EeroQ and Conductor Quantum have announced a functional proof-of-concept for an autonomous quantum computing lab utilizing NVIDIA Ising, the recently released family of open-source AI models. The demonstration showcased the ability of AI agents to independently execute and debug experiments on physical quantum hardware. By integrating EeroQ’s electrons-on-helium chip architecture with Conductor’s AI toolkit and the NVIDIA Ising control plane, the teams successfully automated a complex electron detection protocol using natural language prompts.
During the demonstration, the AI agent executed a Sommer-Tanner electron detection protocol, a critical procedure for verifying electron trapping and movement across different regions of a test chip. The agent successfully moved electrons between chip sectors, interpreted the resulting measurable signals on nearby electrodes, and produced real-time data plots to validate the experiment’s success. This marks a shift from manual, human-led calibration to an autonomous “machine intelligence” model, which the companies claim will significantly compress the development timeline for scalable quantum processors.
The setup utilized Ising Calibration, the vision language model (VLM) within the NVIDIA Ising family, to interpret hardware measurements and automate continuous tuning. Nick Farina, CEO of EeroQ, noted that combining AI with existing CMOS-compatible chip fabrication allows for rapid scaling with fewer physical resources. Dr. Brandon Severin, CEO of Conductor Quantum, stated that the project serves as an early signal for an era where AI independently drives scientific discovery at a speed and scale beyond human capability.
For the official technical announcement regarding the autonomous lab demonstration, consult the EeroQ newsroom here.
April 14, 2026
