Structured Interleavers and Decoder Architectures for Zigzag Codes

We propose structured interleaver design for parallel concatenated Zigzag codes. While the proposed design performs as good as or better than random interleavers for various block-sizes, it improves the error floor of the Zigzag codes and offers a lot of parallelism suitable for high data-rate appli...

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Hauptverfasser:	Bhatt, T., Stolpman, V.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Application software Computer architecture Concatenated codes Floors Forward error correction Hardware Interleaver Iterative decoding LDPC Decoder Parity check codes Throughput USA Councils Zigzag Code
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creator	Bhatt, T. Stolpman, V.
description	We propose structured interleaver design for parallel concatenated Zigzag codes. While the proposed design performs as good as or better than random interleavers for various block-sizes, it improves the error floor of the Zigzag codes and offers a lot of parallelism suitable for high data-rate applications. The interleaver can be specified with only a few parameters and can be efficiently implemented in both hardware and software. We also evaluate semi-parallel Zigzag decoder architecture that exploits the parallelism of the proposed interleavers to improve the throughput. We also evaluate the performance of an efficient decoding schedule for semi-parallel Zigzag decoder that provides better throughput and performance trade-offs compared to the fully parallel and serial decoder schedule. The proposed interleaver scheme and architecture are suitable for high throughput Ultra Wideband communications that demand data-rates up to several hundred mbps.
doi_str_mv	10.1109/ACSSC.2006.356592
format	Conference Proceeding
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While the proposed design performs as good as or better than random interleavers for various block-sizes, it improves the error floor of the Zigzag codes and offers a lot of parallelism suitable for high data-rate applications. The interleaver can be specified with only a few parameters and can be efficiently implemented in both hardware and software. We also evaluate semi-parallel Zigzag decoder architecture that exploits the parallelism of the proposed interleavers to improve the throughput. We also evaluate the performance of an efficient decoding schedule for semi-parallel Zigzag decoder that provides better throughput and performance trade-offs compared to the fully parallel and serial decoder schedule. The proposed interleaver scheme and architecture are suitable for high throughput Ultra Wideband communications that demand data-rates up to several hundred mbps.</abstract><pub>IEEE</pub><doi>10.1109/ACSSC.2006.356592</doi><tpages>6</tpages></addata></record>
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Application software Computer architecture Concatenated codes Floors Forward error correction Hardware Interleaver Iterative decoding LDPC Decoder Parity check codes Throughput USA Councils Zigzag Code
title	Structured Interleavers and Decoder Architectures for Zigzag Codes
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