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Aarthi Sundaram
Aarthi Sundaram
Researcher, Microsoft
Bestätigte E-Mail-Adresse bei microsoft.com
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Zitiert von
Zitiert von
Jahr
Assessing requirements to scale to practical quantum advantage
ME Beverland, P Murali, M Troyer, KM Svore, T Hoefler, V Kliuchnikov, ...
arXiv preprint arXiv:2211.07629, 2022
1142022
Demonstration of logical qubits and repeated error correction with better-than-physical error rates
MP Da Silva, C Ryan-Anderson, JM Bello-Rivas, A Chernoguzov, ...
arXiv preprint arXiv:2404.02280, 2024
532024
Secure software leasing without assumptions
A Broadbent, S Jeffery, S Lord, S Podder, A Sundaram
Theory of Cryptography Conference, 90-120, 2021
342021
Assessing requirements to scale to practical quantum advantage (2022)
ME Beverland, P Murali, M Troyer, KM Svore, T Hoefler, V Kliuchnikov, ...
arXiv preprint arXiv:2211.07629, 2022
312022
Quantum algorithms for reinforcement learning with a generative model
D Wang, A Sundaram, R Kothari, A Kapoor, M Roetteler
International Conference on Machine Learning, 10916-10926, 2021
282021
Quantum hardness of learning shallow classical circuits
S Arunachalam, AB Grilo, A Sundaram
SIAM Journal on Computing 50 (3), 972-1013, 2021
262021
Linear time algorithm for quantum 2SAT
I Arad, M Santha, A Sundaram, S Zhang
Theory of Computing 14 (1), 1 -- 27, 2018
242018
Quantum generalizations of the polynomial hierarchy with applications to QMA (2)
S Gharibian, M Santha, J Sikora, A Sundaram, J Yirka
arXiv preprint arXiv:1805.11139, 2018
17*2018
Demonstration of logical qubits and repeated error correction with better-than-physical error rates (2024)
MP da Silva, C Ryan-Anderson, JM Bello-Rivas, A Chernoguzov, ...
arXiv preprint arXiv:2404.02280, 0
17
Quantum learning algorithms imply circuit lower bounds
S Arunachalam, AB Grilo, T Gur, IC Oliveira, A Sundaram
2021 IEEE 62nd Annual Symposium on Foundations of Computer Science (FOCS …, 2022
112022
Quantum divide and conquer
AM Childs, R Kothari, M Kovacs-Deak, A Sundaram, D Wang
arXiv preprint arXiv:2210.06419, 2022
92022
Gottesman types for quantum programs
R Rand, A Sundaram, K Singhal, B Lackey
arXiv preprint arXiv:2109.02197, 2021
92021
On the complexity of trial and error for constraint satisfaction problems
G Ivanyos, R Kulkarni, Y Qiao, M Santha, A Sundaram
Journal of Computer and System Sciences 92, 48-64, 2018
72018
Extending gottesman types beyond the clifford group
R Rand, A Sundaram, K Singhal, B Lackey
The Second International Workshop on Programming Languages for Quantum …, 2021
62021
Quantum divide and conquer. CoRR 2022
AM Childs, R Kothari, M Kovacs-Deak, A Sundaram, D Wang
arXiv preprint arXiv:2210.06419, 0
5
Static analysis of quantum programs via gottesman types
R Rand, A Sundaram, K Singhal, B Lackey
arXiv preprint arXiv:2101.08939, 2021
42021
Unified architecture for a quantum lookup table
S Zhu, A Sundaram, GH Low
arXiv preprint arXiv:2406.18030, 2024
22024
Hoare meets Heisenberg: A Lightweight Logic for Quantum Programs
A Sundaram, R Rand, K Singhal, B Lackey
12022
A Rich Type System for Quantum Programs
A Sundaram, R Rand, K Singhal, B Lackey
arXiv preprint arXiv:2101.08939, 2021
12021
A Type System for Quantum Resources
R Rand, A Sundaram, K Singhal, B Lackey
Draft. URL: https://ks. cs. uchicago. edu/publication/quantum-resourcetypes …, 2019
12019
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