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Article Dans Une Revue Journal of Signal Processing Systems Année : 2017

Memory Requirement Reduction Method for Successive Cancellation Decoding of Polar Codes

Résumé

The invention of Polar codes by Arıkan is a major breakthrough in coding theory. Polar Code decoding algorithm implementation is a major challenge to recover transmitted information. Thus, several polar decoder archi- tectures were proposed in the literature. All of these architectures focused on reducing the computational hard- ware complexity and increasing the throughput of polar decoders. However, the memory requirements remain a lim- iting implementation factor that has not been fully adressed yet. This paper proposes a novel method to simply redesign existing decoder architectures in order to use less memory at the cost of some extra computational logic. The main idea is to replace memory sections — assigned to store intermediate results — with computational logic. The method, applied to an existing decoder D, results in what is called a mixed decoder architecture based on D, denoted M(D). Since previous decoders are based on the semi-parallel decoder architecture, we first apply the memory requirement reduc- tion technique to a semi-parallel decoder. Analyses, together with logic synthesis results, show that the gains brought by the reduction in memory area requirements are well worth the induced extra computational logic area. We show that the memory requirement reduction technique can increase the speed/area ratio by 25 % when implemented in stan- dard cell technology (ST 65 nm). We also provide some insights on the potential gain that this method would provide on state-of-the-art decoders implemented on FPGA devices. For example, it is shown that the proposed method can lower the decoder memory requirements by 50 % while using less than 20 % of the FPGA logic elements, and implying a latency penalty of less than 5 %.
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Dates et versions

hal-01375836 , version 1 (03-10-2016)

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Guillaume Berhault, Camille Leroux, Christophe Jego, Dominique Dallet. Memory Requirement Reduction Method for Successive Cancellation Decoding of Polar Codes. Journal of Signal Processing Systems, 2017, 88 (3), pp.425-438. ⟨10.1007/s11265-016-1179-5⟩. ⟨hal-01375836⟩
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