Add to ORKGWe 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.Comment: 27 pages, 2 figure
The generation of certifiable randomness is the most fundamental information-theoretic task that mea...
Random quantum sampling, a task to sample bit-strings from a random quantum circuit, is considered o...
In the near future, there will likely be special-purpose quantum computers with 40-50 high-quality q...
A critical goal for the field of quantum computation is quantum supremacy - a demonstration of any q...
Random circuit simulation, the task of replicating the output of a randomly chosen noiseless quantum...
We study the properties of output distributions of noisy, random circuits. We obtain upper and lower...
We introduce a classical algorithm for sampling the output of shallow, noisy random circuits on two-...
Random quantum circuits and random circuit sampling (RCS) have recently garnered tremendous attentio...
Random circuit sampling, the task to sample bit strings from a random unitary operator, has been per...
The class of commuting quantum circuits known as IQP (instantaneous quantum polynomial-time) has bee...
The generation of certifiable randomness is the most fundamental information-theoretic task that mea...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We study the properties of output distributions of noisy random circuits. We obtain upper and lower ...
We present a formalism that captures the process of proving quantum superiority to skeptics as an in...
Random quantum circuits are commonly viewed as hard to simulate classically. In some regimes this ha...
The generation of certifiable randomness is the most fundamental information-theoretic task that mea...
Random quantum sampling, a task to sample bit-strings from a random quantum circuit, is considered o...
In the near future, there will likely be special-purpose quantum computers with 40-50 high-quality q...
A critical goal for the field of quantum computation is quantum supremacy - a demonstration of any q...
Random circuit simulation, the task of replicating the output of a randomly chosen noiseless quantum...
We study the properties of output distributions of noisy, random circuits. We obtain upper and lower...
We introduce a classical algorithm for sampling the output of shallow, noisy random circuits on two-...
Random quantum circuits and random circuit sampling (RCS) have recently garnered tremendous attentio...
Random circuit sampling, the task to sample bit strings from a random unitary operator, has been per...
The class of commuting quantum circuits known as IQP (instantaneous quantum polynomial-time) has bee...
The generation of certifiable randomness is the most fundamental information-theoretic task that mea...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We study the properties of output distributions of noisy random circuits. We obtain upper and lower ...
We present a formalism that captures the process of proving quantum superiority to skeptics as an in...
Random quantum circuits are commonly viewed as hard to simulate classically. In some regimes this ha...
The generation of certifiable randomness is the most fundamental information-theoretic task that mea...
Random quantum sampling, a task to sample bit-strings from a random quantum circuit, is considered o...
In the near future, there will likely be special-purpose quantum computers with 40-50 high-quality q...