Abstract

The increasing demand on bandwidth for communicating among processors through wired interconnects in large-scale servers motivates the increase in the lane-data-rate from the current 28Gb/s to 56Gb/s or further. Recently published works [1-3] demonstrated ADC-based receiver (RX) prototypes equalizing >56Gb/s PAM-4 symbols for legacy channels with pre-FEC BERs of less than 2E4 satisfying IEEE p802.bj/bs pre-FEC BER requirements. While the ADC-based >56Gb/s PAM-4 RXs provide strong equalization performance using a large number of feed-forward equalization (FFE) taps and a few decision-feedback equalization (DFE) taps [1,2] implemented in digital, their power consumption remains excessive due to heavy arithmetic operations in the DSP.