Filippo Cugini

As part of the ALLEGRO project, we are excited to share progress on the O-band Semiconductor Optical Amplifiers (SOAs), designed for seamless integration with NVIDIA's O-band switch. These SOAs will serve as amplifiers at the input and output ports, enhancing the...

Exciting progress in the ALLEGRO project! Our silicon photonic switch layout has been finalized and successfully submitted for fabrication to Tower Semiconductor. 🎉 Key highlights of this achievement:✅ Design Rule Check (DRC) Clean: Extensive efforts were made to...

The demand for scalable, high-performance optical switches is growing, and ALLEGRO is tackling this challenge with an innovative hybrid optical switch system. Our O-band optical switch consists of two key sections: 🔹 Silicon photonics switching – leveraging MZI...

The demand for higher capacity and power-efficient WDM switches and transceivers is rising as data center traffic continues to grow. A key challenge? Optical power at the receiver and on-chip loss, which directly impact transceiver performance and photonic switch...

In the ALLEGRO project, ensuring high-performance photonic chips starts with a rigorous pre-validation testing phase before electrical and optical packaging. This crucial step eliminates non-functional chips early, optimizing time and cost efficiency. 🔹 Key Steps in...

As part of the ALLEGRO project, we are pushing the frontiers of photonic integration with an advanced waveguide mesh—a versatile platform designed for high-performance optical processing, switching, and signal manipulation. 🔹 Programmable Photonic Waveguide MeshThe...

In the ALLEGRO project, we are optimizing the characterization of optical networks through a carefully designed experimental setup that enhances signal transmission and reception. 🔹 TX to RX Optical NetworkThe setup consists of a transmitter (TX) and receiver (RX)...

As part of the ALLEGRO project, we are pushing the boundaries of passive component fabrication to enhance fibre-to-chip coupling efficiency (CE) and reduce fibre-to-fibre insertion loss (F2F IL) below 10 dB. 🔹 Optimizing Edge Couplers (EC)✅ Higher & broader CE...

In our latest development, the ALLEGRO project continues to push the limits of high-speed photodetection. Previous results from RP1 demonstrated a flat electro-optical response up to 100 GHz and consistent responsivity in the C-band. 📡 Key Highlights from This Run:✅...

Exciting progress on the ALLEGRO project! The first run of our IQ modulators is currently undergoing testing, and we anticipate meeting our predicted KPI targets. Despite some unexpected fabrication challenges causing minor delays, the completion of this stage ensures...