Quantum Brilliance Partners with Oak Ridge to Advance Parallel Computing

In a significant development, Quantum Brilliance, a global leader in diamond-based quantum technology, has announced a strategic collaboration with Oak Ridge National Laboratory to advance parallel quantum computing integration with high-performance computing. This partnership aims to enhance the synergy between quantum and classical computing by leveraging Quantum Brilliance’s deployable room-temperature diamond quantum accelerators and Oak Ridge National Laboratory’s state-of-the-art high-performance computing infrastructure.

The collaboration will focus on integrating an on-premises cluster of Quantum Brilliance’s quantum accelerators with Oak Ridge National Laboratory’s high-performance computing systems to explore the performance and effectiveness of parallelized and hybridized quantum computing. According to Dr. Travis Humble, Director of the Quantum Science Center at Oak Ridge National Laboratory, “Parallel quantum computing holds transformative potential for scientific discovery and industrial applications that require high-performance computing.” Mark Luo, CEO of Quantum Brilliance, emphasized that this collaboration represents a significant milestone in their mission to bring quantum computing to practical applications.

Advancing Quantum Computing through Strategic Collaboration

The recent announcement of a strategic collaboration between Quantum Brilliance (QB) and Oak Ridge National Laboratory (ORNL) marks a significant milestone in the development of quantum computing technology. This partnership aims to integrate QB’s diamond-based quantum accelerators with ORNL’s high-performance computing (HPC) infrastructure, enabling the exploration of parallelized and hybridized quantum computing.

The collaboration will focus on developing an on-premises cluster of QB’s quantum accelerators that can seamlessly integrate with ORNL’s HPC systems. This integration is expected to enhance the synergy between quantum and classical computing, leveraging the strengths of both paradigms to solve complex problems. By combining the capabilities of QB’s room-temperature diamond quantum accelerators with ORNL’s state-of-the-art HPC infrastructure, the partnership aims to push the boundaries of computational capabilities and advance scientific research.

Parallel Quantum Computing: A Transformative Technology

Parallel quantum computing, which involves multiple quantum processors working together to solve a problem, holds transformative potential for scientific discovery and industrial applications. By partnering with QB, ORNL is poised to explore effective integration with its existing HPC systems, paving the way for groundbreaking advancements that will inform the design of future HPC infrastructure. Dr. Travis Humble, Director of the Quantum Science Center at ORNL, emphasized the significance of this collaboration, stating that parallel quantum computing has the potential to revolutionize scientific discovery and industrial applications.

Co-Developing New Computational Methods

The QB-ORNL partnership will also focus on co-developing new computational methods that exploit parallel and hybrid computing. These methods will be designed to take advantage of the strengths of both quantum and classical computing, enabling the solution of complex problems that are currently unsolvable with classical computing alone. The team plans to develop new software tools that will enable users to implement these methods and develop their own, further expanding the capabilities of hybrid computing systems.

Room-Temperature Diamond Quantum Accelerators: A Scalable Solution

QB’s diamond-based quantum accelerators, which operate at room temperature, offer a scalable and energy-efficient solution for various applications. These accelerators are complemented by a range of software and application tools, making them an attractive option for integration into everyday devices and high-performance computing systems. Mark Luo, CEO of Quantum Brilliance, emphasized the significance of this collaboration, stating that it represents a critical milestone towards achieving massively parallelized quantum accelerators, which will be the preferred architecture in HPC centers.

Enabling Mass Deployment of Quantum Technology

QB’s mission is to enable the mass deployment of quantum technology, facilitating its integration into everyday devices and high-performance computing systems. This strategic collaboration with ORNL marks a significant step towards achieving this goal, as it brings together two leaders in their respective fields to advance the development of quantum computing technology. The partnership is expected to pave the way for further collaborations and innovations, ultimately driving the widespread adoption of quantum technology.

Funding and Support

The ACT Government has provided funding support for QB’s efforts, underscoring the importance of investing in cutting-edge technologies that have the potential to transform industries and revolutionize scientific discovery. This collaboration serves as a testament to the power of public-private partnerships in driving innovation and advancing scientific research.