Low-Latency CRC Calculation in Turbo-Code Decoding

Stefan Weithoffer; Norbert Wehn

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Low-Latency CRC Calculation in Turbo-Code Decoding

机译：Turbo码解码中的低延迟CRC计算

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Design of Turbo-Code decoders for the 3GPP LTE/LTE-A standard focuses on achieving a high-throughput of up to 1 Gbps with low decoding latencies at very high code rates. At code rates close to one, as specified in LTE/LTE-A, the decoding process can oscillate. Although the decoder converges to a valid code word after half-iteration i, after half-iteration i + 1 the decoded code word is invalid again. To circumvent this, the CRC that is attached to each code word must be evaluated after each half-iteration. We present a generalized architecture for calculating the CRC On-the-fly during both non-interleaved and interleaved half-iterations and thus explicitly taking into account the requirements for low-latency Turbo-Code decoding. Further, we investigate the latency-, and energy savings provided by employing this calculation scheme. Lastly, we give post layout synthesis results for a case study implementation in state-of-the-art 28 nm FDSOI technology.

机译：用于3GPP LTE / LTE-A标准的Turbo-Code解码器的设计着重于在非常高的编码速率下以低解码延迟实现高达1 Gbps的高吞吐量。如LTE / LTE-A中规定的，在接近1的编码速率下，解码过程可能会振荡。尽管解码器在半迭代i之后收敛为有效代码字，但在半迭代i + 1之后，解码后的代码字再次变为无效。为了避免这种情况，必须在每个半迭代之后评估附加到每个代码字的CRC。我们提出了一种通用的体系结构，用于在非交织和交织的半迭代过程中即时计算CRC，从而明确考虑了低延迟Turbo码解码的要求。此外，我们研究了采用这种计算方案所带来的延迟和能源节省。最后，我们给出了最新的28 nm FDSOI技术中的案例研究实现的布局后综合结果。

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来源
《International journal of wireless information networks》 |2018年第1期|98-107|共10页
作者
Stefan Weithoffer; Norbert Wehn;
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作者单位

Microelectronic Systems Design Research Group, University of Kaiserslautern, Kaiserslautern, Germany;

Microelectronic Systems Design Research Group, University of Kaiserslautern, Kaiserslautern, Germany;

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收录信息美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
LTE-A Turbo-Code decoder; Low latency; On-the-fly CRC;

机译：LTE-A Turbo-Code解码器;低延迟;即时CRC;

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4. Latency reduction for LTE/LTE-A turbo-code decoders by on-the-fly calculation of CRC [C] . Weithoffer Stefan, Wehn Norbert IEEE International symposium on Personal, Indoor, and Mobile Radio Communications . 2015

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5. Reliability-output Decoding and Low-latency Variable-length Coding Schemes for Communication with Feedback. [D] . Williamson, Adam Royce. 2014

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6. Identification of DNA methylation markers for early detection of CRC indicates a role for nervous system-related genes in CRC [O] . Glenn Rademakers, Maartje Massen, Alexander Koch, 2021

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7. VLSI circuit complexity and decoding performance analysis for low-power RSC turbo-code and iterative block decoders design [O] . Sangjin Hong, Wayne E 1998

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8. Investigation of Different Constituent Encoders in a Turbo-code Scheme for Reduced Decoder Complexity [R] . Kwatra, S. C. 1998

机译：降低译码复杂度的Turbo码方案中不同组成编码器的研究

Low-Latency CRC Calculation in Turbo-Code Decoding

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