A Loop-Break Decision Feedback Equalizer for DAC/ADC-DSP-based Wireline Transceivers
Abstract
This paper presents a novel digital decision feedback equalizer (DFE) design that can relax the feedback timing constraints for analog-to-digital converter (ADC)-based high-speed wireline receivers. The proposed technique breaks the loop-unrolled DFE (LU-DFE) chain by computing multiple LU-DFE chains in parallel with all possible seed symbols, and selecting the appropriate output by the post-processing selection logic. The proposed loop-break DFE (LB-DFE) is functionally equivalent to the conventional DFE with any other implementation techniques such as LU-DFE, look-ahead DFE (LA-DFE), or direct DFE. With topographical synthesis in 28nm CMOS process, the proposed LB-DFE achieved up to 54 % of DFE area saving as compared to LA-DFE with look-ahead factor (LF) of 16 for 112 Gb/s PAM-4 with 875 MHz DSP clock speed. The implementation feasibility and functionality are verified using ZCU111 RFSoC platform at 6 Gb/s (3 GS/s ADC conversion rate) with a channel exhibiting 25 dB loss at 1.5 GHz, demonstrating the same bit error rate (BER) performance between the LB-DFE and the LA-DFE. Equipment-based measurements using arbitrary waveform generator (AWG) and real-time oscilloscope transmitting/receiving 40 GBaud PAM-4 (80 Gb/s) to/from the differential cables with software 21-tap feed-forward equalizer (FFE) and LB-DFE on PC was also conducted.