With experimental quantum computing technologies now in their infancy, the search for efficient means of testing the correctness of these quantum computations is becoming more pressing. An approach to the verification of quantum computation within the framework of interactive proofs has been fruitful for addressing this problem. Specifically, an untrusted agent (prover) alleging to perform quantum computations can have his claims verified by another agent (verifier) who only has access to classical computation and a small quantum device for preparing or measuring single qubits. However, when this quantum device is prone to errors, verification becomes challenging and often existing protocols address this by adding extra assumptions, such as...
The goal of this paper is to review the theoretical basis for achieving a faithful quantum informati...
International audienceBlind quantum computing (BQC) allows a client to have a server carry out a qua...
A quantum computer -- i.e., a computer capable of manipulating data in quantum superposition -- woul...
With experimental quantum computing technologies now in their infancy, the search for efficient mean...
We present the first protocol allowing a classical computer to interactively verify the result of an...
Quantum computers promise to offer a considerable speed-up in solving certain problems, compared to...
We present two verification protocols where the correctness of a “target” computation is checked by ...
The promise of scalable quantum technology appears more realistic, after recent advances in both th...
With the recent availability of cloud quantum computing services, the question of verifying quantum ...
The widely held belief that BQP strictly contains BPP raises fundamental questions: if we cannot eff...
Quantum samplers are believed capable of sampling efficiently from distributions that are classicall...
A proof of quantumness is a method for provably demonstrating (to a classical verifier) that a quant...
As progress on experimental quantum processors continues to advance, the problem of verifying the co...
We give a new interactive protocol for the verification of quantum computations in the regime of hig...
Correcting errors due to noise in quantum circuits run on current and near-term quantum hardware is ...
The goal of this paper is to review the theoretical basis for achieving a faithful quantum informati...
International audienceBlind quantum computing (BQC) allows a client to have a server carry out a qua...
A quantum computer -- i.e., a computer capable of manipulating data in quantum superposition -- woul...
With experimental quantum computing technologies now in their infancy, the search for efficient mean...
We present the first protocol allowing a classical computer to interactively verify the result of an...
Quantum computers promise to offer a considerable speed-up in solving certain problems, compared to...
We present two verification protocols where the correctness of a “target” computation is checked by ...
The promise of scalable quantum technology appears more realistic, after recent advances in both th...
With the recent availability of cloud quantum computing services, the question of verifying quantum ...
The widely held belief that BQP strictly contains BPP raises fundamental questions: if we cannot eff...
Quantum samplers are believed capable of sampling efficiently from distributions that are classicall...
A proof of quantumness is a method for provably demonstrating (to a classical verifier) that a quant...
As progress on experimental quantum processors continues to advance, the problem of verifying the co...
We give a new interactive protocol for the verification of quantum computations in the regime of hig...
Correcting errors due to noise in quantum circuits run on current and near-term quantum hardware is ...
The goal of this paper is to review the theoretical basis for achieving a faithful quantum informati...
International audienceBlind quantum computing (BQC) allows a client to have a server carry out a qua...
A quantum computer -- i.e., a computer capable of manipulating data in quantum superposition -- woul...