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Michele Mosca
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Publications
- 2025
- [j23]Vlad Gheorghiu, Michele Mosca:
Quantum resource estimation for large scale quantum algorithms. Future Gener. Comput. Syst. 162: 107480 (2025) - 2024
- [i30]Dohun Kim, Minyoung Kim, Sarah Meng Li, Michele Mosca:
Improving the Fidelity of CNOT Circuits on NISQ Hardware. CoRR abs/2405.19891 (2024) - 2023
- [j22]Vlad Gheorghiu, Jiaxin Huang, Sarah Meng Li, Michele Mosca, Priyanka Mukhopadhyay:
Reducing the CNOT Count for Clifford+T Circuits on NISQ Architectures. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 42(6): 1873-1884 (2023) - [c23]Jiaxin Huang, Sarah Meng Li, Lia Yeh, Aleks Kissinger, Michele Mosca, Michael Vasmer:
Graphical CSS Code Transformation Using ZX Calculus. QPL 2023: 1-19 - 2021
- [i29]Stacey Jeffery, Michele Mosca, María Naya-Plasencia, Rainer Steinwandt:
Quantum Cryptanalysis (Dagstuhl Seminar 21421). Dagstuhl Reports 11(9): 64-79 (2021) - 2019
- [j21]Matthew Amy, Michele Mosca:
T-Count Optimization and Reed-Muller Codes. IEEE Trans. Inf. Theory 65(8): 4771-4784 (2019) - [i25]Michele Mosca, María Naya-Plasencia, Rainer Steinwandt:
Quantum Cryptanalysis (Dagstuhl Seminar 19421). Dagstuhl Reports 9(10): 47-60 (2019) - 2018
- [j20]Johannes Buchmann, Kristin E. Lauter, Michele Mosca:
Postquantum Cryptography, Part 2. IEEE Secur. Priv. 16(5): 12-13 (2018) - [i24]Michele Mosca, Martin Roetteler, Peter Selinger:
Quantum Programming Languages (Dagstuhl Seminar 18381). Dagstuhl Reports 8(9): 112-132 (2018) - 2017
- [j18]Johannes Buchmann, Kristin E. Lauter, Michele Mosca:
Postquantum Cryptography - State of the Art. IEEE Secur. Priv. 15(4): 12-13 (2017) - [j17]John Mulholland, Michele Mosca, Johannes Braun:
The Day the Cryptography Dies. IEEE Secur. Priv. 15(4): 14-21 (2017) - [c21]Daniel J. Bernstein, Jean-François Biasse, Michele Mosca:
A Low-Resource Quantum Factoring Algorithm. PQCrypto 2017: 330-346 - [c20]Alex Parent, Martin Roetteler, Michele Mosca:
Improved reversible and quantum circuits for Karatsuba-based integer multiplication. TQC 2017: 7:1-7:15 - [i23]Alex Parent, Martin Roetteler, Michele Mosca:
Improved reversible and quantum circuits for Karatsuba-based integer multiplication. CoRR abs/1706.03419 (2017) - [i22]Piotr K. Tysowski, Xinhua Ling, Norbert Lütkenhaus, Michele Mosca:
The Engineering of a Scalable Multi-Site Communications System Utilizing Quantum Key Distribution (QKD). CoRR abs/1712.02617 (2017) - [i21]Michele Mosca, Nicolas Sendrier, Rainer Steinwandt, Krysta M. Svore:
Quantum Cryptanalysis (Dagstuhl Seminar 17401). Dagstuhl Reports 7(10): 1-13 (2017) - [i20]Daniel J. Bernstein, Jean-François Biasse, Michele Mosca:
A low-resource quantum factoring algorithm. IACR Cryptol. ePrint Arch. 2017: 352 (2017) - 2016
- [j16]Vadym Kliuchnikov, Dmitri Maslov, Michele Mosca:
Practical Approximation of Single-Qubit Unitaries by Single-Qubit Quantum Clifford and T Circuits. IEEE Trans. Computers 65(1): 161-172 (2016) - [c19]Douglas Stebila, Michele Mosca:
Post-quantum Key Exchange for the Internet and the Open Quantum Safe Project. SAC 2016: 14-37 - [c18]Matthew Amy, Olivia Di Matteo, Vlad Gheorghiu, Michele Mosca, Alex Parent, John M. Schanck:
