A Discrete Multitone Wireline Transceiver Using Optimal Loading Over Reflective Channel For ADC-Based High-Speed Serial Links

Abstract

In this paper, we validate the effectiveness of the bit and power loading (BPL) of discrete muti-tone (DMT) modulation over a reflective wireline channel, exhibiting notches in the signal-to-noise ratio (SNR) profile. The loading profile is optimized via the margin-adaptive Levin-Campello (LC) water-filling algorithm based on the measured per-subchannel SNR distribution. The aggregate bit-error rate (BER) is minimized by allocating only a small number of bits for low SNR subbands. The experiment is conducted with the M8196A arbitrary waveform generator (AWG) for the transmitter (TX) and the DSAX96204Q digital signal analyzer (DSA) for the receiver (RX) with the captured data and signal processing on MATLAB software. The measurement results have demonstrated that the DMT with the optimal BPL achieves 28.2 Gb/s data rate and 4.73E-6 BER when communicating over a reflective channel, showing 16.3 dB loss at 5 GHz Nyquist frequency. © 2024 IEEE.