Litcius/Paper detail

6.3 A 10-to-112Gb/s DSP-DAC-Based Transmitter with 1.2V<sub>ppd</sub> Output Swing in 7nm FinFET

Eric Groen, Charlie Boecker, Masum Hossain, Roxanne Vu, Socrates D. Vamvakos, Haidang Lin, Simon Li, Marcus van Ierssel, Prashant Choudhary, Nanyan Wang, Masumi Shibata, Mohammad Hossein Taghavi, Nhat Nguyen, Shaishav Desai

202040 citationsDOI

Abstract

Internet of things (IoT) devices such as self-driven cars and home appliances are creating massive amounts of data traffic. Obviously, such demand trickles down to every electrical interface in a network. Therefore, next-generation data centers need to evolve accordingly to accommodate the bandwidth demand of a rapidly changing world of technology. Since the channel loss is not improving at the same rate, most of the standards are adopting multilevel signaling to make more efficient use of the frequency spectrum. A 4×112Gb/s PAM-4 transmitter presented in this work is leading this trend to keep electrical signaling viable and relevant for future data centers. It introduces three techniques to enable flexibility over different protocols and achieves 1.56pJ/b (175mW at 112Gb/s data rate including clocking) energy efficiency. First, improving signal-to-noise ratio is key to achieve lower BER in multilevel signaling. This work introduces a `soft-switching' H-bridge output driver to enable a 1.2V peak-to-peak differential output swing without exposing devices beyond breakdown voltage. Second, `flex clocking' is achieved by combining a central LC-PLL with a per-lane sub-sampling ring PLL. This combination enables flexible clock generation to seamlessly support data rates between 10Gb/s NRZ and 112Gb/s PAM-4. This clocking architecture enables low-frequency clock distribution for power saving and is easily scalable to more lanes. Third, a DSP-DAC-based transmitter is used to support an arbitrary number of equalization taps and different modulation schemes [1]. A segmented lookup-table-based (LUP-based) implementation further reduces the DSP power.

Topics & Concepts

TransmitterComputer scienceElectronic engineeringScalabilityBandwidth (computing)Lookup tableSwingDigital signal processingComputer hardwareElectrical engineeringEmbedded systemChannel (broadcasting)EngineeringTelecommunicationsDatabaseProgramming languageMechanical engineeringAdvancements in PLL and VCO TechnologiesLow-power high-performance VLSI designInterconnection Networks and Systems