Estimating the Cost of Generic Quantum Pre-image Attacks on SHA-2 and SHA-3. SAC 2016: 317-337 - [i19]Matthew Amy, Olivia Di Matteo, Vlad Gheorghiu, Michele Mosca, Alex Parent, John M. Schanck:
Estimating the cost of generic quantum pre-image attacks on SHA-2 and SHA-3. IACR Cryptol. ePrint Arch. 2016: 992 (2016) - [i18]Douglas Stebila, Michele Mosca:
Post-Quantum Key Exchange for the Internet and the Open Quantum Safe Project. IACR Cryptol. ePrint Arch. 2016: 1017 (2016) - 2015
- [c17]Srinivasan Arunachalam, Vlad Gheorghiu, Tomas Jochym-O'Connor, Michele Mosca, Priyaa Varshinee Srinivasan:
On the Robustness of Bucket Brigade Quantum RAM. TQC 2015: 226-244 - [i17]Michele Mosca, Martin Roetteler, Nicolas Sendrier, Rainer Steinwandt:
Quantum Cryptanalysis (Dagstuhl Seminar 15371). Dagstuhl Reports 5(9): 1-17 (2015) - 2014
- [j14]David Gosset, Vadym Kliuchnikov, Michele Mosca, Vincent Russo:
An algorithm for the T-count. Quantum Inf. Comput. 14(15-16): 1261-1276 (2014) - [j13]Matthew Amy, Dmitri Maslov, Michele Mosca:
Polynomial-Time T-Depth Optimization of Clifford+T Circuits Via Matroid Partitioning. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 33(10): 1476-1489 (2014) - 2013
- [j11]Vadym Kliuchnikov, Dmitri Maslov, Michele Mosca:
Fast and efficient exact synthesis of single-qubit unitaries generated by clifford and T gates. Quantum Inf. Comput. 13(7-8): 607-630 (2013) - [j10]Matthew Amy, Dmitri Maslov, Michele Mosca, Martin Roetteler:
A Meet-in-the-Middle Algorithm for Fast Synthesis of Depth-Optimal Quantum Circuits. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 32(6): 818-830 (2013) - [c15]Michele Mosca, Douglas Stebila, Berkant Ustaoglu:
Quantum Key Distribution in the Classical Authenticated Key Exchange Framework. PQCrypto 2013: 136-154 - [i13]Matthew Amy, Dmitri Maslov, Michele Mosca:
Polynomial-time T-depth Optimization of Clifford+T circuits via Matroid Partitioning. CoRR abs/1303.2042 (2013) - [i12]Serge Fehr, Michele Mosca, Martin Rötteler, Rainer Steinwandt:
Quantum Cryptanalysis (Dagstuhl Seminar 13371). Dagstuhl Reports 3(9): 59-73 (2013) - 2012
- [i11]Matthew Amy, Dmitri Maslov, Michele Mosca, Martin Roetteler:
A meet-in-the-middle algorithm for fast synthesis of depth-optimal quantum circuits. CoRR abs/1206.0758 (2012) - [i10]Vadym Kliuchnikov, Dmitri Maslov, Michele Mosca:
Fast and efficient exact synthesis of single qubit unitaries generated by Clifford and T gates. CoRR abs/1206.5236 (2012) - [i9]Vadym Kliuchnikov, Dmitri Maslov, Michele Mosca:
Asymptotically optimal approximation of single qubit unitaries by Clifford and T circuits using a constant number of ancillary qubits. CoRR abs/1212.0822 (2012) - [i8]Vadym Kliuchnikov, Dmitri Maslov, Michele Mosca:
Practical approximation of single-qubit unitaries by single-qubit quantum Clifford and T circuits. CoRR abs/1212.6964 (2012) - [i7]Michele Mosca, Douglas Stebila, Berkant Ustaoglu:
Quantum Key Distribution in the Classical Authenticated Key Exchange Framework. IACR Cryptol. ePrint Arch. 2012: 361 (2012) - 2011
- [i6]Serge Fehr, Michele Mosca, Martin Rötteler, Rainer Steinwandt:
Quantum Cryptanalysis (Dagstuhl Seminar 11381). Dagstuhl Reports 1(9): 58-75 (2011) - 2010
- [c11]Matthew McKague, Michele Mosca:
