AQT's Quantum Leap: Unlocking Europe's Highest Quantum Volume
In a groundbreaking achievement, AQT has pushed the boundaries of quantum computing, achieving a Quantum Volume of 32768 on its LYNX system. This milestone not only solidifies AQT's position as a leader in the European quantum computing landscape but also highlights the potential of trapped-ion technology. The LYNX system, an evolution of AQT's IBEX architecture, showcases enhanced gate implementation and all-to-all qubit connectivity, setting a new standard for commercially available hardware.
The Quantum Volume (QV) test, an internationally recognized benchmark, measures the computational power of a quantum computer. AQT's LYNX system, with its impressive QV, demonstrates a significant leap in qubit quality, connectivity, and circuit execution performance. This achievement is a testament to the company's commitment to pushing the boundaries of what's possible in quantum computing.
What makes this accomplishment particularly remarkable is the focus on commercially available hardware. AQT's LYNX system, supported by the European Commission's Quantum Technology Flagship and the European Innovation Council, along with Austrian FFG and AWS, is now accessible to customers and partners. This accessibility is crucial for driving development, research, and the realization of large quantum computing systems, ultimately paving the way for quantum advantage.
AQT's LYNX architecture offers a unique advantage with its virtually infinite range of qubit interaction and all-to-all connectivity. This feature eliminates the need for time-consuming reconfiguration or SWAP operations, resulting in unprecedented execution times for complex quantum circuits. The company's alignment with the European Quantum Technology roadmap further emphasizes its dedication to innovation and the advancement of European deep-tech ecosystems.
The Quantum Volume Test, a rigorous assessment, involves executing random quantum circuits on an increasing number of qubits until the result closely aligns with the expected outcome. AQT's LYNX system, with its 15-qubit register, achieved a mean Heavy Output Probability (HOP) of 0.678, surpassing the required threshold of 0.678 with a 99.5% confidence level. This success is reflected in the measured HOP, which exceeds the threshold by more than two standard deviations, resulting in a Quantum Volume of 32768.
This achievement not only positions AQT as the company with the second-highest QV benchmarking result worldwide but also underscores the potential of trapped-ion technology. The LYNX system's ability to execute complex circuits efficiently and its all-to-all qubit connectivity make it a powerful tool for quantum computing research and development. As AQT continues to innovate, the quantum computing community eagerly anticipates the future advancements that will shape the field.
In conclusion, AQT's achievement of a Quantum Volume of 32768 on its LYNX system is a significant milestone in the European quantum computing journey. This success not only showcases the company's technical prowess but also highlights the importance of accessibility and collaboration in driving the development of large quantum computing systems. As the field continues to evolve, AQT's contributions will undoubtedly play a pivotal role in shaping the future of quantum technology.
