Title :
Compression of LLR messages of an Elementary Check Node processor of a Non-Binary LDPC decoder
Author :
Al Ghouwayel, Ali Chamas ; Wehbi, Mohammed ; Mrad, Malak
Author_Institution :
CCE Dept., Lebanese Int. Univ. (LIU), Beirut, Lebanon
Abstract :
Non-Binary LDPC codes are nowadays considered as a potential competitor of both binary LDPC and convolutional Turbo Codes, mainly when codes with short and moderate codeword lengths are used. The decoding process of these codes suffers from a high computational complexity which necessitates a high memory requirements to store the intrinsic and extrinsic Likelihood Ratio (LLR) messages. This paper addresses the compression of the binary words bearing the LLR values from 6 to 3 bits by storing the difference of two consecutive LLRs instead of the entire values. A new architecture of the Elementary Check Node is then proposed. The Monte Carlo simulation results show that the proposed compression scheme does not introduce any performance loss of the code.
Keywords :
Monte Carlo methods; codecs; computational complexity; convolutional codes; data compression; decoding; parity check codes; turbo codes; LLR messages; Monte Carlo simulation; codeword lengths; compression scheme; computational complexity; convolutional turbo codes; decoding process; elementary check node processor; extrinsic likelihood ratio messages; intrinsic likelihood ratio messages; nonbinary LDPC codes; nonbinary LDPC decoder; Complexity theory; Decoding; Iterative decoding; Random access memory; Registers; Reliability;
Conference_Titel :
Microwave Symposium (MMS), 2013 13th Mediterranean
Conference_Location :
Saida
DOI :
10.1109/MMS.2013.6663101