Generalized Self-testing and the Security of the 6-State Protocol. TQC 2010: 113-130 - 2009
- [c10]Douglas Stebila, Michele Mosca, Norbert Lütkenhaus:
The Case for Quantum Key Distribution. QuantumComm 2009: 283-296 - [c9]Richard Cleve, Daniel Gottesman, Michele Mosca, Rolando D. Somma, David L. Yonge-Mallo:
Efficient discrete-time simulations of continuous-time quantum query algorithms. STOC 2009: 409-416 - [e2]Andrew M. Childs, Michele Mosca:
Theory of Quantum Computation, Communication, and Cryptography, 4th Workshop, TQC 2009, Waterloo, Canada, May 11-13, 2009, Revised Selected Papers. Lecture Notes in Computer Science 5906, Springer 2009, ISBN 978-3-642-10697-2 [contents] - [i5]Douglas Stebila, Michele Mosca, Norbert Lütkenhaus:
The Case for Quantum Key Distribution. IACR Cryptol. ePrint Arch. 2009: 82 (2009) - 2008
- [j8]Dmitri Maslov, Sean M. Falconer, Michele Mosca:
Quantum Circuit Placement. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 27(4): 752-763 (2008) - 2007
- [j7]Wim van Dam, Frédéric Magniez, Michele Mosca, Miklos Santha:
Self-Testing of Universal and Fault-Tolerant Sets of Quantum Gates. SIAM J. Comput. 37(2): 611-629 (2007) - [c8]Dmitri Maslov, Sean M. Falconer, Michele Mosca:
Quantum Circuit Placement: Optimizing Qubit-to-qubit Interactions through Mapping Quantum Circuits into a Physical Experiment. DAC 2007: 962-965 - 2006
- [b1]Phillip Kaye, Raymond Laflamme, Michele Mosca:
An Introduction to Quantum Computing. Oxford University Press 2006, ISBN 978-0-19-857000-4, pp. I-XI, 1-274 - [c7]Frédéric Magniez, Dominic Mayers, Michele Mosca, Harold Ollivier:
Self-testing of Quantum Circuits. ICALP (1) 2006: 72-83 - 2003
- [c6]Peter Høyer, Michele Mosca, Ronald de Wolf:
Quantum Search on Bounded-Error Inputs. ICALP 2003: 291-299 - [i4]Peter Høyer, Michele Mosca, Ronald de Wolf:
Quantum Search on Bounded-Error Inputs. CoRR quant-ph/0304052 (2003) - 2002
- [j6]Michele Mosca, Alain Tapp:
Introduction. Algorithmica 34(4): 309-313 (2002) - 2001
- [j5]Robert Beals, Harry Buhrman, Richard Cleve, Michele Mosca, Ronald de Wolf:
Quantum lower bounds by polynomials. J. ACM 48(4): 778-797 (2001) - [c5]Wim van Dam, Michele Mosca, Umesh V. Vazirani:
How Powerful is Adiabatic Quantum Computation?. FOCS 2001: 279-287 - 2000
- [c4]Andris Ambainis, Michele Mosca, Alain Tapp, Ronald de Wolf:
Private Quantum Channels. FOCS 2000: 547-553 - [c3]Wim van Dam, Frédéric Magniez, Michele Mosca, Miklos Santha:
Self-testing of universal and fault-tolerant sets of quantum gates. STOC 2000: 688-696 - 1999
- [i2]Wim van Dam, Frédéric Magniez, Michele Mosca, Miklos Santha:
Self-Testing of Universal and Fault-Tolerant Sets of Quantum Gates. CoRR quant-ph/9904108 (1999) - 1998
- [j2]Richard Cleve, Artur Ekert, Leah Henderson, Chiara Macchiavello, Michele Mosca:
On quantum algorithms. Complex. 4(1): 33-42 (1998) - [c2]Robert Beals, Harry Buhrman, Richard Cleve, Michele Mosca, Ronald de Wolf:
Quantum Lower Bounds by Polynomials. FOCS 1998: 352-361 - [c1]Michele Mosca, Artur Ekert:
The Hidden Subgroup Problem and Eigenvalue Estimation on a Quantum Computer. QCQC 1998: 174-188 - [i1]Robert Beals, Harry Buhrman, Richard Cleve, Michele Mosca, Ronald de Wolf:
Quantum Lower Bounds by Polynomials. CoRR quant-ph/9802049 (1998)
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