High Accuracy Simulations with Utility-Scale Quantum Computing

In Lecture 7 of Building the Modern Quantum Architecture, Dr. Matthias Troyer explains how we can accurately simulate quantum systems. Learn how utility-scale quantum computing can produce simulations with the high accuracy required to enable scientific breakthroughs.

More from the series

Browse all videos

Part 4: High-performance quantum computing

Discover how quantum computing will draw on hard-won HPC insights to achieve speed, scalability, and performance for the next era of computing.

Watch now

Large industrial cryostat centered in a server room, surrounded by rows of server racks

Part 5: Scalable quantum architecture

How do we translate quantum instructions all the way down to the control signals for physical qubits—and what tradeoffs must we make as we push toward utility scale?

Watch now

Quantum circuit diagram with labeled qubits (D0, A0, D1) and gates including Z and X connected by lines

Part 6: Balancing the cost of utility-scale quantum computing

Learn how the cost of quantum computation affects quantum architecture and determines which problems we can solve.

Watch now

3D lattice structure with red and teal nodes connected by thin lines, forming a transparent cube-like grid

High Accuracy Simulations with Utility-Scale Quantum Computing

More from the series

Part 4: High-performance quantum computing

Part 5: Scalable quantum architecture

Part 6: Balancing the cost of utility-scale quantum computing

Help shape tomorrow's quantum future