| Hits ?▲ |
Authors |
Title |
Venue |
Year |
Link |
Author keywords |
| 114 | Kazuo Iwama, Yahiko Kambayashi, Shigeru Yamashita |
Transformation rules for designing CNOT-based quantum circuits.  |
DAC  |
2002 |
DBLP DOI BibTeX RDF |
CNOT gate, local transformation rules, quantum circuit |
| 103 | Mehdi Saeedi, Morteza Saheb Zamani, Mehdi Sedighi |
Algebraic Characterization of CNOT-Based Quantum Circuits with its Applications on Logic Synthesis. |
DSD |
2007 |
DBLP DOI BibTeX RDF |
|
| 98 | Avik Chakraborty |
Synthesis of Reversible Circuits for Testing with Universal Test Set and C-Testability of Reversible Iterative Logic Arrays. |
VLSI Design |
2005 |
DBLP DOI BibTeX RDF |
Fault models, Testability, Design for test, Iterative logic arrays, Universal test sets, Reversible circuits |
| 78 | Hafizur Rahaman 0001, Dipak Kumar Kole, Debesh Kumar Das, Bhargab B. Bhattacharya |
On the Detection of Missing-Gate Faults in Reversible Circuits by a Universal Test Set. |
VLSI Design |
2008 |
DBLP DOI BibTeX RDF |
Missing-gate faults, quantum computing, reversible logic, testable design, universal test set |
| 64 | Muhammad Ibrahim, Ahsan Raja Chowdhury, Hafiz Md. Hasan Babu |
Minimization of CTS of k-CNOT Circuits for SSF and MSF Model. |
DFT |
2008 |
DBLP DOI BibTeX RDF |
|
| 59 | John P. Hayes, Ilia Polian, Bernd Becker 0001 |
Testing for Missing-Gate Faults in Reversible Circuits. |
Asian Test Symposium |
2004 |
DBLP DOI BibTeX RDF |
missing gate faults, fault models, design for test, quantum circuits, Reversible circuits |
| 49 | Dmitry V. Zakablukov |
Synthesis methods for reversible circuits consisting of NOT, CNOT and 2-CNOT gates (Ph.D. thesis). |
CoRR |
2018 |
DBLP BibTeX RDF |
|
| 49 | Dmitry V. Zakablukov |
On Synthesis of Reversible Circuits with Small Number of Additional Inputs Consisting of NOT, CNOT and 2-CNOT Gates. |
CoRR |
2018 |
DBLP BibTeX RDF |
|
| 49 | Dmitry V. Zakablukov |
General Upper Bounds for Gate Complexity and Depth of Reversible Circuits Consisting of NOT, CNOT and 2-CNOT Gates. |
CoRR |
2017 |
DBLP BibTeX RDF |
|
| 49 | Dmitry Zakablukov |
Asymptotic bounds of depth for the reversible circuit consisting of NOT, CNOT and 2-CNOT gates. |
CoRR |
2015 |
DBLP BibTeX RDF |
|
| 49 | Dmitry Zakablukov |
Asymptotic bounds of the gate complexity for the reversible circuit consisting of NOT, CNOT and 2-CNOT gates. |
CoRR |
2014 |
DBLP BibTeX RDF |
|
| 44 | Mehdi Saeedi, Morteza Saheb Zamani, Mehdi Sedighi |
Moving forward: A non-search based synthesis method toward efficient CNOT-based quantum circuit synthesis algorithms. |
ASP-DAC |
2008 |
DBLP DOI BibTeX RDF |
|
| 31 | Dong Wang, Hanwu Chen, Bo An 0008, Zhongming Yang |
A Novel RM-Based Algorithm for Reversible Circuits. |
ISICA |
2009 |
DBLP DOI BibTeX RDF |
quantum reversible circuits, CNOT gate, Toffoli gate, Reed-Muller expansion |
| 31 | Stephen S. Bullock, Igor L. Markov |
An arbitrary twoqubit computation In 23 elementary gates or less. |
DAC |
2003 |
DBLP DOI BibTeX RDF |
CNOT, circuit decomposition, elementary gates, lie theory, optimization, algorithms, lower bounds, synthesis, quantum circuits, qubit |
| 25 | Hanyu Wang, Bochen Tan, Jason Cong, Giovanni De Micheli |
