Salvatore MandrÓ
Salvatore MandrÓ
Quantum Artificial Intelligence Lab (QuAIL) @ NASA Ames Research Center - KBR
Email verificata su - Home page
Citata da
Citata da
Quantum supremacy using a programmable superconducting processor
F Arute, K Arya, R Babbush, D Bacon, JC Bardin, R Barends, R Biswas, ...
Nature 574 (7779), 505-510, 2019
Quantum Optimization of Fully-Connected Spin Glasses
D Venturelli, S MandrÓ, S Knysh, B O'Gorman, R Biswas, V Smelyanskiy
Physical Review X 3 (5), 031040, 2015
Establishing the quantum supremacy frontier with a 281 pflop/s simulation
B Villalonga, D Lyakh, S Boixo, H Neven, TS Humble, R Biswas, ...
Quantum Science and Technology 5 (3), 034003, 2020
Information scrambling in quantum circuits
X Mi, P Roushan, C Quintana, S MandrÓ, J Marshall, C Neill, F Arute, ...
Science 374 (6574), 1479-1483, 2021
A flexible high-performance simulator for verifying and benchmarking quantum circuits implemented on real hardware
B Villalonga, S Boixo, B Nelson, C Henze, E Rieffel, R Biswas, S MandrÓ
NPJ Quantum Information 86 (5), 2019
Strengths and weaknesses of weak-strong cluster problems: A detailed overview of state-of-the-art classical heuristics versus quantum approaches
S MandrÓ, Z Zhu, W Wang, A Perdomo-Ortiz, HG Katzgraber
Physical Review A 94 (2), 022337, 2016
Quantum Annealing Applied to De-Conflicting Optimal Trajectories for Air Traffic Management
T Stollenwerk, B O'Gorman, D Venturelli, S MandrÓ, O Rodionova, HK Ng, ...
IEEE Transactions on Intelligent Transportation Systems, 2019
A NASA perspective on quantum computing: Opportunities and challenges
R Biswas, Z Jiang, K Kechezhi, S Knysh, S MandrÓ, B O’Gorman, ...
Parallel Computing 64, 81-98, 2017
Exponentially-Biased Ground-State Sampling of Quantum Annealing Machines with Transverse-Field Driving Hamiltonians
S MandrÓ, Z Zhu, HG Katzgraber
Physical Review Letters 118 (070502), 2017
A deceptive step towards quantum speedup detection
S Mandra, HG Katzgraber
Quantum Science and Technology 3 (4), 04LT01, 2018
Numerical Simulation of Large Scrambling Quantum Circuits
S Mandra, J Marshall, K Kechedzhi
Bulletin of the American Physical Society, 2021
The pitfalls of planar spin-glass benchmarks: Raising the bar for quantum annealers (again)
S MandrÓ, HG Katzgraber, C Thomas
Quantum Science and Technology 2 (3), 2017
Helium isotope enrichment by resonant tunneling through nanoporous graphene bilayers
S Mandra, J Schrier, M Ceotto
The Journal of Physical Chemistry A 118 (33), 6457-6465, 2014
Gas separation through bilayer silica, the thinnest possible silica membrane
B Yao, S Mandrà, JO Curry, S Shaikhutdinov, HJ Freund, J Schrier
ACS applied materials & interfaces 9 (49), 43061-43071, 2017
Coevolution of Glauber-like Ising dynamics and topology
S MandrÓ, S Fortunato, C Castellano
Physical Review E 80 (5), 056105, 2009
Faster than Classical Quantum Algorithm for dense Formulas of Exact Satisfiability and Occupation Problems
S MandrÓ, GG Guerreschi, A Aspuru-Guzik
New Journal of Physics 18 (7), 073003, 2016
Adiabatic quantum optimization in the presence of discrete noise: Reducing the problem dimensionality
S MandrÓ, GG Guerreschi, A Aspuru-Guzik
Physical Review A 92 (6), 062320, 2015
From Ansatze to Z-gates: a NASA View of Quantum Computing
EG Rieffel, S Hadfield, T Hogg, S MandrÓ, J Marshall, G Mossi, ...
arXiv preprint arXiv:1905.02860, 2019
Evidence for soft bounds in Ubuntu package sizes and mammalian body masses
M Gherardi, S MandrÓ, B Bassetti, M Cosentino Lagomarsino
Proceedings of the National Academy of Sciences 110 (52), 21054-21058, 2013
Patch planting spin-glass solution for benchmarking
W Wang, S MandrÓ, HG Katzgraber
Physical Review E 96 (023312), 2017
Il sistema al momento non pu˛ eseguire l'operazione. Riprova pi¨ tardi.
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