VLSI Implementation of a Rate Decoder for Structural LDPC Channel Codes

This paper proposes a low complexity low-density parity check decoder (LDPC) design. The design mainly accomplishes a message passing algorithm and systolic high throughput architecture. The typical mathematical calculations are based on the observation that nodes with high log likelihood ratio provide almost same information in every iteration and can be considered as stationary, we propose an algorithm in which the parity check matrix H is updated to a reduced complexity form every time a stationary node is encountered which results in lesser number of numerical computations in subsequent iterations. In this paper, we contemplately focuses on computational complexity and the decoder design significantly benefits from the high throughput point of view and the various improvisations introduced at various levels of abstraction in the decoder design. Threshold Controlled Min Sum Algorithm implements the LDPC decoder design for a code compliant with wired and wireless applications. A high performance LDPC decoder has been designed that achieves a throughput of 0.890 Gbps. The whole design of LDPC Decoder is designed, simulated and synthesized using Xilinx ISE 13.1 EDA Tool.