High-Throughput Fast-SSC Polar Decoder for Wireless Communications

Abstract EN

Polar code has been proven to achieve the symmetric capacity of memoryless channels.

However, the successive cancellation decoding algorithm is inherent serial in nature, which will lead to high latency and low throughput.

In order to obtain high throughput, we design a deeply pipelined polar decoder and optimize the processing elements and storage structure.

We also propose an improved fixed-point nonuniform quantization scheme, and it is close to the floating-point performance.

Two-level control strategy is presented to simplify the controller.

In addition, we adopt FIFO structure to implement the α_memory and β_memory and propose the 348-stage pipeline decoder.