Quix Quantum receives 15 million euros: the way to the first quantum computer!

Quix Quantum receives 15 million euros: the way to the first quantum computer!

The world of quantum computers moves at a rapid speed, and the latest encounter of innovative companies impressively shows how exciting this development is. Two pioneers, Quix Quantum and IBM, are in the spotlight and drive the technology forward. Quix Quantum has just been able to collect 15 million euros for the development of the first universal quantum computer, while IBM works on its roadmap for a large, fault -tolerant quantum computer.

quix quantum, a dynamic startup from Enschede, has set itself the goal of launching the world's first quantum computer based on individual photon technology. This ambitious plan is to become a reality by 2026, and the financing, which was supported by Invest-NL and EIC Fund, among others, significantly accelerates the system development. CEO Dr. Ing. Stefan Hengesbach explains that the means will help develop the key technologies that are necessary to realize a fault -tolerant quantum computer. The approaches on which Quix Quantum builds up - superposition, entanglement and interference - bring a completely new dimension to information processing.

The skills of quantum computing

The possibilities that quantum computers offer are impressive. You are able to solve complex problems that exceed classic computers. Be it the factorization of large numbers, the simulation of chemical reactions or the optimization of systems - the applications are varied. Quix Quantum works with silicon-nitride chips that are suitable for high-volume production and at the same time enable operation at room temperature. The first universal quantum computer is to be launched in 2026 and usher in a new era in data analysis, molecular dynamics and machine learning.

at the same time, IBM presented his plan to develop the first large -scale, fault -tolerant quantum computer in confectionery, New York. IBM Quantum Starling, as he is called, should be ready for operation by 2029 and is designed to carry out 20,000 times more operations than the current quantum computers. In order to achieve this immense computing power, the architecture of Starling will consist of hundreds of logical qubits that are formed from physical quBITs. This technology is crucial in order to be able to cope with large workloads without errors.

progress in error correction

A key element for the success of large quantum computers is the error correction. Here the Surface code is traded as one of the best coding strategies. It shows promising approaches to the handling of physical qubits that are arranged on one level. These research is viewed as a milestone, since it is known that the quality of the Surface Codes increases with the number of physical quBITs used. Google's experiment recently demonstrated that these approaches also work practically.

The path towards an error -corrected quantum computer is still long. A large number of physical quBITs are required to form a single logical qubit. This creates challenges that are gradually improved, but still still exists. The progress of IBM and Quix Quantum show that the competition for the best solutions is intense. The fact is that the next generation of quantum computers not only has to be quick, but also stable in order to exploit the full potential of this fascinating technology.

With companies such as Quix Quantum and IBM, which are at the top of the innovation, we are at the beginning of a revolutionary era in confidence in quantum computing. It remains exciting to see how these technologies develop and which groundbreaking applications they will cause.

For more information about the progress at Quix Quantum, find out about the news about ioplus.nl . IBM also gives on your platform newsroom.ibm.com Insights in the developments round Around the IBM Quantum Starling. For deeper insights into the error correction, visit sciencemediacenter.de .