At NVIDIA GTC 2026, the premier global event for AI and computing technology held in the United States from March 16 to 19, 2026, Min-Hsiu Hsieh, Director of the Quantum Computing Research Center at the Hon Hai Research Institute, was invited to deliver a featured speech. During the session, he unveiled new practical pathways for quantum computing to an audience of global technical experts.

The theme of Director Hsieh’s presentation was:

"Accelerate Hybrid Quantum-Classical Research at Scale With NVIDIA CUDA-Q"

📍 Focusing on the Quantum Computing Research Center: A Bridge to Future Computing Power

Hsieh began his presentation by introducing the technical positioning and mission of the Quantum Computing Research Center. as a specialized unit under the Hon Hai Research Institute dedicated to forward-looking technology, the center focuses on exploring cutting-edge fields such as quantum algorithms, Quantum Error Correction (QEC), and quantum simulation.

Director Hsieh emphasized that the core of the institute's research is "practice." Beyond seeking theoretical breakthroughs, the team is focused on building an ecosystem that integrates seamlessly with existing classical computing architectures, allowing quantum technology to transition into real-world industrial applications.

💡 Core Technology Insights: Large-Scale Hybrid Computing Driven by CUDA-Q

Hsieh’s presentation became a focal point of the four-day GTC event. He provided an in-depth analysis of the Quantum Computing Research Center's key progress in driving "at-scale" research:

• Hybrid Quantum-Classical Architecture: Director Hsieh noted that, at this stage, quantum computing must collaborate with powerful GPUs. Utilizing the NVIDIA CUDA-Q platform, the institute can more efficiently integrate classical computing resources with quantum circuit simulations, breaking through current computational bottlenecks.

• Realizing Research "At Scale": The speech explored how to utilize Quantum Error Correction codes to maintain computational accuracy and efficiency when handling large-scale problems. This is critical for fields requiring massive computation, such as material science R&D and financial modeling.

• Strategic Patent Layout for Quantum Simulation: Amid the rapid development of smart manufacturing and advanced computing, the Hon Hai Research Institute is actively filing patents related to quantum simulation. These cover quantum algorithm design, physical system simulation methods, and optimization techniques for practical applications. This demonstrates the research team's long-term commitment to frontier quantum technology and lays a vital foundation for future industrialization and technical implementation.

🌍 Demonstrating International Technical Influence

Hsieh’s appearance at GTC 2026 not only represents the recognition of the Hon Hai Research Institute’s R&D capabilities by global technology giants but also showcases the institute's deep strategic layout in the quantum field. Through close collaboration with partners like NVIDIA, the Quantum Computing Research Center is leading a "computing revolution" and defining the infinite possibilities of future computation.