Chip-on-board silicon photonics O-band wavelength-division multiplexing transceivers have been developed that will eventually enable high-throughput on-board optical communication for multi-socket on-board communication. This direct, any-to-any configuration yields low-latency, low-power optical communication among multiple compute nodes on the board. Silicon photonic transceiver chips are flip-chipped on a polymer waveguide containing an electro-optical circuit board using adiabatic coupling and then completed with driver and amplifier electronic chips. A transceiver assembly based on wire-bond technology verifies 50 Gb/s operation per channel, and the flip-chip version demonstrates the chip on-board assembly techniques for compact on-boar...
Widespread adoption of silicon photonics into datacenters requires that the integration of the drivi...
The last decade has seen an exponential increase in the magnitude and consumption of digital informa...
We demonstrate a 200G capable WDM O-band optical transceiver comprising a 4-element array of Silicon...
Chip-on-board silicon photonics O-band wavelength-division multiplexing transceivers have been devel...
Abstract Chip‐on‐board silicon photonics O‐band wavelength‐division multiplexing transceivers have b...
Multi-socket server boards (MSBs) exploit the interconnection of multiple processor chips towards fo...
New broadband applications are causing the datacenters to proliferate, raising the bar for higher in...
The rapid expansion in data communication due to the increased multimedia applications and cloud com...
The continuous growth of electronic compute and memory nodes in terms of the number of I/O pins, ban...
The exponential growth of data generation–driven in part by the proliferation of applications such a...
Today, the datacenter ecosystems are fueling the demand for novel transmitter (TX) technologies comp...
Stimulated by a series of important breakthrough, silicon photonics has been experiencing a signific...
Abstract Multi‐socket server boards (MSBs) exploit the interconnection of multiple processor chips t...
We present an O-band any-to-any chip-to-chip (C2C) interconnection at 40 Gb/s suitable for up to 8-s...
In this paper we give an overview on our work on silicon photonic high-speed transceivers and the co...
Widespread adoption of silicon photonics into datacenters requires that the integration of the drivi...
The last decade has seen an exponential increase in the magnitude and consumption of digital informa...
We demonstrate a 200G capable WDM O-band optical transceiver comprising a 4-element array of Silicon...
Chip-on-board silicon photonics O-band wavelength-division multiplexing transceivers have been devel...
Abstract Chip‐on‐board silicon photonics O‐band wavelength‐division multiplexing transceivers have b...
Multi-socket server boards (MSBs) exploit the interconnection of multiple processor chips towards fo...
New broadband applications are causing the datacenters to proliferate, raising the bar for higher in...
The rapid expansion in data communication due to the increased multimedia applications and cloud com...
The continuous growth of electronic compute and memory nodes in terms of the number of I/O pins, ban...
The exponential growth of data generation–driven in part by the proliferation of applications such a...
Today, the datacenter ecosystems are fueling the demand for novel transmitter (TX) technologies comp...
Stimulated by a series of important breakthrough, silicon photonics has been experiencing a signific...
Abstract Multi‐socket server boards (MSBs) exploit the interconnection of multiple processor chips t...
We present an O-band any-to-any chip-to-chip (C2C) interconnection at 40 Gb/s suitable for up to 8-s...
In this paper we give an overview on our work on silicon photonic high-speed transceivers and the co...
Widespread adoption of silicon photonics into datacenters requires that the integration of the drivi...
The last decade has seen an exponential increase in the magnitude and consumption of digital informa...
We demonstrate a 200G capable WDM O-band optical transceiver comprising a 4-element array of Silicon...