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Revolutionizing Quantum Application Development

Quantum Circuits, Inc. has made significant strides in the realm of quantum computing by announcing its groundbreaking integration with NVIDIA, utilizing the CUDA-Q programming capabilities within its Aqumen software suite. This innovative blend of technologies empowers users to harness the power of both quantum computers and GPUs, paving the way for the creation and testing of hybrid applications that can drastically improve computational efficiency.

Breakthrough in Programming Integration

The integration of CUDA-Q into Quantum Circuits' platform signifies a major step forward for users who are eager to explore dual-rail qubit technology. This collaboration represents the first occasion in which CUDA-Q has been implemented with a dual-rail programming environment that incorporates advanced error detection mechanisms. By enabling simulations prior to real-world deployment, this enhancement creates an opportunity for users to prototype their ideas in an optimal programming environment.

As part of the initial rollout, users can utilize AquSim, Quantum Circuits' simulator, to prototype and test their CUDA-Q applications. This foundational tool is integral to preparing applications for eventual performance on Quantum Circuits' advanced quantum processing units (QPUs). In forthcoming versions, these applications will be able to operate on the Aqumen Seeker and newly designed QPU generations, which are set to harness industry-first dual-rail qubits. These qubits promise enhanced power and efficiency compared to traditional single-qubit systems, along with built-in error detection that facilitates scalability and accelerates the path toward commercial viability.

Advancing Towards Commercial Readiness

Ray Smets, CEO of Quantum Circuits, expressed optimism about the collaboration, stating, "Our work with NVIDIA accelerates the path to commercial-ready quantum computing. We aim to introduce enterprises and high-performance computing application developers to a novel way of integrating quantum computing with CUDA-Q, further enhanced by our unique dual-rail qubit technology that features advanced error detection. This enables us to push forward the capabilities of quantum applications in unprecedented ways."

Tim Costa, Senior Director of Quantum and CUDA-X at NVIDIA, echoed this sentiment, stating that hybrid quantum-classical systems are a key advancement in building useful quantum applications. This partnership is set to enable researchers and developers to exploit dual-rail superconducting qubits, marking a significant leap in capability.

Immediate Access to Quantum Programming

One of the most exciting aspects of this partnership is the accessibility that Aqumen offers to users interested in developing quantum applications. With core CUDA-Q programming features on hand, developers can quickly and effectively write and execute quantum applications, leveraging essential functions that support universal quantum computing capabilities. These features also facilitate real-time conditional statement execution, further simplifying the development process.

Quantum Circuits invites all interested developers to join its strategic quantum release program, aimed at accelerating the adoption of CUDA-Q applications in real-world scenarios.

About Quantum Circuits

Founded by a team of pioneering quantum physicists, including Yale professor Rob Schoelkopf, Quantum Circuits is at the forefront of quantum computer development. The company aims to create quantum systems that can scale efficiently, utilizing high-fidelity qubits equipped with intrinsic error detection and handling. This sophisticated architecture is crucial in minimizing the number of physical qubits needed, which in turn expedites the journey toward achieving quantum advantage.

With its innovative team and commitment to developing superconducting quantum science and circuit quantum electrodynamics, Quantum Circuits is poised to lead the charge in making quantum computing a viable and impactful reality across various sectors. To learn more, visit Quantum Circuits.