Quantum State Preparation Using an Exact CNOT Synthesis Formulation. |
CoRR |
2024 |
DBLP DOI BibTeX RDF |
|
| 25 | Amir Hossein Salari, Saeed Khosroabadi, Monireh Houshmand |
A novel design of quantum CNOT based on photonic crystal. |
Quantum Inf. Process. |
2024 |
DBLP DOI BibTeX RDF |
|
| 25 | Hany Khalifa, Kirill Petrovnin, Riku Jäntti, Georghe S. Paraoanu |
Microwave Gaussian Quantum Sensing With a CNOT Gate Receiver. |
IEEE Access |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Nourallah Ghaeminezhad, Shuang Cong |
Preparation of the Hadamard and CNOT gates to realize the maximum entangled states. |
J. Frankl. Inst. |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Vlad Gheorghiu, Jiaxin Huang 0011, 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. |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Xinyu Chen, Mingqiang Zhu, Xueyun Cheng, Pengcheng Zhu 0002, Zhijin Guan |
Nearest neighbor synthesis of CNOT circuits on general quantum architectures. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Ewan Murphy, Aleks Kissinger |
Global Synthesis of CNOT Circuits with Holes. |
QPL |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Xia Liu, Huan Yang, Li Yang |
Minimizing CNOT-count in quantum circuit of the extended Shor's algorithm for ECDLP. |
Cybersecur. |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Mingqiang Zhu, Xueyun Cheng, Pengcheng Zhu 0002, Liang Chen, Zhijin Guan |
Physical constraint-aware CNOT quantum circuit synthesis and optimization. |
Quantum Inf. Process. |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Carla Piazza, Riccardo Romanello |
Synthesis of CNOT minimal quantum circuits with topological constraints through ASP. |
AIQxQIA@AI*IA |
2023 |
DBLP BibTeX RDF |
|
| 25 | Carla Piazza, Riccardo Romanello, Robert Wille |
An ASP Approach for the Synthesis of CNOT Minimal Quantum Circuits. |
CILC |
2023 |
DBLP BibTeX RDF |
|
| 25 | Kyohei Seino, Shigeru Yamashita |
An SMT-Solver-Based Synthesis of NNA-Compliant Quantum Circuits Consisting of CNOT, H and T Gates. |
ASP-DAC |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Asim Sharma, Avah Banerjee |
Mitigating CNOT Errors via Noise-aware Token Swapping. |
QCE |
2023 |
DBLP DOI BibTeX RDF |
|
| 25 | Dmitri Maslov, Willers Yang |
CNOT circuits need little help to implement arbitrary Hadamard-free Clifford transformations they generate. |
CoRR |
2022 |
DBLP DOI BibTeX RDF |
|
| 25 | Dmitri Maslov, Ben Zindorf |
Depth optimization of CZ, CNOT, and Clifford circuits. |
CoRR |
2022 |
DBLP BibTeX RDF |
|
| 25 | Arianne Meijer-van de Griend, Sarah Meng Li |
Dynamic Qubit Routing with CNOT Circuit Synthesis for Quantum Compilation. |
QPL |
2022 |
DBLP DOI BibTeX RDF |
|
| 25 | Timothée Goubault de Brugière, Marc Baboulin, Benoît Valiron, Simon Martiel, Cyril Allouche |
Decoding techniques applied to the compilation of CNOT circuits for NISQ architectures. |
CoRR |
2022 |
DBLP BibTeX RDF |
|
| 25 | Timothée Goubault de Brugière, Marc Baboulin, Benoît Valiron, Simon Martiel, Cyril Allouche |
Decoding techniques applied to the compilation of CNOT circuits for NISQ architectures. |
Sci. Comput. Program. |
2022 |
DBLP DOI BibTeX RDF |
|
| 25 | Marc Bataille |
