Quantum Brilliance CEO Mark Luo on Deployable Quantum Systems and Diamond-Based Computing

Quantum computing has long been hailed as a revolutionary technology, yet most existing systems are large, intricate machines that require extreme conditions to operate. Quantum Brilliance, however, is charting a different course by developing compact quantum processors made from synthetic diamond that can function at room temperature and seamlessly integrate with current computing infrastructure. In a recent interview with CEO Mark Luo, eeNews Europe delves into the strategic decisions driving this innovative approach, the company’s journey from groundbreaking research to global acclaim, and the potential for deployable quantum systems to transition the technology from the realm of laboratories to practical computing environments.

Quantum Brilliance’s inclusion on Time’s prestigious list of The Best Inventions of 2025 alongside industry giants like NVIDIA and Microsoft underscores the company’s rapid rise to prominence. When asked about the pivotal choices that propelled the company from a mere idea to a recognized global innovator, Luo emphasizes the core concept of making quantum technology accessible anywhere. By leveraging diamond as a versatile medium, Quantum Brilliance aims to create compact, high-volume products that can seamlessly integrate into everyday technology, akin to how silicon microchips revolutionized the 20th century.

Unlike traditional quantum systems that rely on cryogenic temperatures, Quantum Brilliance remains steadfast in its commitment to room-temperature and room-pressure operation. This unwavering focus influences every aspect of the company’s strategy, from chip design and market positioning to partnerships and product development. By investing significantly in Europe, the birthplace of quantum diamond technology, and securing early funding support from the EU government, Quantum Brilliance swiftly established an international presence.

Quantum Brilliance’s decision to pursue compact, room-temperature quantum systems over large centralized machines was driven by the transformative potential of mobility in quantum technology. By enabling deployment in diverse settings such as data centers, offices, vehicles, and even space exploration, the company aims to expand the market reach of quantum computing. This strategic approach not only broadens the scope of applications but also enhances accessibility to a wider range of users.

As Quantum Brilliance continues to push the boundaries of quantum computing, the company envisions a pragmatic adoption curve that prioritizes incremental optimization of high-value workflows. By initially focusing on areas like quantum sensing and computational chemistry within hybrid high-performance computing workflows, Quantum Brilliance aims to gradually integrate quantum technology as a complementary tool in existing computational frameworks. This evolutionary approach aligns with the current state of quantum technology and sets the stage for broader adoption in the near future.