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Journals and Conferences
We review a technology platform that enables monolithic integration of optical and electronic circuits in a mainstream CMOS process and demonstrate a grating coupler with 0.75 dB insertion loss.
We report on the demonstration of an integrated 4×25 Gb/s parallel optical transceiver built in Luxtera's CMOS photonics platform, and discuss how we can scale this platform to even higher data rates.
In this contribution the CMOS photonics technology (LuxG) developed and commercialized by Luxtera is reviewed. The advantages of integration and usage of a standard CMOS foundry… (More)
CMOS integration methodologies, design and performance of advanced silicon photonics ICs are highlighted. The roadmap towards low power and high density optical interconnect as well as close… (More)
We address the effects of packaging on performance, reliability and cost of photonic devices. For silicon photonics we address some specific packaging aspects. Finally we propose an approach for… (More)
We examine how the continued increase of single channel data rates combined with spatial multiplexing enabled by multi-core fibers will lead to the aggressive scaling of the aggregate bandwidth of… (More)
In this paper we address silicon photonics based optical transceiver technology for applications in advanced data communications such as high performance computing and hyperscale datacenters.
In this paper we discuss the different aspects of designing and manufacturing advanced silicon photonics transceivers and focus on utilizing the experience and infrastructure from the CMOS industry.… (More)
As data rates and densities in networks have increased, Silicon Photonics has emerged as a primary enabler for upcoming high-speed interconnect applications. We discuss Luxtera's opto-electronic… (More)
We report on the development of Luxtera's silicon photonics platform for the production of high-speed optical transceivers using a hybrid-integrated approach.