Quantum Brilliance, a global leader in diamond-based quantum technology, has raised twenty million dollars in its Series A funding round from investors including Main Sequence, In-Q-Tel, and Intervalley Ventures. The company’s mission to deliver quantum devices for applications across sectors has garnered support from experienced deep tech and semiconductor investors worldwide. According to Nat Puffer, Managing Director at In-Q-Tel, diamond quantum technology holds immense promise for developing compact and ruggedized quantum sensors and accelerators.
Quantum Brilliance CEO Mark Luo stated that this funding represents a step forward in advancing the design and manufacturability of diamond quantum devices. The company has already formed strategic partnerships with Oak Ridge National Laboratory and been awarded a contract from Germany’s cybersecurity agency to deliver the world’s first mobile quantum computer, with Bill Bartee, Managing Partner at Main Sequence, expressing excitement to support Quantum Brilliance’s mission to deliver quantum devices at scale.
Introduction to Quantum Brilliance and Diamond Quantum Technology
Quantum Brilliance (QB), a company founded in Australia in 2019, has been at the forefront of developing diamond-based quantum technology. The company’s mission is to enable the mass deployment of quantum technology, facilitating its integration into everyday devices and high-performance computing systems. Recently, QB announced that it raised USD $20 million in its Series A funding round, which includes investments from experienced deep tech and semiconductor investors around the world. This investment will enable QB to create a quantum diamond foundry, co-develop prototypes in emerging quantum sensing opportunities, advance QB’s proprietary IP in collaboration with leading semiconductor partners, and fulfill commitments with customers.
The use of diamond quantum technology holds immense promise for developing compact and ruggedized quantum sensors and accelerators. Diamond quantum devices have a wide range of potential uses across quantum computing, sensing, and networking. Their compact size, light weight, room-temperature functionality, and suitability for mass deployment give quantum diamonds distinct advantages over other quantum technologies in certain use cases. These features make them particularly well-suited for large-scale deployment, reliable performance in everyday environments or harsh conditions, and seamless integration into existing infrastructure.
QB’s diamond quantum devices operate at room temperature, which is a significant advantage over other quantum technologies that require cryogenic cooling. This feature enables the development of compact and ruggedized quantum sensors and accelerators that can be used in a variety of applications. The company’s proprietary IP and strategic partnerships position it to deliver groundbreaking quantum products in the near future. QB has attracted world-leading scientific and commercial talent in Australia and Europe, and its international partnerships extend into North America, Europe, and the Asia Pacific.
The investment in QB is a testament to the potential of diamond quantum technology to address strategic challenges across industries and critical national priorities. The company’s mission to deliver quantum devices for applications across sectors has garnered significant attention from investors and partners worldwide. With the funding, QB will be able to accelerate its mission and create a quantum diamond foundry that will enable the mass production of diamond quantum devices.
Quantum Diamond Technology and Its Applications
Quantum diamond technology has a wide range of potential uses across quantum computing, sensing, and networking. The compact size, light weight, room-temperature functionality, and suitability for mass deployment of diamond quantum devices make them particularly well-suited for large-scale deployment, reliable performance in everyday environments or harsh conditions, and seamless integration into existing infrastructure. QB’s diamond quantum devices have the potential to be used in various applications, including quantum computing, sensing, and networking.
One of the key advantages of diamond quantum technology is its ability to operate at room temperature. This feature enables the development of compact and ruggedized quantum sensors and accelerators that can be used in a variety of applications. QB’s diamond quantum devices are also suitable for mass deployment, which makes them an attractive option for industries that require large-scale deployment of quantum technology. The company’s proprietary IP and strategic partnerships position it to deliver groundbreaking quantum products in the near future.
QB has already announced several strategic partnerships that demonstrate the potential of its diamond quantum technology. For example, the company recently announced a strategic partnership with Oak Ridge National Laboratory in the United States. In this partnership, QB’s room-temperature diamond accelerators will be installed alongside ORNL’s high-performance computing (HPC) systems. Room-temperature quantum accelerators will integrate seamlessly into AI factories and distributed compute platforms with much lower energy consumption, widening their potential uses.
In addition to its partnership with Oak Ridge National Laboratory, QB was awarded a multi-million dollar contract from Germany’s cybersecurity agency to deliver the world’s first mobile quantum computer. The benefits of a mobile quantum computer include being able to perform highly complex calculations deployed directly in the field instead of in data centers or via cloud access, allowing for secure and reliable computing power in remote environments.
Investment and Partnerships
The investment in QB is a testament to the potential of diamond quantum technology to address strategic challenges across industries and critical national priorities. The company’s mission to deliver quantum devices for applications across sectors has garnered significant attention from investors and partners worldwide. With the funding, QB will be able to accelerate its mission and create a quantum diamond foundry that will enable the mass production of diamond quantum devices.
The investment in QB includes contributions from experienced deep tech and semiconductor investors around the world. The company’s international partnerships extend into North America, Europe, and the Asia Pacific, and include governments, supercomputing centers, research organizations, and industry partners. QB has attracted world-leading scientific and commercial talent in Australia and Europe, which positions it to deliver groundbreaking quantum products in the near future.
The partnership between QB and Oak Ridge National Laboratory is a significant example of the company’s ability to collaborate with leading research institutions. The installation of QB’s room-temperature diamond accelerators alongside ORNL’s HPC systems will enable the development of new applications that leverage the power of quantum computing. Similarly, the contract with Germany’s cybersecurity agency demonstrates the potential of QB’s diamond quantum technology to address critical national priorities.
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