Widespread adoption of silicon photonics into datacenters requires that the integration of the driving electronics with the photonics be an essential component of transceiver development. In this article, we describe our silicon photonic transceiver design: a 2.5D integrated multi-chip module (MCM) for 4-channel wavelength division multiplexed (WDM) microdisk modulation targeting 10 Gbps per channel. A silicon interposer is used to provide connectivity between the photonic integrated circuit (PIC) and the commercial transimpedance amplifiers (TIAs). Error free modulation is demonstrated at 10 Gbps with -16 dBm received power for the photonic bare die and at 6 Gbps with -15 dBm received power for the first iteration of the MCM transceiver. I...
We present DWDM nanophotonics architectures based on microring resonator modulators and detectors. W...
New broadband applications are causing the datacenters to proliferate, raising the bar for higher in...
Fast switching in silicon photonics gets record performance. High-performance supercomputing and d...
Widespread adoption of silicon photonics into datacenters requires that the integration of the drivi...
We demonstrate the first 2.5D integrated, wavelength division multiplexing, silicon photonic receive...
The exponential growth of data generation–driven in part by the proliferation of applications such a...
We describe and characterize a multi-micron silicon photonics platform that was designed to combine ...
We assert in the course of this work that silicon photonics has the potential to be a key disruptive...
The continuous growth of electronic compute and memory nodes in terms of the number of I/O pins, ban...
Today, the datacenter ecosystems are fueling the demand for novel transmitter (TX) technologies comp...
Artículo científicoWe experimentally demonstrate a novel four-channel wavelength division multiplex...
Photonic integrated circuits have seen a dramatic increase in complexity over the past decades. This...
With next-generation optical interconnects for data centers aiming for 0.8 Tb/s or 1.6 Tb/s, 100 Gba...
Data communication is a critical component of modern technology in our society. There is an increasi...
The historical and continuing exponential growth in processor capability continues to provide the pa...
We present DWDM nanophotonics architectures based on microring resonator modulators and detectors. W...
New broadband applications are causing the datacenters to proliferate, raising the bar for higher in...
Fast switching in silicon photonics gets record performance. High-performance supercomputing and d...
Widespread adoption of silicon photonics into datacenters requires that the integration of the drivi...
We demonstrate the first 2.5D integrated, wavelength division multiplexing, silicon photonic receive...
The exponential growth of data generation–driven in part by the proliferation of applications such a...
We describe and characterize a multi-micron silicon photonics platform that was designed to combine ...
We assert in the course of this work that silicon photonics has the potential to be a key disruptive...
The continuous growth of electronic compute and memory nodes in terms of the number of I/O pins, ban...
Today, the datacenter ecosystems are fueling the demand for novel transmitter (TX) technologies comp...
Artículo científicoWe experimentally demonstrate a novel four-channel wavelength division multiplex...
Photonic integrated circuits have seen a dramatic increase in complexity over the past decades. This...
With next-generation optical interconnects for data centers aiming for 0.8 Tb/s or 1.6 Tb/s, 100 Gba...
Data communication is a critical component of modern technology in our society. There is an increasi...
The historical and continuing exponential growth in processor capability continues to provide the pa...
We present DWDM nanophotonics architectures based on microring resonator modulators and detectors. W...
New broadband applications are causing the datacenters to proliferate, raising the bar for higher in...
Fast switching in silicon photonics gets record performance. High-performance supercomputing and d...