Internship Germany
CTO Office - Nürnberg
Join Ranovus for an Internship or to complete your Bachelor’s or Master’s thesis.
Location: Nuremberg, Germany [Hybrid]
Company: Ranovus – Innovating the Future of Data Centre Connectivity
About Us
At Ranovus, we’re powering the next generation of data centre infrastructure with cutting-edge fiber-optic communication technologies. With operations in Ottawa (Canada), Nuremberg (Germany), and San Jose (USA), we’re on a mission to deliver high-performance solutions that reduce environmental impact through lower power consumption.
What We Are Offering
We offer students a unique opportunity to gain hands-on experience with advanced technologies for optical and electronic systems, including heterogeneous integration, chiplet architectures, high-speed interconnect technologies. Interns will contribute to real development projects while working closely with experienced engineers and researchers.
The ideal candidate is pursuing a Bachelor's or Master's degree in Physics, Optical Systems, Electrical Engineering, Mechatronic, or a related field. Knowledge of engineering software such as ANSYS (Zemax), COMSOL, SolidWorks, MATLAB, Python, or equivalent simulation and design environments is beneficial.
Additionally, we are open to supporting students in completing their Bachelor’s or Master’s thesis at Ranovus, based on an industry-relevant topic.
The intern will contribute to several of the following activities:
Evaluation of advanced packaging architectures for photonic and electronic integrated circuits:
Benefits

The world-class team of scientist and engineers at Ranovus is comprised of professionals with a unique combination of decades of expertise in product development of optoelectronics components and transceiver subsystems for the information technology industry.
Ranovus' disruptive innovation in Quantum Dot Multi-Wavelength Laser combined with advanced digital and photonics integrated circuit technologies is setting a new industry benchmark for the next generation of optical interconnect solutions.
Our technology delivers significant reduction in power dissipation, size and cost of interconnects, and enables a much higher degree of distortion tolerance compared to traditional solutions, thereby enabling a "freeway" architecture to reduce network latency.