The start-up IQM has presented a new quantum computer. In particular, the low price of the new model could drive development in the field of quantum computing and open up new application possibilities.
IQM presents new quantum computer
The German-Finnish start-up IQM recently announced via a press release that it will be the first in the world to provide a superconducting quantum computer priced at less than one million euros, making quantum computing much more accessible than ever before.
According to the company, the new model, which bears the name “IQM Spark”, was developed particularly for universities and research institutions. According to IQM, the IQM Spark will enable institutions with limited budgets to enter a field that previously seemed financially insurmountable and to advance innovation in quantum computing.
Decoding Quantum Computers: Beyond Bits and Bytes
In order to assess the potential of a comparatively affordable quantum computer, it is important to understand the difference between conventional binary computers and the field of quantum computing, according to the German Press Agency. At the heart of this distinction lies the use of bits and qubits, the German Press Agency continued. Conventional computers use binary bits that can have the value either 0 or 1. This binary nature forms the basis of all calculations and data storage. Quantum computers, on the other hand, rely on qubits that can exist in an infinite number of states. This unique property allows quantum computers to perform complex calculations by exploring multiple solutions at the same time. This gives them unprecedented computing power.
Applications of quantum computing
The introduction of accessible quantum computing, for example through IQM, could be the foundation for a variety of new technologies and applications with great potential. While classic computers provide excellent performance in numerous tasks, there are still problems that cannot be solved by conventional binary computers due to their complexity. Quantum computers, with their ability to process huge amounts of data at extraordinary speeds, open up the possibility of solving problems that previously seemed insurmountable, Handelsblatt reports.
The possible applications of quantum computers are diverse, as the Handelsblatt reports. For example, through the use of quantum computers, navigation systems could be developed and operated that better predict complex road traffic and, among other things, take traffic light switching into account when calculating routes. In addition, she could Pharmaceutical industry Use quantum computers to simulate molecular structures, calculate active ingredient compositions and thus develop more effective and cheaper drugs. The use of quantum computing also offers great potential in the area of encryption technology.
Editorial team finanzen.net