Digital Signal Processing

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An Energy Efficient Layered Decoding Architecture for LDPC Decoder


Affiliations
1 Department of ECE, Sri Ramakrishna Institute of Technology, Coimbatore-10, India
2 SSK College of Engineering and Technology, Coimbatore, India
     

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Low-density parity-check (LDPC) decoder requires large amount of memory access which leads to high energy consumption. To reduce the energy consumption of the LDPC decoder, memory-bypassing scheme has been proposed for the layered decoding architecture which reduces the amount of access to the memory storing the soft posterior reliability values. In this work, a scheme that achieves the optimal reduction of memory access for the memory bypassing scheme is presented. The amount of achievable memory bypassing depends on the decoding order of the layers. In this proposal the problem of finding the optimal decoding order and propose algorithm to obtain the optimal solution and also the corresponding architecture which combines some of memory components and results in reduction of memory area.

Keywords

Low Power, Low-Density Parity-Check Code, Simulated Annealing.
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  • An Energy Efficient Layered Decoding Architecture for LDPC Decoder

Abstract Views: 227  |  PDF Views: 2

Authors

A. N. Jayanthi
Department of ECE, Sri Ramakrishna Institute of Technology, Coimbatore-10, India
C. S. Ravichandran
SSK College of Engineering and Technology, Coimbatore, India

Abstract


Low-density parity-check (LDPC) decoder requires large amount of memory access which leads to high energy consumption. To reduce the energy consumption of the LDPC decoder, memory-bypassing scheme has been proposed for the layered decoding architecture which reduces the amount of access to the memory storing the soft posterior reliability values. In this work, a scheme that achieves the optimal reduction of memory access for the memory bypassing scheme is presented. The amount of achievable memory bypassing depends on the decoding order of the layers. In this proposal the problem of finding the optimal decoding order and propose algorithm to obtain the optimal solution and also the corresponding architecture which combines some of memory components and results in reduction of memory area.

Keywords


Low Power, Low-Density Parity-Check Code, Simulated Annealing.