构功能单元(RFU)的Nios II处理器,我们还提出了一种计算方案,该方案将所有要处理的数据保留在RFU中,以最小化寄存器文件和CORDIC旋转器之间的数据流量开销。总之,我们证明了OFDM在快速衰落下的解调可以在Nios II可重构嵌入式系统上以定点算法实时进行,证明了快速衰落下OFDM解调的SDR解决方案是可能的。
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Embedded Reconfigurable Solution for OFDM Detection Over Fast Fading Radio Channels
OFDM demodulation under fast fading radio channels is very computationally demanding, making the implementation of Software Defined Radio (SDR) solutions problematic. A sub-optimal demodulation algorithm based on QR decomposition of blocks of the channel transfer matrix offers near optimal performance at lower computational cost, but hardware support is still needed. We first propose a COordinate Rotation DIgital Computer (CORDIC) rotator in reconfigurable hardware to expose and then exploit at software level the intra-block paralellism of the QR decomposition. In particular, we show that although the rotator is deeply pipelined, the scale factor inherent to CORDIC algorithm can still be distributedly compensated throughout the pipeline at no additional cycle time penalty. Then, for a Nios II processor augmented with a Reconfigurable Functional Unit (RFU) that incorporates the proposed CORDIC rotator, we also propose a computing scenario that keeps all the data to be processed inside the RFU, to minimize overhead of the data trafic between the Register File and the CORDIC rotator. Overall, we show that OFDM demodulation under fast-fading can be performed in fixed-point arithmetic and in real-time on a Nios II reconfigurable embedded system, proving that an SDR solution for OFDM demodulation under fast fading is possible.
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