1. A 188-Length Full Code Rate 333Mbps 1.08mm2 Radix-4 Hybrid-Trellis Turbo Decoder with Zero Patching for 3GPP LTE-A
- Author
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Hsie-Chia Chang, Po-Hsun Chang, Yen-Chin Liao, Chia-Hsiang Sun, and Chen-Yang Lin
- Subjects
Puncturing ,Computer science ,Code (cryptography) ,Turbo code ,Data_CODINGANDINFORMATIONTHEORY ,Code rate ,Trellis (graph) ,Algorithm ,Throughput (business) ,Decoding methods ,Block (data storage) - Abstract
Decoding high code rate Turbo codes by their reciprocal dual trellis has been shown to be potentially beneficial in implementation due to the simpler trellis structures. However, reciprocal dual trellis decoders' complexity grows significantly when the code rate is less than 1/2. Further, designing a multicode rate reciprocal dual trellis decoder is even more challenging if periodical puncturing patterns is not always available. In this paper, a radix-4 hybrid-trellis LTE-A turbo decoder with a controller switching between the conventional trellis and the reciprocal dual trellis is presented. To accommodate all the rates defined in LTE-A, a zero patching scheme is proposed to create the periodical puncturing patterns required by the reciprocal dual trellis decoding. The implementation of the proposed decoder supports all the code rates, from 1/3 to 0.95, and all the 188 block lengths. Fabricated in TSMC TN28HPM process, the post-layout simulations show the proposed decoder could achieve 333Mbps at 6 iterations under 263MHz operating frequency. The core area is 1.08 mm2, and the decoder draws 295.57 mW of power with energy efficiency of 0.148(nJ/bit/iter).
- Published
- 2018
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