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2020 – today
- 2023
[i47]Jonathan Allcock, Jinge Bao, Aleksandrs Belovs, Troy Lee, Miklos Santha:
On the quantum time complexity of divide and conquer. CoRR abs/2311.16401 (2023)- 2022
- [b1]Mario Szegedy, Ilan Newman, Troy Lee:
Query Complexity. WorldScientific 2022, ISBN 9789813223202, pp. 1-200 - [c37]Simon Apers, Pawel Gawrychowski, Troy Lee:
Finding the KT Partition of a Weighted Graph in Near-Linear Time. APPROX/RANDOM 2022: 32:1-32:14 - [c36]Simon Apers, Yuval Efron, Pawel Gawrychowski, Troy Lee, Sagnik Mukhopadhyay
, Danupon Nanongkai:
Cut Query Algorithms with Star Contraction. FOCS 2022: 507-518 - [i46]Simon Apers, Yuval Efron, Pawel Gawrychowski, Troy Lee, Sagnik Mukhopadhyay, Danupon Nanongkai:
Cut query algorithms with star contraction. CoRR abs/2201.05674 (2022) - 2021
- [j19]Srinivasan Arunachalam, Sourav Chakraborty, Troy Lee, Manaswi Paraashar, Ronald de Wolf:
Two new results about quantum exact learning. Quantum 5: 587 (2021) - [c35]Troy Lee, Tongyang Li, Miklos Santha, Shengyu Zhang:
On the Cut Dimension of a Graph. CCC 2021: 15:1-15:35 - [c34]Simon Apers, Troy Lee:
Quantum Complexity of Minimum Cut. CCC 2021: 28:1-28:33 - [c33]Troy Lee, Miklos Santha, Shengyu Zhang:
Quantum algorithms for graph problems with cut queries. SODA 2021: 939-958 - [i45]Arinta Auza, Troy Lee:
On the query complexity of connectivity with global queries. CoRR abs/2109.02115 (2021) - [i44]Simon Apers, Arinta Auza, Troy Lee:
A sublinear time quantum algorithm for s-t minimum cut on dense simple graphs. CoRR abs/2110.15587 (2021) - [i43]Simon Apers, Pawel Gawrychowski, Troy Lee:
Finding the KT partition of a weighted graph in near-linear time. CoRR abs/2111.01378 (2021) - 2020
- [j18]Rahul Jain, Hartmut Klauck, Srijita Kundu, Troy Lee, Miklos Santha, Swagato Sanyal, Jevgenijs Vihrovs:
Quadratically Tight Relations for Randomized Query Complexity. Theory Comput. Syst. 64(1): 101-119 (2020) - [i42]Aleksandrs Belovs, Troy Lee:
The quantum query complexity of composition with a relation. CoRR abs/2004.06439 (2020) - [i41]Troy Lee, Miklos Santha, Shengyu Zhang:
Quantum algorithms for graph problems with cut queries. CoRR abs/2007.08285 (2020) - [i40]Troy Lee, Tongyang Li, Miklos Santha, Shengyu Zhang:
On the cut dimension of a graph. CoRR abs/2011.05085 (2020) - [i39]Simon Apers, Troy Lee:
Quantum query complexity of edge connectivity. CoRR abs/2011.09823 (2020)
2010 – 2019
- 2019
- [c32]Srinivasan Arunachalam, Sourav Chakraborty, Troy Lee, Manaswi Paraashar, Ronald de Wolf:
Two New Results About Quantum Exact Learning. ICALP 2019: 16:1-16:15 - [c31]Dmitry Gavinsky, Troy Lee, Miklos Santha, Swagato Sanyal:
A Composition Theorem for Randomized Query Complexity via Max-Conflict Complexity. ICALP 2019: 64:1-64:13 - [c30]Troy Lee, Maharshi Ray, Miklos Santha:
Strategies for Quantum Races. ITCS 2019: 51:1-51:21 - [c29]Tom Bannink, Jop Briët, Harry Buhrman, Farrokh Labib, Troy Lee:
Bounding Quantum-Classical Separations for Classes of Nonlocal Games. STACS 2019: 12:1-12:11 - 2018
- [j17]Divesh Aggarwal, Gavin K. Brennen, Troy Lee, Miklos Santha, Marco Tomamichel:
