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ORCIDThomas Vidick
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- award (2019): Presidential Early Career Award for Scientists and Engineers
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2020 – today
- 2024
[i39]Irit Dinur, Ting-Chun Lin, Thomas Vidick:
Expansion of higher-dimensional cubical complexes with application to quantum locally testable codes. CoRR abs/2402.07476 (2024)- 2023
- [c38]Zvika Brakerski, Alexandru Gheorghiu, Gregory D. Kahanamoku-Meyer, Eitan Porat, Thomas Vidick:
Simple Tests of Quantumness Also Certify Qubits. CRYPTO (5) 2023: 162-191 - [c37]Thomas Vidick:
Quantum Codes, Local Testability and Interactive Proofs: State of the Art and Open Questions (Invited Talk). ICALP 2023: 4:1-4:1 - [c36]Irit Dinur
, Min-Hsiu Hsieh, Ting-Chun Lin, Thomas Vidick:
Good Quantum LDPC Codes with Linear Time Decoders. STOC 2023: 905-918 - 2022
- [j26]Eric Culf, Thomas Vidick:
A monogamy-of-entanglement game for subspace coset states. Quantum 6: 791 (2022) - [j25]Mohammad Bavarian, Thomas Vidick, Henry Yuen:
Anchored Parallel Repetition for Nonlocal Games. SIAM J. Comput. 51(2): 214-253 (2022) - [c35]James Bartusek, Yael Tauman Kalai, Alex Lombardi, Fermi Ma, Giulio Malavolta, Vinod Vaikuntanathan, Thomas Vidick, Lisa Yang:
Succinct Classical Verification of Quantum Computation. CRYPTO (2) 2022: 195-211 - [i38]Urmila Mahadev, Umesh V. Vazirani, Thomas Vidick:
Efficient Certifiable Randomness from a Single Quantum Device. CoRR abs/2204.11353 (2022) - [i37]James Bartusek, Yael Tauman Kalai, Alex Lombardi, Fermi Ma, Giulio Malavolta, Vinod Vaikuntanathan, Thomas Vidick, Lisa Yang:
Succinct Classical Verification of Quantum Computation. CoRR abs/2206.14929 (2022) - [i36]Eric Culf, Thomas Vidick, Victor V. Albert:
Group coset monogamy games and an application to device-independent continuous-variable QKD. CoRR abs/2212.03935 (2022) - [i35]James Bartusek, Yael Tauman Kalai, Alex Lombardi, Fermi Ma, Giulio Malavolta, Vinod Vaikuntanathan, Thomas Vidick, Lisa Yang:
Succinct Classical Verification of Quantum Computation. IACR Cryptol. ePrint Arch. 2022: 857 (2022) - 2021
- [j24]Zhengfeng Ji, Anand Natarajan, Thomas Vidick, John Wright, Henry Yuen:
MIP* = RE. Commun. ACM 64(11): 131-138 (2021) - [j23]Zvika Brakerski, Paul F. Christiano, Urmila Mahadev, Umesh V. Vazirani, Thomas Vidick:
A Cryptographic Test of Quantumness and Certifiable Randomness from a Single Quantum Device. J. ACM 68(5): 31:1-31:47 (2021) - [j22]Tony Metger, Thomas Vidick:
Self-testing of a single quantum device under computational assumptions. Quantum 5: 544 (2021) - [c34]Thomas Vidick, Tina Zhang:
Classical Proofs of Quantum Knowledge. EUROCRYPT (2) 2021: 630-660 - [c33]Zhengfeng Ji, Anand Natarajan, Thomas Vidick, John Wright, Henry Yuen:
Quantum soundness of testing tensor codes. FOCS 2021: 586-597 - [c32]Tony Metger, Thomas Vidick:
Self-Testing of a Single Quantum Device Under Computational Assumptions. ITCS 2021: 19:1-19:12 - [i34]Eric Culf, Thomas Vidick:
A monogamy-of-entanglement game for subspace coset states. CoRR abs/2107.13324 (2021) - [i33]Zhengfeng Ji, Anand Natarajan, Thomas Vidick, John Wright, Henry Yuen:
