Title :
Structured low-density parity-check code design for next generation digital video broadcast
Author :
Eroz, Mustafa ; Lee, Lin-Nan
Author_Institution :
Hughes Network Syst. Inc., Germantown, MD, USA
Abstract :
We describe a novel design for low-density parity-check (LDPC) codes that eliminates the routing problem associated with LDPC decoder implementation resulting in a small silicon area in application specific integrated circuits (ASICs). Unlike previous solutions that require a large number of small and hence area inefficient memory blocks, this design allows collision-free memory access on a single memory block by imposing certain restrictions on the parity check matrix of the codes. Therefore, it leads to substantially smaller circuits. Furthermore the resulting codes have outstanding error rate performance very close to Shannon limit for a wide range of throughputs from 0.5 bits/symbol up to 4 bits/symbol. As a result LDPC codes designed with this method have been standardized for the next generation digital video broadcasting (DVB).
Keywords :
application specific integrated circuits; decoding; digital video broadcasting; matrix algebra; parity check codes; ASIC; LDPC decoder; Shannon limit; application specific integrated circuit; collision-free memory access; digital video broadcasting; low-density parity-check code design; next generation DVB; parity check matrix; Bipartite graph; Circuits; Decoding; Digital video broadcasting; Engines; Parallel architectures; Parity check codes; Sparse matrices; Turbo codes; Very large scale integration;
Conference_Titel :
Military Communications Conference, 2005. MILCOM 2005. IEEE
Print_ISBN :
0-7803-9393-7
DOI :
10.1109/MILCOM.2005.1606037
