Abstract-An LDPC decoder chip fully compliant to IEEE 802.16e applications is presented. Since the parity check matrix can be decomposed into sub-matrices which are either a zero-matrix or a cyclic shifted matrix, a phase-overlapping message passing scheme is applied to update messages immediately, leading to enhance decoding throughput. With only one shifter-based permutation structure, a self-routing switch network is proposed to merge 19 different sub-matrix sizes as defined in IEEE 802.16e and enable parallel message to be routed without congestion. Fabricated in the 90 nm 1P9M CMOS process, this chip achieves 105 Mb/s at 20 iterations while decoding the rate-5/6 2304-bit code at 150 MHz operation frequency. To meet the maximum data rate in IEEE 802.16e, this chip operates at 109 MHz frequency and dissipates 186 mW at 1.0 V supply.
A reconfigurable message-passing network is proposed to facilitate message transportation in decoding multimode quasi-cyclic low-density parity-check (QC-LDPC) codes. By exploiting the shift-routing network (SRN) features, the decoding messages are routed in parallel to fully support those specific 19 and 3 submatrix sizes defined in IEEE 802.16e and IEEE 802.11n applications with less hardware complexity. A 6.22-mm 2 QC-LDPC decoder with SRN is implemented in a 90-nm 1-Poly 9-Metal (1P9M) CMOS process. Postlayout simulation results show that the operation frequency can achieve 300 MHz, which is sufficient to process the 212-Mb/s 2304-bit and 178-Mb/s 1944-bit codeword streams for IEEE 802.16e and IEEE 802.11n systems, respectively. Index Terms-Architecture, IEEE 802.11n, IEEE 802.16e, message passing, network, quasi-cyclic low-density parity check (QC-LDPC), WiMax.
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