A Polynomial-Time Classical Algorithm for Noisy Random Circuit Sampling

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United States Simons Institute for the Theory of Computing
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Published on ● Video Link: https://www.youtube.com/watch?v=zDnA1gu4QO0


Duration: 1:34:21
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42

Yunchao Liu (UC Berkeley)
https://simons.berkeley.edu/events/quantum-colloquium-polynomial-time-classical-algorithm-noisy-random-circuit-sampling
Quantum Colloquium

Quantum random circuit sampling (RCS) is a basic primitive at the heart of recent "quantum supremacy" experiments. These experiments can be modeled as sampling from a random quantum circuit where each gate is subject to a small amount of noise. In this talk we give an overview of RCS and discuss recent progress on understanding its computational complexity.

We give a polynomial time classical algorithm for sampling from the output distribution of a noisy random quantum circuit in the regime of anti-concentration to within inverse polynomial total variation distance. This gives strong evidence that, in the presence of a constant rate of noise per gate, random circuit sampling (RCS) cannot be the basis of a scalable experimental violation of the extended Church-Turing thesis. Our algorithm is not practical in its current form, and does not address finite-size RCS based quantum supremacy experiments.

Based on joint work with Dorit Aharonov, Xun Gao, Zeph Landau and Umesh Vazirani, arxiv: 2211.03999

Panel featuring Adam Bouland (Stanford), Scott Aaronson (UT Austin), and Sergio Boixo (Google); Umesh Vazirani (UC Berkeley; moderator).



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Tags:
Simons Institute
theoretical computer science
UC Berkeley
Computer Science
Theory of Computation
Theory of Computing
Quantum Colloquium
Yunchao Liu
Adam Bouland
Scott Aaronson
Sergio Boixo
Umesh Vazirani