Quantum soundness of testing tensor codes. CoRR abs/2111.08131 (2021) - 2020
- [j21]Thomas Vidick, Tina Zhang:
Classical zero-knowledge arguments for quantum computations. Quantum 4: 266 (2020) - [j20]Zhengfeng Ji, Debbie W. Leung, Thomas Vidick:
A three-player coherent state embezzlement game. Quantum 4: 349 (2020) - [j19]Thomas Vidick, Danupon Nanongkai, Dimitris Achlioptas:
Special Section on the Fiftieth Annual ACM Symposium on Theory of Computing (STOC 2018). SIAM J. Comput. 49(5) (2020) - [j18]Thomas Vidick:
Erratum: Three-Player Entangled XOR Games are NP-hard to Approximate. SIAM J. Comput. 49(6): 1423-1427 (2020) - [c31]Andrea Coladangelo, Thomas Vidick, Tina Zhang:
Non-interactive Zero-Knowledge Arguments for QMA, with Preprocessing. CRYPTO (3) 2020: 799-828 - [c30]Zvika Brakerski, Venkata Koppula, Umesh V. Vazirani, Thomas Vidick:
Simpler Proofs of Quantumness. TQC 2020: 8:1-8:14 - [e1]Thomas Vidick:
11th Innovations in Theoretical Computer Science Conference, ITCS 2020, January 12-14, 2020, Seattle, Washington, USA. LIPIcs 151, Schloss Dagstuhl - Leibniz-Zentrum für Informatik 2020, ISBN 978-3-95977-134-4 [contents] - [i32]Zhengfeng Ji, Anand Natarajan, Thomas Vidick, John Wright, Henry Yuen:
MIP*=RE. CoRR abs/2001.04383 (2020) - [i31]Zvika Brakerski, Venkata Koppula, Umesh V. Vazirani, Thomas Vidick:
Simpler Proofs of Quantumness. CoRR abs/2005.04826 (2020) - [i30]Zhengfeng Ji, Anand Natarajan, Thomas Vidick, John Wright, Henry Yuen:
Quantum soundness of the classical low individual degree test. CoRR abs/2009.12982 (2020)
2010 – 2019
- 2019
- [j17]Umesh V. Vazirani, Thomas Vidick:
Fully device independent quantum key distribution. Commun. ACM 62(4): 133 (2019) - [j16]Rotem Arnon Friedman, Renato Renner, Thomas Vidick:
Simple and Tight Device-Independent Security Proofs. SIAM J. Comput. 48(1): 181-225 (2019) - [c29]Andrea Coladangelo, Alex Bredariol Grilo, Stacey Jeffery, Thomas Vidick:
Verifier-on-a-Leash: New Schemes for Verifiable Delegated Quantum Computation, with Quasilinear Resources. EUROCRYPT (3) 2019: 247-277 - [c28]Divesh Aggarwal, Kai-Min Chung, Han-Hsuan Lin, Thomas Vidick:
A Quantum-Proof Non-malleable Extractor - With Application to Privacy Amplification Against Active Quantum Adversaries. EUROCRYPT (2) 2019: 442-469 - [c27]Alexandru Gheorghiu, Thomas Vidick:
Computationally-Secure and Composable Remote State Preparation. FOCS 2019: 1024-1033 - [c26]Joseph F. Fitzsimons, Zhengfeng Ji, Thomas Vidick, Henry Yuen:
Quantum proof systems for iterated exponential time, and beyond. STOC 2019: 473-480 - [i29]Alexandru Gheorghiu, Thomas Vidick:
Computationally-secure and composable remote state preparation. CoRR abs/1904.06320 (2019) - [i28]Andrea Coladangelo, Thomas Vidick, Tina Zhang:
Non-interactive zero-knowledge arguments for QMA, with preprocessing. CoRR abs/1911.07546 (2019) - [i27]Thomas Vidick, Tina Zhang:
Classical zero-knowledge arguments for quantum computations. IACR Cryptol. ePrint Arch. 2019: 194 (2019) - [i26]Andrea Coladangelo, Alex Bredariol Grilo, Stacey Jeffery, Thomas Vidick:
Verifier-on-a-Leash: new schemes for verifiable delegated quantum computation, with quasilinear resources. IACR Cryptol. ePrint Arch. 2019: 247 (2019) - [i25]Divesh Aggarwal, Kai-Min Chung, Han-Hsuan Lin, Thomas Vidick:
