Litcius/Paper detail

16-channel photonic–electric co-designed silicon transmitter with ultra-low power consumption

Jingbo Shi, Ming Jin, Tao Yang, Haowen Shu, Fenghe Yang, Han Liu, Yuansheng Tao, Jiangrui Deng, Ruixuan Chen, Changhao Han, N. D. Qi, Xingjun Wang

2022Photonics Research17 citationsDOI

Abstract

A hybrid integrated 16-channel silicon transmitter based on co-designed photonic integrated circuits (PICs) and electrical chiplets is demonstrated. The driver in the 65 nm CMOS process employs the combination of a distributed architecture, two-tap feedforward equalization (FFE), and a push–pull output stage, exhibiting an estimated differential output swing of 4.0 V pp . The rms jitter of 2.0 ps is achieved at 50 Gb/s under nonreturn-to-zero on–off keying (NRZ-OOK) modulation. The PICs are fabricated on a standard silicon-on-insulator platform and consist of 16 parallel silicon dual-drive Mach–Zehnder modulators on a single chip. The chip-on-board co-packaged Si transmitter is constituted by the multichannel chiplets without any off-chip bias control, which significantly simplifies the system complexity. Experimentally, the open and clear optical eye diagrams of selected channels up to 50 Gb/s OOK with extinction ratios exceeding 3 dB are obtained without any digital signal processing. The power consumption of the Si transmitter with a high integration density featuring a throughput up to 800 Gb/s is only 5.35 pJ/bit, indicating a great potential for massively parallel terabit-scale optical interconnects for future hyperscale data centers and high-performance computing systems.

Topics & Concepts

TransmitterSilicon photonicsTerabitKeyingPhotonicsComputer scienceElectronic engineeringCMOSOptoelectronicsMaterials scienceElectrical engineeringWavelength-division multiplexingChannel (broadcasting)TelecommunicationsEngineeringWavelengthPhotonic and Optical DevicesOptical Network TechnologiesAdvanced Photonic Communication Systems