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Low-complexity Check Node Processing for Trellis Min-max Nonbinary LDPC Decoding
- Huyen Pham Thi;
- Hung Dao Tuan;
- Le Dinh Trang Dang;
- Lee, Hanho;
- Tho Nguyen Huu
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0초록
Nonbinary low-density-parity-check (NB-LDPC) code outperforms their binary counterpart in terms of error-correcting performance when the code length is moderate. Check node processing is a bottleneck of the NB-LDPC decoding. In this paper, a novel half-row modified two-extra-column trellis min-max (HR-mTEC-TMM) algorithm is proposed for the check node processing to reduce not only the complexity but also the storage memory. The check node unit (CNU) architecture corresponding to the proposed algorithm is designed for the (837, 726) NB-LDPC code over GF(32). The implementation results using 90-nm CMOS technology show that the proposed CNU architecture obtains a reduction of 28.3% for the area and 43.87% for the storage memory with an acceptable error-correcting performance loss, compared to existing work.
키워드
- 제목
- Low-complexity Check Node Processing for Trellis Min-max Nonbinary LDPC Decoding
- 저자
- Huyen Pham Thi; Hung Dao Tuan; Le Dinh Trang Dang; Lee, Hanho; Tho Nguyen Huu
- 발행일
- 2018
- 유형
- Proceedings Paper
- 저널명
- 2018 INTERNATIONAL CONFERENCE ON ADVANCED TECHNOLOGIES FOR COMMUNICATIONS (ATC)
- 페이지
- 292 ~ 295