2/n measurements and feed-forward operations—can overcome these constraints. This direction opens new doors for efficiently creating long-range entanglement, a key resource for quantum computing.
🔍 What did we achieve?
- Developed a method to perform CNOT teleportation across up to 101 qubits
🔍 What did we achieve?
- Developed a method to perform CNOT teleportation across up to 101 qubits
Comments
- Prepared GHZ states with genuine long-range entanglement.
- Demonstrated significant reductions in circuit depth, making computations more resilient to noise.
💡 Why it’s exciting:
Dynamic circuits aren't just a new tool; they’re an accelerant for scaling quantum
Elisa Bäumer, Vinay Tripathi, Derek S. Wang, Patrick Rall, Edward H. Chen, Swarnadeep Majumder, Alireza Seif, and Zlatko Minev.
📖 Read more in the IBM blog: https://buff.ly/3EaLN05
📄 PRX Quantum paper (Open Access): https://buff.ly/3CjwEJh