Quantum Attacks on Bitcoin, and How to Protect Against Them. Ledger 3 (2018) - [c28]Rahul Jain, Hartmut Klauck, Srijita Kundu, Troy Lee, Miklos Santha, Swagato Sanyal, Jevgenijs Vihrovs:
Quadratically Tight Relations for Randomized Query Complexity. CSR 2018: 207-219 - [i38]Dmitry Gavinsky, Troy Lee, Miklos Santha:
On the randomised query complexity of composition. CoRR abs/1801.02226 (2018) - [i37]Troy Lee, Maharshi Ray, Miklos Santha:
Strategies for quantum races. CoRR abs/1809.03671 (2018) - [i36]Srinivasan Arunachalam, Sourav Chakraborty, Troy Lee, Ronald de Wolf:
Two new results about quantum exact learning. CoRR abs/1810.00481 (2018) - [i35]Dmitry Gavinsky, Troy Lee, Miklos Santha, Swagato Sanyal:
A composition theorem for randomized query complexity via max conflict complexity. CoRR abs/1811.10752 (2018) - 2017
- [j16]Troy Lee, Frédéric Magniez, Miklos Santha:
Improved Quantum Query Algorithms for Triangle Detection and Associativity Testing. Algorithmica 77(2): 459-486 (2017) - [j15]Gábor Braun, Rahul Jain, Troy Lee, Sebastian Pokutta:
Information-theoretic approximations of the nonnegative rank. Comput. Complex. 26(1): 147-197 (2017) - [j14]Andris Ambainis, Kaspars Balodis, Aleksandrs Belovs, Troy Lee, Miklos Santha, Juris Smotrovs:
Separations in Query Complexity Based on Pointer Functions. J. ACM 64(5): 32:1-32:24 (2017) - [j13]Troy Lee, Zhaohui Wei, Ronald de Wolf:
Some upper and lower bounds on PSD-rank. Math. Program. 162(1-2): 495-521 (2017) - [c27]Anurag Anshu, Shalev Ben-David, Ankit Garg, Rahul Jain, Robin Kothari, Troy Lee:
Separating Quantum Communication and Approximate Rank. CCC 2017: 24:1-24:33 - [c26]Anurag Anshu, Dmitry Gavinsky, Rahul Jain, Srijita Kundu, Troy Lee, Priyanka Mukhopadhyay, Miklos Santha, Swagato Sanyal:
A Composition Theorem for Randomized Query Complexity. FSTTCS 2017: 10:1-10:13 - [i34]Anurag Anshu, Dmitry Gavinsky, Rahul Jain, Srijita Kundu, Troy Lee, Priyanka Mukhopadhyay, Miklos Santha, Swagato Sanyal:
A Composition Theorem for Randomized Query Complexity. CoRR abs/1706.00335 (2017) - [i33]Dmitry Gavinsky, Rahul Jain, Hartmut Klauck, Srijita Kundu, Troy Lee, Miklos Santha, Swagato Sanyal, Jevgenijs Vihrovs:
Quadratically Tight Relations for Randomized Query Complexity. CoRR abs/1708.00822 (2017) - [i32]Anurag Anshu, Dmitry Gavinsky, Rahul Jain, Srijita Kundu, Troy Lee, Priyanka Mukhopadhyay, Miklos Santha, Swagato Sanyal:
A Composition Theorem for Randomized Query complexity. Electron. Colloquium Comput. Complex. TR17 (2017) - [i31]Dmitry Gavinsky, Rahul Jain, Hartmut Klauck, Srijita Kundu, Troy Lee, Miklos Santha, Swagato Sanyal, Jevgenijs Vihrovs:
Quadratically Tight Relations for Randomized Query Complexity. Electron. Colloquium Comput. Complex. TR17 (2017) - 2016
- [j12]Troy Lee, Nikos Leonardos, Michael E. Saks, Fengming Wang:
Hellinger volume and number-on-the-forehead communication complexity. J. Comput. Syst. Sci. 82(6): 1064-1074 (2016) - [c25]Troy Lee, Anupam Prakash, Ronald de Wolf, Henry Yuen:
On the Sum-of-Squares Degree of Symmetric Quadratic Functions. CCC 2016: 17:1-17:31 - [c24]Anurag Anshu, Aleksandrs Belovs, Shalev Ben-David, Mika Göös, Rahul Jain, Robin Kothari, Troy Lee, Miklos Santha:
