Mobile, scalable Quantum Computer operating at room temperature
Mobile quantum computing at room temperature: SaxonQ enables scalable, energy-efficient quantum solutions for AI and robotics - robust, portable and independent of cryogenic cooling. The future of powerful computing systems begins beyond the laboratory.
SaxonQ’s NV-based quantum platform enables mobile and scalable quantum
computation under ambient conditions. Unlike most current quantum computers that
rely on cryogenic cooling and complex infrastructure, our system leverages nitrogen vacancy centers in diamond, offering robust qubit operation at room temperature. This
opens the door to portable and embedded applications far beyond lab-based setups.
While the majority of quantum computing is still cloud-based, mobile quantum systems
are regarded as highly promising for future mass-market applications in fields such as
artificial intelligence, autonomous systems, robotics, and precision medicine.
SaxonQ combines deterministic atom placement, nanoscale lithography, and
miniaturized hardware components to pave the way for next-generation quantum
architectures. These advances address the growing limitations of transistor-based
technology and provide a pathway toward more energy-efficient computation.
Initially, SaxonQ focuses on AI-related use cases, delivering enhanced computational
performance with an order-of-magnitude lower energy demand compared to classical
systems — a decisive advantage for sustainable, real-time AI at the edge.
Presentation language: ENG
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