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引用次数: 1
摘要
MIMO检测的K-Best算法在无线通信系统中得到了广泛应用。为了经济有效地提高吞吐量,本文采用了两种新的计算方案来设计K-Best检测器。为了减少访问叶节点的数量,我们提出了基于预筛选的枚举,几乎减少了一半的叶节点以实现快速搜索。为了降低排序方案的复杂性,我们采用简化的Batcher的奇偶排序算法(SBOESA),不对所有输出进行排序,并通过简化的快速排序设计减少了所需的比较器。提出的4×4 MIMO K-Best 64QAM探测器采用台积电90nm工艺实现。所提出的MIMO检测器的吞吐量可达4.4Gbps。与其他设计相比,所提出的K-Best检测器提供了更大的吞吐量和更好的硬件效率。
Design and VLSI implementation of novel pre-screening and simplified sorting based K-best detection for MIMO systems
The K-Best algorithm for MIMO detections has been widely used in wireless communication systems. In this paper, to increase the throughput cost-effectively, two novel computational schemes are applied to design the K-Best detector. To reduce the number of visiting leaf nodes, we propose the pre-screening based enumeration, and almost half of leaf nodes are reduced for fast searches. To reduce the complexity of the sorting scheme, we apply the simplified Batcher's odd-even sorting algorithm (SBOESA) without sorting all outputs, and the required comparators are reduced through the simplified fast sorting design. The proposed 4×4 MIMO K-Best detector at 64QAM is implemented by TSMC 90nm process. The throughput of the proposed MIMO detector achieves up to 4.4Gbps. Compared with other designs, the proposed K-Best detector provides larger throughputs and performs superior hardware efficiency.
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