5 A 224Gb/s/wire Single-Ended PAM-4 Transceiver Front-End with 29dB Equalization for 800GbE/1.6TbE

With the exponential growth of artificial intelligence systems and cloud computing, next-generation wireline transceivers are aiming for data rates of 800GbE/1. 6TbE, requiring 224Gb/s per lane. Potential 224Gb/s long-reach (LR) solutions 1 include: 1) ADC/DSP-based schemes; 2) PAM-6/PAM-8/OFDM modulation schemes; or 3) PAM-4 retimers with embedded CDRs and equalizers. While all of the above schemes are based on differential signaling, there has been recent interest in single-ended schemes, such as 2D/3D interposer, UCIe, or memory 2, 3, 4. Compared to differential signaling schemes, single-ended systems can achieve doubled pin efficiency and higher-density IOs. For example, state-of-the-art single-ended links from 4 achieve excellent energy/bit and pin density, but currently are limited to 50Gb/s/wire and a distance of 1. 2mm (−5dB insertion loss (IL) ). In this work, we propose a 4 224 Gb/s single-ended transceiver front-end with up to 29dB equalization for high-pin-density and long-distance scenarios. Furthermore, for IL larger than 30dB, another promising scheme may consist of one low-power XSR/VSR SerDes or retimer, the proposed single-ended transceiver frontend, and single-ended channels, as shown in Fig. 7. 5. 1 (top).