The latest generation of network switches achieves switching speeds surpassing 12.8Tbps, underscoring the escalating demand for denser interfaces with higher bandwidth. While silicon photonic circuits grow towards greater integration levels and further miniaturization, the corresponding challenges related to the optical interconnects expand proportionally.

On-board optics and co-packaged optics represent the next evolutionary phase beyond pluggable optics, spurred by the recent surge of AI which requires increased bandwidth between processors and memory to keep up with the increasing complexity of the models.

Optical Interconnects switches
Optical Interconnectors

Both trends underline the need for more dense optical interconnections with alignment features to minimize the assembly complexity.

At OneTouch Technology we specialize in precise custom fiber array sub-assemblies and polarization maintaining fiber optical components and assemblies that interface the photonic chips with regular connectors.

We master several high-precision interconnects that reduce the complexity of the optical alignment.

OneTouch Technologies benefits from access to a well-established production line capable of manufacturing various optical passive connectivity solutions, both in low and high volumes. Our offerings can be customized to meet specific customer needs if necessary.

connectivity solutions

More technologies

TFLN Modulator Technology

Thin-Film Lithium Niobate technology is a groundbreaking advancement in optical communication. It combines the strengths of high speed lithium niobate modulator technology with the the scalability of silicon photonics technology.

Heterogeneous Integration

OneTouch Technology has invested extensive research efforts into developing a reliable bonding process for Thin-film Lithium Niobate layers onto silicon on insulator materials such as Si, SiN, and SiO.

800G TOSA Architecture

At OneTouch Technology we strongly believe that Silicon Photonics possesses the potential to increase its market share for different applications, even though some challenges remain. On the other hand, the market for optical transceivers continues to grow and therefore demands higher speeds.