A Quantum-Proof Non-Malleable Extractor With Application to Privacy Amplification against Active Quantum Adversaries. IACR Cryptol. ePrint Arch. 2019: 254 (2019) - 2018
- [j15]Dimiter Ostrev, Thomas Vidick:
Entanglement of approximate quantum strategies in XOR games. Quantum Inf. Comput. 18(7&8): 617-631 (2018) - [c25]Anand Natarajan, Thomas Vidick:
Two-Player Entangled Games are NP-Hard. CCC 2018: 20:1-20:18 - [c24]Zvika Brakerski, Paul F. Christiano, Urmila Mahadev, Umesh V. Vazirani, Thomas Vidick:
A Cryptographic Test of Quantumness and Certifiable Randomness from a Single Quantum Device. FOCS 2018: 320-331 - [c23]Anand Natarajan, Thomas Vidick:
Low-Degree Testing for Quantum States, and a Quantum Entangled Games PCP for QMA. FOCS 2018: 731-742 - [i24]Zvika Brakerski, Paul F. Christiano, Urmila Mahadev, Umesh V. Vazirani, Thomas Vidick:
Certifiable Randomness from a Single Quantum Device. CoRR abs/1804.00640 (2018) - [i23]Joseph F. Fitzsimons, Zhengfeng Ji, Thomas Vidick, Henry Yuen:
Quantum proof systems for iterated exponential time, and beyond. CoRR abs/1805.12166 (2018) - [i22]Joseph F. Fitzsimons, Zhengfeng Ji, Thomas Vidick, Henry Yuen:
Quantum proof systems for iterated exponential time, and beyond. Electron. Colloquium Comput. Complex. TR18 (2018) - 2017
- [c22]Mohammad Bavarian, Thomas Vidick, Henry Yuen:
Parallel Repetition via Fortification: Analytic View and the Quantum Case. ITCS 2017: 22:1-22:33 - [c21]Itai Arad, Zeph Landau, Umesh V. Vazirani, Thomas Vidick:
Rigorous Rg Algorithms and Area Laws for Low Energy Eigenstates In 1D. ITCS 2017: 46:1-46:14 - [c20]Rui Chao, Ben W. Reichardt, Chris Sutherland, Thomas Vidick:
Overlapping Qubits. ITCS 2017: 48:1-48:21 - [c19]Mohammad Bavarian, Thomas Vidick, Henry Yuen:
Hardness amplification for entangled games via anchoring. STOC 2017: 303-316 - [c18]Anand Natarajan, Thomas Vidick:
A quantum linearity test for robustly verifying entanglement. STOC 2017: 1003-1015 - [i21]Andrea Coladangelo, Alex B. Grilo, Stacey Jeffery, Thomas Vidick:
Verifier-on-a-Leash: new schemes for verifiable delegated quantum computation, with quasilinear resources. CoRR abs/1708.07359 (2017) - [i20]Divesh Aggarwal, Kai-Min Chung, Han-Hsuan Lin, Thomas Vidick:
A Quantum-Proof Non-Malleable Extractor, With Application to Privacy Amplification against Active Quantum Adversaries. CoRR abs/1710.00557 (2017) - 2016
- [j14]Thomas Vidick, John Watrous:
Quantum Proofs. Found. Trends Theor. Comput. Sci. 11(1-2): 1-215 (2016) - [j13]Thomas Vidick:
Three-Player Entangled XOR Games are NP-Hard to Approximate. SIAM J. Comput. 45(3): 1007-1063 (2016) - [j12]Rotem Arnon Friedman, Renato Renner, Thomas Vidick:
Non-Signaling Parallel Repetition Using de Finetti Reductions. IEEE Trans. Inf. Theory 62(3): 1440-1457 (2016) - [i19]Mohammad Bavarian, Thomas Vidick, Henry Yuen:
Parallel repetition via fortification: analytic view and the quantum case. CoRR abs/1603.05349 (2016) - [i18]Steven Heilman, Thomas Vidick:
A Moment Majorization principle for random matrix ensembles with applications to hardness of the noncommutative Grothendieck problem. CoRR abs/1603.05620 (2016) - [i17]Rotem Arnon Friedman, Renato Renner, Thomas Vidick:
