LDPC卷积码高速可编程解码器的结构与VLSI实现

2008 International Conference on Application-Specific Systems, Architectures and Processors Pub Date : 2008-07-02 DOI:10.1109/ASAP.2008.4580181

M. Tavares, S. Kunze, E. Matús, G. Fettweis

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引用次数: 1

摘要

在本文中，我们提出了一种新的高速双核可编程解码器架构，用于LDPC卷积码及其咬尾版本。该架构使用改进的最小和算法，能够解码具有不同节点度分布，速率和块长度的大量代码。我们展示了如何利用代码下面的二部图的性质推导出并行化概念。并对构成该体系结构的硬件要素进行了详细的介绍和分析。还考虑了解码器的可编程性。最后，我们给出了一个原型ASIC的合成结果，该原型ASIC能够实现高解码吞吐量，同时具有非常高的灵活性，相对低的功耗和小面积。

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Architecture and VLSI realization of a high-speed programmable decoder for LDPC convolutional codes

In this paper, we present a novel high-speed dual-core programmable decoder architecture for LDPC convolutional codes and their tail-biting versions. This architecture uses a modified Min-Sum algorithm and enables the decoding of a multitude of codes with different node degree distributions, rates and block lengths. We show how the parallelization concepts are derived using the properties of the bipartite graphs underlying the codes. Moreover, the hardware elements composing the architecture will be presented and analyzed in detail. The programmability of the decoder is also considered. Finally, we present the synthesis results for a prototype ASIC which is capable of achieving high decoding throughput still with very high flexibility, relatively low power consumption and small area.

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2008 International Conference on Application-Specific Systems, Architectures and Processors

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