Követés
Dax Enshan Koh
Dax Enshan Koh
Institute of High Performance Computing
E-mail megerősítve itt: mit.edu
Cím
Hivatkozott rá
Hivatkozott rá
Év
How many qubits are needed for quantum computational supremacy?
AM Dalzell, AW Harrow, DE Koh, RL La Placa
Quantum 4, 264, 2020
1342020
Classical shadows with noise
DE Koh, S Grewal
Quantum 6, 776, 2022
1102022
Minimizing estimation runtime on noisy quantum computers
G Wang, DE Koh, PD Johnson, Y Cao
PRX Quantum 2 (1), 010346, 2021
922021
Effects of reduced measurement independence on Bell-based randomness expansion
DE Koh, MJW Hall, Setiawan, JE Pope, C Marletto, A Kay, V Scarani, ...
Physical review letters 109 (16), 160404, 2012
692012
Statistical complexity of quantum circuits
K Bu, DE Koh, L Li, Q Luo, Y Zhang
Physical Review A 105 (6), 062431, 2022
512022
Efficient classical simulation of Clifford circuits with nonstabilizer input states
K Bu, DE Koh
Physical review letters 123 (17), 170502, 2019
502019
Complexity classification of conjugated Clifford circuits
A Bouland, JF Fitzsimons, DE Koh
arXiv preprint arXiv:1709.01805, 2017
482017
Further extensions of Clifford circuits and their classical simulation complexities
DE Koh
arXiv preprint arXiv:1512.07892, 2015
462015
Classical shadows with Pauli-invariant unitary ensembles
K Bu, DE Koh, RJ Garcia, A Jaffe
npj Quantum Information 10 (1), 6, 2024
382024
Variational quantum evolution equation solver
FY Leong, WB Ewe, DE Koh
Scientific Reports 12 (1), 10817, 2022
292022
Complexity of quantum circuits via sensitivity, magic, and coherence
K Bu, RJ Garcia, A Jaffe, DE Koh, L Li
Communications in Mathematical Physics 405 (7), 161, 2024
242024
Pseudorandom unitaries are neither real nor sparse nor noise-robust
T Haug, K Bharti, DE Koh
arXiv preprint arXiv:2306.11677, 2023
242023
Effects of quantum resources and noise on the statistical complexity of quantum circuits
K Bu, DE Koh, L Li, Q Luo, Y Zhang
Quantum Science and Technology 8 (2), 025013, 2023
212023
Bayesian inference with engineered likelihood functions for robust amplitude estimation
G Wang, DE Koh, PD Johnson, Y Cao
arXiv preprint arXiv:2006.09350, 1-62, 2020
212020
Variational Quantum-Based Simulation of Waveguide Modes
WB Ewe, DE Koh, ST Goh, HS Chu, CE Png
IEEE Transactions on Microwave Theory and Techniques 70 (5), 2517-2525, 2022
202022
Computing quopit Clifford circuit amplitudes by the sum-over-paths technique
DE Koh, MD Penney, RW Spekkens
arXiv preprint arXiv:1702.03316, 2017
202017
An expressive ansatz for low-depth quantum approximate optimisation
V Vijendran, A Das, DE Koh, SM Assad, PK Lam
Quantum Science and Technology 9 (2), 025010, 2024
192024
Wasserstein Complexity of Quantum Circuits
L Li, K Bu, DE Koh, A Jaffe, S Lloyd
arXiv preprint arXiv:2208.06306, 2022
192022
Classical simulation of quantum circuits by half Gauss sums
K Bu, DE Koh
Communications in Mathematical Physics 390 (2), 471-500, 2022
192022
Hybrid quantum-classical computer for Bayesian inference with engineered likelihood functions for robust amplitude estimation
G Wang, ED Koh, PD Johnson, Y Cao, PL Dallaire-Demers
US Patent 11,615,329, 2023
182023
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