Simple and tight device-independent security proofs. CoRR abs/1607.01797 (2016) - [i16]Anand Natarajan, Thomas Vidick:
Robust self-testing of many-qubit states. CoRR abs/1610.03574 (2016) - [i15]David Gosset, Jenish C. Mehta, Thomas Vidick:
QCMA hardness of ground space connectivity for commuting Hamiltonians. CoRR abs/1610.03582 (2016) - [i14]Mohammad Bavarian, Thomas Vidick, Henry Yuen:
Parallel repetition via fortification: analytic view and the quantum case. Electron. Colloquium Comput. Complex. TR16 (2016) - 2015
- [j11]Irit Dinur, David Steurer, Thomas Vidick:
A parallel repetition theorem for entangled projection games. Comput. Complex. 24(2): 201-254 (2015) - [j10]Laura Mancinska, Thomas Vidick:
Unbounded entanglement in nonlocal games. Quantum Inf. Comput. 15(15&16): 1317-1332 (2015) - [j9]Oded Regev, Thomas Vidick:
Quantum XOR Games. ACM Trans. Comput. Theory 7(4): 15:1-15:43 (2015) - [c17]Matthew Coudron, Thomas Vidick:
Interactive Proofs with Approximately Commuting Provers. ICALP (1) 2015: 355-366 - [c16]Joseph F. Fitzsimons, Thomas Vidick:
A Multiprover Interactive Proof System for the Local Hamiltonian Problem. ITCS 2015: 103-112 - [i13]Mohammad Bavarian, Thomas Vidick, Henry Yuen:
Anchoring games for parallel repetition. CoRR abs/1509.07466 (2015) - [i12]Matthew Coudron, Thomas Vidick:
Interactive proofs with approximately commuting provers. CoRR abs/1510.00102 (2015) - [i11]Anand Natarajan, Thomas Vidick:
Constant-Soundness Interactive Proofs for Local Hamiltonians. CoRR abs/1512.02090 (2015) - 2014
- [j8]Assaf Naor, Oded Regev, Thomas Vidick:
Efficient Rounding for the Noncommutative Grothendieck Inequality. Theory Comput. 10: 257-295 (2014) - [c15]Irit Dinur, David Steurer, Thomas Vidick:
A Parallel Repetition Theorem for Entangled Projection Games. CCC 2014: 197-208 - [c14]Laura Mancinska, Thomas Vidick:
Unbounded Entanglement Can Be Needed to Achieve the Optimal Success Probability. ICALP (1) 2014: 835-846 - [c13]Umesh V. Vazirani, Thomas Vidick:
Robust device independent quantum key distribution. ITCS 2014: 35-36 - [c12]Zeph Landau, Umesh V. Vazirani, Thomas Vidick:
An efficient algorithm for finding the ground state of 1D gapped local hamiltonians. ITCS 2014: 301-302 - [i10]Rotem Arnon Friedman, Renato Renner, Thomas Vidick:
Non-signalling parallel repetition using de Finetti reductions. CoRR abs/1411.1582 (2014) - 2013
- [j7]Jop Briët, Harry Buhrman, Troy Lee, Thomas Vidick:
Multipartite entanglement in XOR games. Quantum Inf. Comput. 13(3-4): 334-360 (2013) - [j6]Dorit Aharonov, Itai Arad, Thomas Vidick:
Guest column: the quantum PCP conjecture. SIGACT News 44(2): 47-79 (2013) - [c11]Matthew Coudron, Thomas Vidick, Henry Yuen:
Robust Randomness Amplifiers: Upper and Lower Bounds. APPROX-RANDOM 2013: 468-483 - [c10]Oded Regev, Thomas Vidick:
Quantum XOR Games. CCC 2013: 144-155 - [c9]Assaf Naor, Oded Regev, Thomas Vidick:
Efficient rounding for the noncommutative grothendieck inequality. STOC 2013: 71-80 - [i9]Dorit Aharonov, Itai Arad, Thomas Vidick:
The Quantum PCP Conjecture. CoRR abs/1309.7495 (2013) - [i8]Irit Dinur, David Steurer, Thomas Vidick:
A parallel repetition theorem for entangled projection games. CoRR abs/1310.4113 (2013) - 2012
- [j5]Thomas Vidick:
