IEEE Access (Jan 2019)

Data Link Layer Processor for 100 Gbps Terahertz Wireless Communications in 28 nm CMOS Technology

  • Lukasz Lopacinski,
  • Miroslav Marinkovic,
  • Goran Panic,
  • Mohamed Hussein Eissa,
  • Alireza Hasani,
  • Karthik Krishnegowda,
  • Rolf Kraemer

DOI
https://doi.org/10.1109/ACCESS.2019.2907156
Journal volume & issue
Vol. 7
pp. 44489 – 44502

Abstract

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In this paper, we show our 165 Gbps data link layer processor for wireless communication in the terahertz band. The design utilizes interleaved Reed-Solomon codes with dedicated link adaptation, fragmentation, aggregation, and hybrid-automatic-repeat-request. The main advantage is the low-chip area required to fabricate the processor, which is at least two times lower than the area of low-density parity-check decoders. Surprisingly, our solution loses only ~1 dB gain when compared to high-speed low-density parity-check decoders. Moreover, with only 2.38 pJ/bit of energy consumption at 0.8 V, one of the best results in the class of comparable implementations has been achieved. Alongside, we show our vision of a complete 100 Gbps wireless transceiver, including radio frequency frontend and baseband processing. For the baseband realization, we propose a parallel sequence spread spectrum and channel combining at the baseband level. Challenges to high-speed wireless transmission at the terahertz band are addressed as well. To the authors' best knowledge, it is one of the first data link layer implementations that deal with a data rate of ≥ 100 Gbps.

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