Electronic Bottleneck Suppression in Next‐Generation Networks with Integrated Photonic Digital‐to‐Analog Converters

Meng, Jiawei; Miscuglio, Mario; George, Jonathan K.; Babakhani, Aydin; Sorger, Volker J.

doi:10.1002/adpr.202000033

Title: Electronic Bottleneck Suppression in Next‐Generation Networks with Integrated Photonic Digital‐to‐Analog Converters

Journal Article · 22 November 2020 · Advanced Photonics Research

DOI: https://doi.org/10.1002/adpr.202000033 · OSTI ID:1724112

Meng, Jiawei ^[1]; Miscuglio, Mario ^[1]; George, Jonathan K. ^[1]; Babakhani, Aydin ^[2];

^[1]

Department of Electrical and Computer Engineering George Washington University Washington DC 20052 USA
Department of Electrical and Computer Engineering University of California Los Angeles Los Angeles CA 90095 USA

Digital‐to‐analog converters (DAC) are indispensable functional units in signal processing instrumentation and wide‐band telecommunication links for both civil and military applications. As photonic systems are capable of high data throughput and low latency, an increasingly found system limitation stems from the required domain crossing such as digital to analog and electronic to optical. A photonic DAC implementation, in contrast, enables a seamless signal conversion with respect to both energy efficiency and short signal delay, often requiring bulky discrete optical components and electric–optic transformation, hence introducing inefficiencies. Herein, a novel coherent parallel photonic DAC concept along with a 4‐bit experimental prototype capable of performing this DAC without optic–electric–optic domain crossing is introduced. This new paradigm guarantees a linear intensity weighting among bits when operating at high sampling rates (50 GHz), featuring an exceptional sampling efficiency (> 100 GS ) and small footprint (≈1 mm ² ) in an 8‐bit implementation. Importantly, this photonic DAC enables seamless interfaces of next‐generation data processing hardware with high relevance in data centers, task‐specific compute accelerators such as neuromorphic engines, and network edge processing applications.

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Sponsoring Organization:: USDOE

OSTI ID:: 1724112

Journal Information:: Advanced Photonics Research, Journal Name: Advanced Photonics Research Journal Issue: 2 Vol. 2; ISSN 2699-9293

Publisher:: Wiley Blackwell (John Wiley & Sons)Copyright Statement

Country of Publication:: Germany

Language:: English

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