Posted in | News | Optics and Photonics

New Technique to Attach Silicon Photonic Chips Directly Onto Processors

The computing and telecommunications industries have ambitious plans for the future: Systems that will store information in the cloud, analyze enormous amounts of data, and think more like a brain than a standard computer. Such systems are already being developed, and scientists at IBM Research have demonstrated what may be an important step toward commercializing this next generation of computing technology. They established a method to integrate silicon photonic chips with the processor in the same package, avoiding the need for transceiver assemblies.

Bert Offrein, manager of the photonics group at IBM Research - Zurich holds an example of silicon photonic chips integrated with an array of polymer waveguides. Credit: IBM Research

The new technique, which will be presented 25 March at this year's OFC Conference and Exposition in Los Angeles, California, USA,should lower the cost and increase the performance, energy efficiency and size of future data centers, supercomputers and cloud systems.

Photonic devices, which use photons instead of electrons to transport and manipulate information, offer many advantages compared to traditional electronic links found in today’s computers. Optical links can transmit more information over larger distances and are more energy efficient than copper-based links. To optimally benefit from this technology, a tight integration of the electrical logic and optical transmission functions is required. The optical chip needs to be as close to the electrical chip as possible to minimize the distance of electrical connection between them. This can only be accomplished if they are packaged together.

"IBM has been a pioneer in the area of CMOS integrated silicon photonics for more than 12 years, a technology that integrates functions for optical communications on a silicon chip," said Bert Offrein, manager of the photonics group at IBM Research - Zurich. "In addition to the silicon technology advancements at the chip-level, novel system-level integration concepts are also required to fully profit from the new capabilities silicon photonics will bring," he continued.

Optical interconnect technology is currently incorporated into data centers by attaching discrete transceivers or active optical cables, which come in pre-assembled building blocks. The pre-packaged transceivers are large and expensive, limiting their large-scale use, Offrein said. Furthermore, such transceivers are mounted at the edge of the board, resulting in a large distance between the processor chip and the optical components.

Offrein and his IBM colleagues from Europe, the United States and Japan instead proposed an integration scheme in which the silicon photonic chips are treated similarly to ordinary silicon processor chips and are directly attached to the processor package without pre-assembling them into standard transceiver housings. This improves the performance and power efficiency of the optical interconnects while reducing the cost of assembly. Challenges arise because alignment tolerances in photonics are critical (sub-micron range) and optical interfaces are sensitive to debris and imperfections, thus requiring the best in packaging technology.

The team demonstrated efficient optical coupling of an array of silicon waveguides to a substrate containing an array of polymer waveguides. The significant size difference between the silicon waveguides and the polymer waveguides originally presented a major challenge. The researchers overcame this obstacle by gradually tapering the silicon waveguide, leading to an efficient transfer of the optical signal to the polymer waveguide.

The method is scalable and enables the simultaneous interfacing of many optical connections between a silicon photonic chip and the system. The optical coupling is also wavelength and polarization insensitive and tolerant to alignment offsets of a few micrometers, Offrein said.

"This integration scheme has the potential to massively reduce the cost of applying silicon photonics optical interconnects in computing systems," Offrein said. Cheaper photonic technology enables its deployment at a large scale, which will lead to computing systems that can process more information at higher performance levels and with better energy efficiency, he explained.

"Such systems will be key for future applications in the field of cloud-computing, big data, analytics and cognitive computing. In addition, it will enable novel architectures requiring high communication bandwidth, as for example in disaggregated systems," Offrein said.

About the Presentation
Presentation W3A.4, titled “Silicon Photonics for the Data Center,” will take place Wednesday 25 March at 14:00 PDT in room 402AB at the Los Angeles Convention Center.

MEDIA REGISTRATION: A media room for official press and analysts will be located in the Los Angeles Convention Center, Sunday through Thursday, 22 – 26 March. Those interested in obtaining media credentials should register online or contact [email protected].

About OFC

OFC is the largest global conference and exposition for optical communications and networking professionals. For more than 40 years, The Optical Fiber Communication Conference and Exposition (OFC) has drawn attendees from all corners of the globe to meet and greet, teach and learn, make connections and move business forward. OFC includes dynamic business programming, an exposition of more than 550 companies, and high impact peer-reviewed research that, combined, showcase the trends and pulse of the entire optical networking and communications industry. For more information, visit ofcconference.org.

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