Photonics technology will save a huge amount of energy in next generation data centers.

Shrewsbury, MA - PI (Physik Instrumente) a global leader in precision motion control, automation, and nanopositioning solutions, announces that its PINovAlign active parallel photonics alignment platform was recognized with a 2026 Lightwave Innovation Award.

The award was presented at the OFC Conference in Los Angeles, CA, where PI's Matt Price and Nikta Jalayer accepted the honor from Lightwave Magazine Editor Sean Buckley.

This recognition marks the fourth major industry award for the PINovAlign system, underscoring its impact on high-speed, high-precision photonics alignment. The platform combines advanced motion control, integrated alignment algorithms, and high-performance hardware to significantly improve throughput and repeatability in photonic device manufacturing and testing.

Parallel, Multi-Channel Optimization
Designed for silicon photonics wafer testing, high-throughput fiber alignment, FAU (fiber array unit) alignment, and PIC (photonic integrated circuit) alignment in both test and assembly environments, PINovAlign's parallel, multi-channel optimization approach addresses one of the key bottlenecks in scaling silicon photonics manufacturing. By combining high-dynamics precision motion with embedded alignment intelligence, the system enables rapid, repeatable coupling of optical components with nanometer-level accuracy.

At the Core of Data Centers - Photonics is Advancing the Future while Saving Energy
At the core of the platform, the PILightning algorithm dramatically accelerates first-light acquisition and alignment convergence compared to legacy, sequential methods. This results in significantly shorter cycle times, higher yield, and improved process stability—critical factors for volume production.

As silicon photonics continues to emerge as a foundational technology for AI infrastructure and next-generation data centers, the need for fast, automated, and scalable alignment solutions becomes essential. By reducing alignment time from minutes to seconds and enabling parallel, multi-channel optimization, PINovAlign helps remove a major barrier to mass adoption, supporting the growth of an industry that will underpin future high-speed data communication.

By replacing electrons with photons, photonic computer chips have the potential to save huge amounts of energy in next generation data centers.

Industries & Applications Served
Photonics alignment, fiber array alignment, PIC wafer probing, micro-optics alignment