Long-range entangling gates in constant depth using dynamic circuits
DIPC Seminars
- Speaker
-
Elisa Bäumer
IBM - When
-
2024/11/20
12:00 - Place
- CFM Auditorium
- Host
- Javier Aizpurua
- Add to calendar
- iCal
Depth of quantum circuits is a critical factor when using state-of-the-art quantum devices due to their limited coherence times. Reducing circuit depth decreases noise in near-term quantum computations and reduces overall computation time, thus, also benefiting fault-tolerant quantum computations. Here, we show how to reduce the depth of quantum sub-routines that typically scale linearly with the number of qubits, such as quantum fan-out and long-range CNOT gates, to a constant depth using mid-circuit measurements and feed-forward operations, while only requiring a 1D line topology. We compare our protocols with existing ones to highlight their advantages. Additionally, we verify the feasibility by implementing the measurement-based quantum fan-out gate and long-range CNOT gate on real quantum hardware, demonstrating significant improvements over their unitary implementations.
Zoom link: https://dipc-org.zoom.us/j/99293752266