SaxonQ demonstrated a portable quantum computer at Hannover Messe 2025 with help from Quantum Machines. The companies showed real-time quantum applications running outside a lab environment for the first time. They performed quantum chemical calculations of hydrogen energy levels at the event. They also displayed image recognition that could identify smileys from other images using quantum processing.
The mobile quantum computer works at room temperature without special cooling equipment. It plugs into a standard wall outlet instead of needing complex infrastructure, making it practical for industrial settings where traditional quantum computers cannot operate. The system uses spin defects in diamond chips as its core technology. Quantum Machines provided the control system that helps manipulate qubits with high precision.
This achievement brings quantum computing closer to everyday applications. The technology might eventually enhance chemistry research and artificial intelligence systems. Both companies consider this a major step toward practical quantum computing outside specialized laboratories. The demonstration proved that quantum operations can run reliably in normal environments. Experts see this as an important advancement for bringing quantum advantages to real-world problems.
The mobile quantum computer works at room temperature without special cooling equipment. It plugs into a standard wall outlet instead of needing complex infrastructure, making it practical for industrial settings where traditional quantum computers cannot operate. The system uses spin defects in diamond chips as its core technology. Quantum Machines provided the control system that helps manipulate qubits with high precision.
This achievement brings quantum computing closer to everyday applications. The technology might eventually enhance chemistry research and artificial intelligence systems. Both companies consider this a major step toward practical quantum computing outside specialized laboratories. The demonstration proved that quantum operations can run reliably in normal environments. Experts see this as an important advancement for bringing quantum advantages to real-world problems.
