Neural Network Decoders for Measurement-Induced Phase Transitions with Michael Gullans

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Entanglement Dynamics in Monitored Quantum Processors ▸ Michael Gullans (NIST/Maryland)

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Michael Gullans: A threshold result for monitored random quantum circuits

(34:35)

Michael Gullans: Entanglement Dynamics in Monitored Quantum Processors

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Quantum coding with low-depth random circuits. ▸ Michael Gullans #frontiers

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Mar 6, 2024: Michael Gullans [NIST/UMD]

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Talks - Non-Equilibrium Emergence in Quantum Design - Michael GULLANS, University of Maryland

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QIP2021 | Quantum coding with low-depth random circuits (Michael Gullans)

(30:43)

Michael Gullans: “Complexity, Compilation, and Verification of Logical Qubit Random Sampling”

(28:43)

QIP 2022 | Tight bounds on the convergence of noisy random circuits to uniform (Abhinav Deshpande)

(18:49)

Quantum coding with low-depth random circuits - Michael Gullan

(59:7)

Neural-network decoders for measurement induced phase transitions | RTCL.TV

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Toward a 2D Local Implementation of Quantum LDPC Codes | Berthusen, Devulapalli, Schoute, Childs

(27:42)

QIP2023 | Continuous-variable quantum state designs: theory and applications (Joseph Iosue)

(24:21)

Validated Quantum Advantage via Bell Sampling

(58:28)