Separations in Communication Complexity Using Cheat Sheets and Information Complexity. FOCS 2016: 555-564 - [c23]Andris Ambainis, Kaspars Balodis, Aleksandrs Belovs, Troy Lee, Miklos Santha, Juris Smotrovs:
Separations in query complexity based on pointer functions. STOC 2016: 800-813 - [i30]Troy Lee, Anupam Prakash, Ronald de Wolf, Henry Yuen:
On the sum-of-squares degree of symmetric quadratic functions. CoRR abs/1601.02311 (2016) - [i29]Anurag Anshu, Aleksandrs Belovs, Shalev Ben-David, Mika Göös, Rahul Jain, Robin Kothari, Troy Lee, Miklos Santha:
Separations in communication complexity using cheat sheets and information complexity. CoRR abs/1605.01142 (2016) - [i28]Anurag Anshu, Shalev Ben-David, Ankit Garg, Rahul Jain, Robin Kothari, Troy Lee:
Separating quantum communication and approximate rank. CoRR abs/1611.05754 (2016) - [i27]Anurag Anshu, Aleksandrs Belovs, Shalev Ben-David, Mika Göös, Rahul Jain, Robin Kothari, Troy Lee, Miklos Santha:
Separations in communication complexity using cheat sheets and information complexity. Electron. Colloquium Comput. Complex. TR16 (2016) - 2015
- [j11]Mirjam Friesen, Aya Hamed, Troy Lee, Dirk Oliver Theis:
Fooling-sets and rank. Eur. J. Comb. 48: 143-153 (2015) - [c22]Jedrzej Kaniewski, Troy Lee, Ronald de Wolf:
Query Complexity in Expectation. ICALP (1) 2015: 761-772 - [i26]Andris Ambainis, Kaspars Balodis, Aleksandrs Belovs, Troy Lee, Miklos Santha, Juris Smotrovs:
Separations in Query Complexity Based on Pointer Functions. CoRR abs/1506.04719 (2015) - [i25]Hartmut Klauck, Troy Lee, Dirk Oliver Theis, Rekha R. Thomas:
Limitations of convex programming: lower bounds on extended formulations and factorization ranks (Dagstuhl Seminar 15082). Dagstuhl Reports 5(2): 109-127 (2015) - [i24]Andris Ambainis, Kaspars Balodis, Aleksandrs Belovs, Troy Lee, Miklos Santha, Juris Smotrovs:
Separations in Query Complexity Based on Pointer Functions. Electron. Colloquium Comput. Complex. TR15 (2015) - 2014
- [c21]Noga Alon, Troy Lee, Adi Shraibman:
The Cover Number of a Matrix and its Algorithmic Applications. APPROX-RANDOM 2014: 34-47 - [i23]Rahul Jain, Troy Lee, Nisheeth K. Vishnoi:
A quadratically tight partition bound for classical communication complexity and query complexity. CoRR abs/1401.4512 (2014) - [i22]Troy Lee, Zhaohui Wei, Ronald de Wolf:
Some upper and lower bounds on PSD-rank. CoRR abs/1407.4308 (2014) - [i21]Troy Lee, Nikos Leonardos, Michael E. Saks, Fengming Wang:
Hellinger volume and number-on-the-forehead communication complexity. CoRR abs/1407.5425 (2014) - [i20]Troy Lee, Zhaohui Wei:
The square root rank of the correlation polytope is exponential. CoRR abs/1411.6712 (2014) - [i19]Jedrzej Kaniewski, Troy Lee, Ronald de Wolf:
Query complexity in expectation. CoRR abs/1411.7280 (2014) - 2013
- [j10]Troy Lee, Jérémie Roland:
A strong direct product theorem for quantum query complexity. Comput. Complex. 22(2): 429-462 (2013) - [j9]Jop Briët, Harry Buhrman, Troy Lee, Thomas Vidick:
Multipartite entanglement in XOR games. Quantum Inf. Comput. 13(3-4): 334-360 (2013) - [c20]Troy Lee, Adi Shraibman:
