Through our interdisciplinary expertise, we translate the requirements from the latest developments in photonics into their microelectronic system components while keeping future expansion stages in mind.
efficient
„.. long coherence times of trapped ions provide the foundation for a correspondingly long operational time for executing quantum algorithms.“ [Federal Ministry of Education and Research]
To leverage this advantage, we integrate highly parallel FPGA logic with efficient processing modules at both the hardware and software levels.
scalable
„Individual optical addressing in small registers is combined with coupling and dynamic configuration of multiple registers by moving and regrouping the ions.“ [Federal Ministry of Education and Research]
The potential to customize the processing power of a quantum processor by scaling the quantum registers requires a scalable microelectronic base for precise control of photonics.
With our years of experience in developing high-performance and scalable computing systems, we are able to meet these requirements through our proprietary modular system concept engineered by paraXent.
Experimenteller Aufbau eines Ionen-Quantenprozessors unseres Forschungspartners JGU Mainz
sustainable
Practical quantum computers have the potential to answer previously unsolvable questions in fields such as physics, chemistry, biology, pharmaceuticals, engineering, and many others.
Together, we create solutions to unlock and utilize this potential.
For more information about this project, visit the Federal Ministry of Education and Research website.