The quantum computing industry is evolving rapidly, and the complexity of development is expected to increase even further. In particular, achieving FTQC (Fault-Tolerant Quantum Computing) requires breakthroughs in both hardware and software. To stay ahead of these advancements, we are strengthening the development of next-generation quantum computing machines and their corresponding middleware—key elements in driving the industry forward.
We are focusing on enhancing noise resistance at the hardware level, optimizing middleware for system stability, and advancing the sophistication and integration of hardware components to fully leverage current technologies. Achieving this requires improvements in qubit stability, efficient error correction algorithms, and seamless integration of hardware and software. Instead of merely developing isolated components, our goal is to optimize the entire system holistically for next-generation quantum computing.
To accelerate this progress, we are further breaking down the required technology stack into specialized domains and assigning clear responsibilities within our development team. Our focus is on building quantum computing hardware utilizing semiconductors for FTQC software, which differs significantly from traditional quantum computers in terms of error mitigation strategies, system design, and overall middleware architecture. We are taking a fresh approach, moving beyond conventional methods to establish an optimized system from the ground up. This includes integrating cutting-edge semiconductor technology with quantum computing at an advanced level.
Additionally, we are committed to fostering the next generation of experts in this evolving field. Our goal is to train engineers who possess a deep understanding of both quantum and semiconductor technologies, enabling them to design and develop integrated systems effectively.
To achieve these ambitious goals, strong teamwork is essential. Our top priority is development, and to maximize efficiency, we are establishing a globally connected team rather than limiting our efforts to Japan. We will prioritize individuals who can communicate in English, ensuring smooth collaboration with top-tier experts worldwide. While we would be delighted to see this technology emerge from Japan, our ultimate focus is on realizing the fastest and most innovative solutions to bring next-generation quantum computing to society.
Moving forward, we will continue to drive the future of quantum computing with a global perspective and a unified development effort.