q-2018-08-06-79.pdf

Quantum optimizers 6.2 How quantum testbeds might help 6.3 Quantum annealing 6.4 Noise-resilient quantum circuits 6.5 Quantum deep learning 6.6 Quantum matrix inversion 6.7 Quantum recommendation systems 6.8 Quantum semidefinite…

q-2019-07-12-164.pdf

…overheads needed for fault-tolerant verifiable quantum supremacy must be less demanding than that for universal quantum computation. Fault-tolerant quantum supremacy is thus a compelling milestone on the way to a…

q-2020-05-11-264.pdf

…v 3 [q u an t- p h ] 3 A p r 2 2 https://quantum-journal.org/?s=How%20many%20qubits%20are%20needed%20for%20quantum%20computational%20supremacy?&reason=title-click https://quantum-journal.org/?s=How%20many%20qubits%20are%20needed%20for%20quantum%20computational%20supremacy?&reason=title-click https://orcid.org/0000-0002-3756-8500 https://orcid.org/0000-0003-3220-7682 https://orcid.org/0000-0002-8968-591X https://orcid.org/0000-0001-7867-226X mailto:adalzell@caltech.edu mailto:aram@mit.edu mailto:dax.koh@zapatacomputing.com mailto:rlaplaca@mit.edu our analysis) — but the…

q-2020-05-14-267.pdf

…v 4 [q u an t- p h ] 1 1 M ay 2 2 https://quantum-journal.org/?s=Classical%20simulation%20of%20linear%20optics%20subject%20to%20nonuniform%20losses&reason=title-click https://quantum-journal.org/?s=Classical%20simulation%20of%20linear%20optics%20subject%20to%20nonuniform%20losses&reason=title-click mailto:danieljostbrod@id.uff.br mailto:michal.oszmaniec@gmail.com also benefits from the technology and expertise developed by the quantum