Coherent
Headquartered in Saxonburg (US), Coherent is a global leader in materials, networking, and lasers for the industrial, communications, electronics, and instrumentation markets. The company manufactures high-quality materials, optics and high-power diode laser chips and modules for a variety of large laser facilities. Today, the company operates in more than 20 countries around the world.
Learn More: www.coherent.com
Europractice
Europractice offers a platform with a full range of services to design, fabricate, package and integrate microelectronic circuits. For nearly 30 years, we have supported our customers in all critical steps on the way from prototype design to volume production.
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Learn More: https://europractice-ic.com/
Hamamatsu
Hamamatsu Photonics K.K. was founded in 1953 by a group of engineers who had been trained by Dr. Kenjiro Takayanagi, a pioneer in the development of television in Japan. Since then, we have been engaged in scientific research into optical field for 70 years and have developed a variety of products with opto-technology such as Photomultiplier Tubes, Imaging Tubes, Light Sources, Opto-semiconductors, Lasers, Measuring Video Systems and Image Processing Systems. We go far beyond technological development; we are aiming to delve into fields as yet unexplored by mankind through opto-technology, and to develop whole new industries.
Learn More: www.hamamatsu.com
Flexcompute
Power Global R&D with Next-Gen Physics Simulation
Simulations are used to design physical products, from iPhones to data centers, from solar panels to wind turbines, from electric cars to drones. It solves physics-based equations with math-intensive algorithms on high performance computers.
Traditional full-wave electromagnetic simulations can be computationally intensive, often requiring significant time to simulate moderately complex photonic structures. Tidy3D, Flexcompute’s flagship FDTD solver, is optimized with advanced algorithms and high-performance computing techniques. As a result, compared to other competitor products on the market, Tidy3D consistently demonstrates an over 10x order of magnitude speed advantage, allowing teams to iterate designs more rapidly, leading to quicker innovation cycles. As integrated photonic systems become more complex, the ability to scale simulations is essential. Tidy3D leverages parallel computing architectures such as GPUs to handle large-scale simulations.
Learn more: www.flexcompute.com
The Photonic Integration Technology Center (PITC)
The Photonic Integration Technology Center (PITC) is a joint initiative of Eindhoven University of Technology (TU/e), University of Twente (UT), TNO and PhotonDelta. We are an open R&D and innovation center for integrated photonics, accelerating the uptake of integrated photonics technologies and products by bridging the divide between research and application. PITC aims to become the leading center of excellence for development and engineering of PIC processes, applications and solutions in the world.
Within PITC, we are working on four technology programs together with industrial partners: Indium Phosphide – InP (TU/e), Silicon Nitride – SiN (UT), Metrology (TU/e) and heterogeneous integration (TNO). We as TNO (located at the High Tech Campus in Eindhoven) are leading the heterogeneous integration program. Our ambition within this program is to become a world class technology development center for hybrid and heterogeneous photonic integration that solves technological and operational obstacles facing PIC mass adoption and enables cutting edge photonic solutions.
Learn more at these websites:
Photon Design
Photon Design was started in 1992 and now provides a wide range of innovative photonics CAD tools to 35 countries around the world, supplying most of the World’s leading photonics companies, universities and government research labs. CAD products include tools for both passive and active (semiconductor) component and optical circuit modeling. The company has a team of the brightest people in photonics modeling, developing innovative solutions for tomorrow’s photonics design projects.
Learn More: www.photond.com