Intel announced at IDF that it is in volume production of its silicon photonics products, which blend a normal integrated circuit with semiconductor lasers to transport data at 100G speeds with existing Ethernet, InfiniBand and Omni-Path protocols.
The industry has long viewed silicon photonics as the best solution to increasing data transfer speeds, and in fact, Intel's developmental process dates back 16 years. The key advantage of embedded lasers is that light can travel faster than electrons, and photonics allows transmission of light streams in closer proximity to each other than electrons, which increases density (Intel claims up to 100X bandwidth density).
Intel's initial plan is to use silicon photonics to boost network transfer speeds to 100G between switches, and the company sees a clear evolutionary path up to 400G. The first wave of products consists of 100G PSM4 (Parallel Single Mode Fiber with four lanes) and 100G CWDM4 (Coarse Wavelength Division Multiplexing with four lanes) optical transceivers, which can transmit and receive optical signals. The transceivers can push data up to 1.2 miles, which is a tall order for the existing copper-based interconnects that lose speed as distance increases.
Most data centers are beginning the transition to 10 GbE for communication between servers, and due to the lower cost of copper-based connections, that trend should continue. For now, Intel is relegating its silicon photonics products to switch-to-switch traffic, and Microsoft announced that it is integrating the technology into its Azure data centers.
Intel's approach will allow the company to mass-produce the products for less cost-sensitive applications at first, but prices will decline as the technology matures and it reaps the benefits of volume production. Silicon photonics will eventually filter down to handle traffic between and inside of servers. It may eventually boost data transfer speeds between microchips before it eventually works its way into the CPUs.
The new transceivers are a key piece of Intel's strategy to leverage its overwhelming CPU dominance in the data center (it accounts for 99% of the market) to take over other lucrative segments, such as networking.
Eventually--some claim within the next five years--photonics will work their way down to the die level, which could usher in the next wave of high-performance computing. Intel's silicon photonics transceivers are already shipping and are in volume production.