Matrix Completion From any Given Set of Observations. NIPS 2013: 1781-1787 - [c19]Troy Lee, Frédéric Magniez, Miklos Santha:
Improved quantum query algorithms for triangle finding and associativity testing. SODA 2013: 1486-1502 - [c18]Noga Alon, Troy Lee, Adi Shraibman, Santosh S. Vempala:
The approximate rank of a matrix and its algorithmic applications: approximate rank. STOC 2013: 675-684 - [i18]LeRoy Beasely, Troy Lee, Hartmut Klauck, Dirk Oliver Theis:
Dagstuhl Report 13082: Communication Complexity, Linear Optimization, and lower bounds for the nonnegative rank of matrices. CoRR abs/1305.4147 (2013) - [i17]Aya Hamed, Troy Lee:
Rank and fooling set size. CoRR abs/1310.7321 (2013) - [i16]LeRoy B. Beasley, Hartmut Klauck, Troy Lee, Dirk Oliver Theis:
Communication Complexity, Linear Optimization, and lower bounds for the nonnegative rank of matrices (Dagstuhl Seminar 13082). Dagstuhl Reports 3(2): 127-143 (2013) - [i15]Gábor Braun, Rahul Jain, Troy Lee, Sebastian Pokutta:
Information-theoretic approximations of the nonnegative rank. Electron. Colloquium Comput. Complex. TR13 (2013) - 2012
- [j8]Troy Lee, Frédéric Magniez, Miklos Santha:
Learning graph based quantum query algorithms for finding constant-size subgraphs. Chic. J. Theor. Comput. Sci. 2012 (2012) - [c17]Troy Lee, Jérémie Roland:
A Strong Direct Product Theorem for Quantum Query Complexity. CCC 2012: 236-246 - [c16]Troy Lee, Dirk Oliver Theis:
Lower Bounds for Sizes of Semidefinite Formulations for Some Combinatorial Optimization Problems. CTW 2012: 176-180 - [c15]Gábor Ivanyos, Hartmut Klauck, Troy Lee, Miklos Santha, Ronald de Wolf:
New bounds on the classical and quantum communication complexity of some graph properties. FSTTCS 2012: 148-159 - [i14]Troy Lee, Dirk Oliver Theis:
Lower bounds for sizes of semidefinite formulations for some combinatorial optimization problems. CoRR abs/1203.3961 (2012) - [i13]Gábor Ivanyos, Hartmut Klauck, Troy Lee, Miklos Santha, Ronald de Wolf:
New bounds on the classical and quantum communication complexity of some graph properties. CoRR abs/1204.4596 (2012) - 2011
- [c14]Troy Lee, Rajat Mittal, Ben W. Reichardt, Robert Spalek, Mario Szegedy:
Quantum Query Complexity of State Conversion. FOCS 2011: 344-353 - [i12]Troy Lee, Jérémie Roland:
A strong direct product theorem for quantum query complexity. CoRR abs/1104.4468 (2011) - [i11]Troy Lee, Frédéric Magniez, Miklos Santha:
A learning graph based quantum query algorithm for finding constant-size subgraphs. CoRR abs/1109.5135 (2011) - 2010
- [c13]Troy Lee, Shengyu Zhang:
Composition Theorems in Communication Complexity. ICALP (1) 2010: 475-489 - [i10]Troy Lee, Shengyu Zhang:
Composition theorems in communication complexity. CoRR abs/1003.1443 (2010)
2000 – 2009
- 2009
- [j7]Troy Lee, Adi Shraibman:
Disjointness is Hard in the Multiparty Number-on-the-Forehead Model. Comput. Complex. 18(2): 309-336 (2009) - [j6]Troy Lee, Adi Shraibman:
Lower Bounds in Communication Complexity. Found. Trends Theor. Comput. Sci. 3(4): 263-398 (2009) - [c12]Troy Lee, Gideon Schechtman, Adi Shraibman:
Lower Bounds on Quantum Multiparty Communication Complexity. CCC 2009: 254-262 - [c11]Troy Lee, Adi Shraibman:
