The world's first mobile quantum computer will be created in Germany

The world's first mobile quantum computer should be launched by 2027.

It is intended for use in defense, security and civilian applications, with an emphasis on portability and real-time performance in a variety of environments.

Germany's cyber security agency Agentur Cyberagentur signed contracts with four companies — Quantum Brilliance, ParityQC, Oxford Ionics and neQxt — to create the world's first mobile quantum computer by 2027.

The cost of the project is $39 million, writes Interesting Engineering.

Each company brings its own specialized expertise to the program, including miniature quantum chips, scalable quantum architecture and portable quantum systems.

Quantum Brilliance Company, known for its expertise in creating miniature quantum chips that operate at room temperature, is playing a critical role in this initiative.

The company's quantum chips use nitrogen-vacancy centers in synthetic diamonds as qubits, allowing them to function without in extreme cooling systems. These chips are also compatible with traditional semiconductors, which simplifies the integration of quantum technologies into existing systems.

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On the other hand, ParityQC focuses on the development of the ParityOS product of the same name. It is a scalable quantum architecture and operating system that promises to process large algorithms more efficiently and with fewer errors.

The company's innovative approach ensures that mobile quantum computers will be able to process complex data in real time, even at remote places.

Oxford Ionics  brings its advanced technology of electronic qubit control to the project. Unlike conventional methods that use lasers, Oxford Ionics relies on electronics to control the qubits. This innovation allows the company to produce highly reliable quantum chips that can be manufactured using modern semiconductor technologies.

Meanwhile German startup neQxt is implementing trapped ion technology called MaQue. With this system, defense and national security will be able to optimize and run simulations in real-time, thus eliminating the need for large cloud data centers.

This tool is designed to provide reliable computing in potentially dangerous and often very remote areas. , for example on the battlefield. It can be used to simulate chemical or biological hazards, process large amounts of battlefield data, and fine-tune military operations.

Although the focus is on the defense and security sectors, the technology being created here may have an extremely wide range of applications, including the financial sector, supply chain or scientific research.