A parallelized layered QC-LDPC decoder for IEEE 802.11ad
NEWCAS(2013)
摘要
We present a doubly parallelized layered quasi-cyclic low-density parity-check decoder for the emerging IEEE 802.11ad multigigabit wireless standard. The decoding algorithm is equivalent to a non-parallelized layered decoder and, thus, retains its favorable convergence characteristics, which are known to be superior to those of flooding schedule based decoders. The proposed architecture was synthesized using a TSMC 40 nm CMOS technology, resulting in a cell area of 0.18 mm2 and a clock frequency of 850 MHz. At this clock frequency, the decoder achieves a coded throughput of 3.12 Gbps, thus meeting the throughput requirements when using both the mandatory BPSK modulation and the optional QPSK modulation.
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关键词
cmos integrated circuits,cyclic codes,decoding,parity check codes,quadrature phase shift keying,telecommunication standards,wireless lan,bpsk modulation,cmos technology,ieee 802.11ad multigigabit wireless standard,qpsk modulation,bit rate 3.12 gbit/s,doubly parallelized layered quasi-cyclic low-density parity-check decoder,flooding schedule based decoders,frequency 850 mhz,parallelized layered qc-ldpc decoder,size 40 nm,schedules,throughput,computer architecture,convergence
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