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Explore how full stack co-design of fault-tolerant quantum computers can achieve utility-scale applications in this 41-minute conference talk from IPAM's workshop on bridging NISQ and FTQC systems. Learn about revolutionary approaches to quantum computing that promise advances in modeling materials and molecules, with a specific focus on CO utilization for green energy production. Discover how state-of-the-art innovations across all key aspects of the fault-tolerant quantum computing stack can dramatically reduce computation runtime from 22 years to just 1 day, representing a significant 7.9e03 reduction from previous work. Examine the rigorous analysis of how different innovations combine across the quantum computing stack to provide such substantial reductions, making quantum computations practically feasible and challenging classical methods. Understand the methodology that connects quantum algorithms to real-world applications with positive impact, providing compelling evidence of achievable quantum advantage that can be applied to related FTQC problems across any quantum architecture.
