Toward real-time, low-power, highly parallel decoding of the golden code in Mobile WiMAX base stations

E. Amani, Karim D Djouani, A. Kurien
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引用次数: 3

Abstract

The Golden Code (GC) is an optimal full-rate full-diversity STBC for 2 × 2 MIMO communication systems. It is incorporated as a STBC communication method in the IEEE 802.16e (WiMAX) standard. However, its high decoding complexity has prevented its implementation in practical systems. Optimal and suboptimal decoders with reduced complexity have been proposed recently and the best ones achieve a worst-case complexity of O(N2) and O(N1S), where N is the underlying QAM constellation size. In this paper, the fast essentially ML decoder with complexity of O(N2) is implemented on a low-power highly parallel SIMD processor, the ClearSpeed CSX700. The SIMD architecture of the CSX700 achieves significant reduction in decoding latency. The implementation in this paper reveals the potential for realtime decoding of the GC with a power consumption that is less than 100 W. This CSX700 solution can find application in the software-defined radio (SDR) of a Mobile WiMAX base station (BS).
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实现移动WiMAX基站黄金码的实时、低功耗、高并行解码
黄金码(GC)是2x2mimo通信系统的最佳全速率全分集STBC。它作为STBC通信方法被纳入IEEE 802.16e (WiMAX)标准。然而,它的高解码复杂度阻碍了它在实际系统中的实现。最近提出了降低复杂度的最优解码器和次优解码器,最优解码器的最坏情况复杂度分别为O(N2)和O(N1S),其中N为底层QAM星座大小。本文在低功耗高并行SIMD处理器ClearSpeed CSX700上实现了复杂度为0 (N2)的快速本质ML解码器。CSX700的SIMD体系结构显著降低了解码延迟。本文的实现揭示了GC实时解码的潜力,功耗低于100 W。该CSX700解决方案可应用于移动WiMAX基站(BS)的软件定义无线电(SDR)。
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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