| Summary: | A high-speed serial interface is the core IP of a high-performance computer, data center and interconnection network; its bandwidth and bit error performance restrict the development of the system. With the evolution of high-speed serial interface line rates from 56 G to 112 G in high-end information systems, their bit errors increase sharply, limiting system performance. In order to solve the high-bit-error problem of the 112 Gb/s high-speed serial interface, this paper proposes a low-error Duo-binary PAM4 (DB-PAM) receive equalization technology. This technology utilizes the Duo-binary (DB) signal in which the channel and the transceiving equalizer work together to realize the low-error reception of the 112 Gb/s signal in the high-attenuation channel. To solve the problem of difficulty in generating high-speed DB-PAM4 signals and the complex adjustment of equalization parameters, this paper proposes a two-step progressive equalization technique. In the first step, the technology transmits not-return-to-zero (NRZ) signals at the transmitter (TX) and generates a Duo-binary (DB) signal path at the receiver using the least mean square error (LMS) algorithm. In the second step, the technology sends a precode-PAM4 (pre-PAM4) signal at TX; at the receiving end, the adaptive equalization algorithm is used to adjust the DSP equalization parameters to generate the optimal equalization parameters of the DB-PAM4 signal. This paper uses Cadence’s AMS simulation platform to verify the receive equalizer of DB-PAM4. Simulation results show: when a 112 Gb/s pre-PAM4 signal passes through the 35 dB@28 GHz channel, the receiver (RX) utilizes the adaptive equalizer to generate a 112 Gb/s DB-PAM4 signal, and the receiver bit error rate (BER) is less than 3e-9.
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