An Approximation Algorithm for Approximation Rank. CCC 2009: 351-357 - [i9]Troy Lee:
A note on the sign degree of formulas. CoRR abs/0909.4607 (2009) - 2008
- [c10]Troy Lee, Adi Shraibman, Robert Spalek:
A Direct Product Theorem for Discrepancy. CCC 2008: 71-80 - [c9]Troy Lee, Adi Shraibman:
Disjointness Is Hard in the Multi-party Number-on-the-Forehead Model. CCC 2008: 81-91 - [c8]Troy Lee, Rajat Mittal:
Product Theorems Via Semidefinite Programming. ICALP (1) 2008: 674-685 - [c7]Andrew M. Childs, Troy Lee:
Optimal Quantum Adversary Lower Bounds for Ordered Search. ICALP (1) 2008: 869-880 - [i8]Troy Lee, Adi Shraibman:
Approximation norms and duality for communication complexity lower bounds. Computational Complexity of Discrete Problems 2008 - [i7]Troy Lee, Rajat Mittal:
Product theorems via semidefinite programming. CoRR abs/0803.4206 (2008) - [i6]Troy Lee, Adi Shraibman:
An approximation algorithm for approximation rank. CoRR abs/0809.2093 (2008) - [i5]Troy Lee, Adi Shraibman:
Disjointness is hard in the multi-party number-on-the-forehead model. Electron. Colloquium Comput. Complex. TR08 (2008) - 2007
- [c6]Troy Lee:
A New Rank Technique for Formula Size Lower Bounds. STACS 2007: 145-156 - [c5]Peter Høyer, Troy Lee, Robert Spalek:
Negative weights make adversaries stronger. STOC 2007: 526-535 - [i4]Troy Lee, Adi Shraibman:
Disjointness is hard in the multi-party number on the forehead model. CoRR abs/0712.4279 (2007) - 2006
- [j5]Sophie Laplante, Troy Lee, Mario Szegedy:
The Quantum Adversary Method and Classical Formula Size Lower Bounds. Comput. Complex. 15(2): 163-196 (2006) - [c4]Lance Fortnow, Troy Lee, Nikolai K. Vereshchagin:
Kolmogorov Complexity with Error. STACS 2006: 137-148 - 2005
- [j4]Harry Buhrman, Troy Lee, Dieter van Melkebeek:
Language compression and pseudorandom generators. Comput. Complex. 14(3): 228-255 (2005) - [j3]Troy Lee, Andrei E. Romashchenko:
Resource bounded symmetry of information revisited. Theor. Comput. Sci. 345(2-3): 386-405 (2005) - [c3]Sophie Laplante, Troy Lee, Mario Szegedy:
The Quantum Adversary Method and Classical Formula Size Lower Bounds. CCC 2005: 76-90 - 2004
- [c2]Harry Buhrman, Troy Lee, Dieter van Melkebeek:
Language Compression and Pseudorandom Generators. CCC 2004: 15-28 - [c1]Troy Lee, Andrei E. Romashchenko:
On Polynomially Time Bounded Symmetry of Information. MFCS 2004: 463-475 - [i3]Troy Lee, Dieter van Melkebeek, Harry Buhrman:
Language Compression and Pseudorandom Generators. Electron. Colloquium Comput. Complex. TR04 (2004) - [i2]Troy Lee, Andrei E. Romashchenko:
On Polynomially Time Bounded Symmetry of Information. Electron. Colloquium Comput. Complex. TR04 (2004) - [i1]Lance Fortnow, Troy Lee, Nikolai K. Vereshchagin:
Kolmogorov Complexity with Error. Electron. Colloquium Comput. Complex. TR04 (2004) - 2003
- [j2]Troy Lee:
Arithmetical definability over finite structures. Math. Log. Q. 49(4): 385-392 (2003) - 2002
- [j1]Valery Tereshko, Troy Lee:
How Information-Mapping Patterns Determine Foraging Behaviour of a Honey Bee Colony. Open Syst. Inf. Dyn. 9(2): 181-194 (2002)
Coauthor Index
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