The operational use places the Company’s technology inside a U.S. federal quantum and advanced-microelectronics development environment, providing the lab with direct access to the unique capabilities enabled by the Company’s AME platform.

The lab is one of the most prominent U.S. government research environments focused on national security, applying advanced science and engineering to help identify, deter, defeat and mitigate threats to the United States and its allies. Within this environment, the lab conducts quantum computing programs focused on moving quantum technologies from experimental research toward practical, measurable and engineered systems. This includes fabrication and characterization, integrated control technologies, mathematical modeling and experimental testing on real-world quantum systems.

As quantum systems advance toward larger and more complex architectures, they require new approaches for manufacturing high-density interconnects, advanced packaging structures, integrated materials, RF/microwave pathways and application-specific electronic components. The operational use of QTREX’s AME system inside this environment positions the Company’s technology directly within the infrastructure layer required to support quantum hardware development.

"The current U.S. administration has made it unequivocally clear that quantum computing and advanced microelectronics are critical, heavily funded national security priorities," said Dagi Ben-Noon, CEO of QTREX. "Having our AME system actively operating inside a federal lab directly aligns QTREX with these massive strategic initiatives and positions us at the heart of the infrastructure required to secure U.S. quantum leadership."

QTREX views this operational deployment as a strategic platform for deeper technical engagement, defined use cases and broader commercial expansion. Amid an accelerating wave of federal investment in sovereign quantum infrastructure, direct exposure to AME capabilities within this national security lab environment paves the way for future application-specific development tailored to sensitive, mission-critical and classified defense applications.