Pushing the boundaries of Quantum Computing скачать в хорошем качестве

Pushing the boundaries of Quantum Computing

In this episode, Dr. Pedram Roushan (Staff Research Scientist, Google Quantum AI) joins Michaela (PhD Physicist, Quantum Machines) to discuss how cutting-edge quantum hardware is already tackling meaningful physics problems- without relying on fault tolerance. Dr. Roushan explains how today’s high-quality qubits, with error rates around 10⁻³ to 10⁻⁴, are being used to simulate complex phenomena in non-equilibrium dynamics, solid-state physics, and lattice gauge models. Instead of waiting for fully fault-tolerant systems, his team is exploring what’s possible right now. He also highlights how Quantum Machines’ low-latency control stack enables new algorithmic approaches- such as creating artificial connectivity between distant qubits and using measurement-based conditional logic to simulate long-range interactions. 🔑 Key topics covered: Physics problems that can already be addressed without error correction The impact of coherence, qubit quality, and algorithm design Artificial connectivity & real-time feedback with Quantum Machines’ control systems How the field is moving from academic curiosity to practical implementation The near future: 50+ high-fidelity qubits and quantum advantage in targeted simulations This conversation offers valuable insights for researchers, engineers, and industry professionals who want to understand how classical-quantum hybrid architectures are reshaping simulation and paving the way for scalable quantum computing. 👉 Watch now to explore the frontier of quantum simulation—today, not just in the fault-tolerant future. #Quantumcomputing #SuperconductingQubits #QuantumMachines #ErrorCorrection #QuantumControl #ManyBodyPhysics #QuantumSimulation #APS2025 #GoogleQuantum #Qubits