Hamburg's future: Cooperation for progressive quantum computing!

Hamburg's future: Cooperation for progressive quantum computing!

Hamburg, Deutschland - What's in the world of quantum computing? The tension increases because Universal Quantum Deutschland GmbH has teamed up with the Technical University of Hamburg (TUHH). According to Quantum Zeitgeist , the cooperation between Hamburg Innovation and Development Bank is supported with several million euros. This initiative aims to develop a new programming interface for error -resistant quantum computing, a crucial step for the future of this technology.

In an era in which quantum computers come into play more and more, the goal is clear: scallion to up to 100,000 physical quants. And that's not an easy undertaking! The challenges of quantum error correction and the design of algorithms are just two of the topics that are in focus. Sebastian Weidt, Managing Director of Universal Quantum, praised the potential of this partnership in the highest tones: "An important step to open up large -scale quantum advantages for end users."

focus on error resistance

The sensitivity of quantum computers compared to errors makes the development of error -resistant systems essential. Quantum computers can really make the correct handling of errors. ibm explains that the challenges in quantum computing are to recognize errors such as decoration and noise and correct them in real time. Previous developments in quantum error correction are often limited to small scales, where only a few qubits are used. The goal must be to develop systems that remain stable even with a variety of qubits.

progress in quantum error correction

A remarkable development recently came from Google Quantum AI, where quantum error corrections were successfully carried out below a relevant threshold value. In a study published in "Nature", a surface code was used to summarize several physical quBITs into a logical qubit. Science Media Center has reported that this experiment was higher than for larger machines, which means that scalable, error-corrected quantum computers move in within reach.

Overall, there is an exciting way for quantum computing, with many innovative approaches in error correction and strong support from research institutions. There is a lot to observe - and we will certainly not stop reporting what is happening here!