A concentration inequality for the overlap of a vector on a large set, with application to the communication complexity of the Gap-Hamming-Distance problem. Chic. J. Theor. Comput. Sci. 2012 (2012) - [j4]Anindya De, Christopher Portmann, Thomas Vidick, Renato Renner:
Trevisan's Extractor in the Presence of Quantum Side Information. SIAM J. Comput. 41(4): 915-940 (2012) - [c8]Tsuyoshi Ito, Thomas Vidick:
A Multi-prover Interactive Proof for NEXP Sound against Entangled Provers. FOCS 2012: 243-252 - [c7]Umesh V. Vazirani, Thomas Vidick:
Certifiable quantum dice: or, true random number generation secure against quantum adversaries. STOC 2012: 61-76 - [c6]Abel Molina, Thomas Vidick, John Watrous:
Optimal Counterfeiting Attacks and Generalizations for Wiesner's Quantum Money. TQC 2012: 45-64 - [i7]Tsuyoshi Ito, Thomas Vidick:
A multi-prover interactive proof for NEXP sound against entangled provers. CoRR abs/1207.0550 (2012) - [i6]Assaf Naor, Oded Regev, Thomas Vidick:
Efficient rounding for the noncommutative Grothendieck inequality. CoRR abs/1210.7656 (2012) - [i5]Tsuyoshi Ito, Thomas Vidick:
A multi-prover interactive proof for NEXP sound against entangled provers. Electron. Colloquium Comput. Complex. TR12 (2012) - 2011
- [b1]Thomas Vidick:
The Complexity of Entangled Games. University of California, Berkeley, USA, 2011 - [j3]Julia Kempe, Hirotada Kobayashi, Keiji Matsumoto, Ben Toner, Thomas Vidick:
Entangled Games Are Hard to Approximate. SIAM J. Comput. 40(3): 848-877 (2011) - [c5]Julia Kempe, Thomas Vidick:
Parallel repetition of entangled games. STOC 2011: 353-362 - [i4]Thomas Vidick:
A concentration inequality for the overlap of a vector on a large set, With application to the communication complexity of the Gap-Hamming-Distance problem. Electron. Colloquium Comput. Complex. TR11 (2011) - 2010
- [c4]Joshua Brody, Amit Chakrabarti, Oded Regev, Thomas Vidick, Ronald de Wolf:
Better Gap-Hamming Lower Bounds via Better Round Elimination. APPROX-RANDOM 2010: 476-489 - [c3]Anindya De, Thomas Vidick:
Near-optimal extractors against quantum storage. STOC 2010: 161-170
2000 – 2009
- 2009
- [j2]Julia Kempe, Hirotada Kobayashi, Keiji Matsumoto, Thomas Vidick:
Using Entanglement in Quantum Multi-Prover Interactive Proofs. Comput. Complex. 18(2): 273-307 (2009) - [i3]Joshua Brody, Amit Chakrabarti, Oded Regev, Thomas Vidick, Ronald de Wolf:
Better Gap-Hamming Lower Bounds via Better Round Elimination. CoRR abs/0912.5276 (2009) - [i2]Anindya De, Christopher Portmann, Thomas Vidick, Renato Renner:
Trevisan's extractor in the presence of quantum side information. CoRR abs/0912.5514 (2009) - [i1]Anindya De, Thomas Vidick:
Near-optimal extractors against quantum storage. Electron. Colloquium Comput. Complex. TR09 (2009) - 2008
- [j1]Phong Q. Nguyen, Thomas Vidick:
Sieve algorithms for the shortest vector problem are practical. J. Math. Cryptol. 2(2): 181-207 (2008) - [c2]Julia Kempe, Hirotada Kobayashi, Keiji Matsumoto, Thomas Vidick:
Using Entanglement in Quantum Multi-prover Interactive Proofs. CCC 2008: 211-222 - [c1]Julia Kempe, Hirotada Kobayashi, Keiji Matsumoto, Ben Toner, Thomas Vidick:
Entangled Games are Hard to Approximate. FOCS 2008: 447-456
Coauthor Index
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