Quantum circuits of tt CNOT gates: optimization and entanglement. |
Quantum Inf. Process. |
2022 |
DBLP DOI BibTeX RDF |
|
| 25 | Jonghyun Lee, Yujin Kang, Jinyoung Ha, Jun Heo 0002 |
Lattice surgery-based Surface Code architecture using remote logical CNOT operation. |
Quantum Inf. Process. |
2022 |
DBLP DOI BibTeX RDF |
|
| 25 | Jonghyun Lee, Jinyoung Ha, Yujin Kang, Jun Heo 0002 |
Analysis of surface code under the restricted number of CNOT gates. |
APWCS |
2022 |
DBLP DOI BibTeX RDF |
|
| 25 | Manish Kumar Mehta, Joseph Thomas Andrews, Pratima Sen |
Room temperature CNOT operation in a diluted magnetic semiconductor quantum dot. |
Quantum Inf. Process. |
2021 |
DBLP DOI BibTeX RDF |
|
| 25 | Zhiwei Song, Lin Chen, Mengyao Hu |
Constructing three-qubit unitary gates in terms of Schmidt rank and CNOT gates. |
Quantum Inf. Process. |
2021 |
DBLP DOI BibTeX RDF |
|
| 25 | Philipp Niemann 0001, Luca Müller, Rolf Drechsler |
Finding Optimal Implementations of Non-native CNOT Gates Using SAT. |
RC |
2021 |
DBLP DOI BibTeX RDF |
|
| 25 | Philipp Niemann 0001, Luca Müller, Rolf Drechsler |
Combining SWAPs and Remote CNOT Gates for Quantum Circuit Transformation. |
DSD |
2021 |
DBLP DOI BibTeX RDF |
|
| 25 | Mousum Handique, Jantindra Kumar Deka, Santosh Biswas |
A Fault Diagnosis Technique of SMGFs in $k$-CNOT Based Reversible Circuits. |
TENCON |
2021 |
DBLP DOI BibTeX RDF |
|
| 25 | Aleks Kissinger, Arianne Meijer-van de Griend |
CNOT circuit extraction for topologically-constrained quantum memories. |
Quantum Inf. Comput. |
2020 |
DBLP DOI BibTeX RDF |
|
| 25 | Shelly Garion, Andrew W. Cross |
Synthesis of CNOT-Dihedral circuits with optimal number of two qubit gates. |
Quantum |
2020 |
DBLP DOI BibTeX RDF |
|
| 25 | Chun-Wei Yang |
Efficient and secure semi-quantum secure direct communication protocol against double CNOT attack. |
Quantum Inf. Process. |
2020 |
DBLP DOI BibTeX RDF |
|
| 25 | Timothée Goubault de Brugière, Marc Baboulin, Benoît Valiron, Simon Martiel, Cyril Allouche |
Quantum CNOT Circuits Synthesis for NISQ Architectures Using the Syndrome Decoding Problem. |
RC |
2020 |
DBLP DOI BibTeX RDF |
|
| 25 | Jiaqing Jiang, Xiaoming Sun 0001, Shang-Hua Teng, Bujiao Wu, Kewen Wu 0001, Jialin Zhang 0001 |
Optimal Space-Depth Trade-Off of CNOT Circuits in Quantum Logic Synthesis. |
SODA |
2020 |
DBLP DOI BibTeX RDF |
|
| 25 | Mousum Handique, Jatindra Kumar Deka, Santosh Biswas |
A Fault Detection Scheme for Reversible Circuits using -Ve Control k-CNOT Based Circuit. |
TENCON |
2020 |
DBLP DOI BibTeX RDF |
|
| 25 | Jiaqing Jiang, Xiaoming Sun 0001, Shang-Hua Teng, Bujiao Wu, Kewen Wu 0001, Jialin Zhang 0001 |
Optimal Space-Depth Trade-Off of CNOT Circuits in Quantum Logic Synthesis. |
CoRR |
2019 |
DBLP BibTeX RDF |
|
| 25 | Alexandre A. A. de Almeida, Gerhard W. Dueck, Alexandre C. R. da Silva |
CNOT Gate Optimizations via Qubit Permutations for IBM's Quantum Architectures. |
J. Low Power Electron. |
2019 |
DBLP DOI BibTeX RDF |
|
| 25 | Amor Gueddana, Peyman Gholami, Vasudevan Lakshminarayanan |
Can a universal quantum cloner be used to design an experimentally feasible near-deterministic CNOT gate? |
Quantum Inf. Process. |
2019 |
DBLP DOI BibTeX RDF |
|
| 25 | Sergey N. Andrianov, Narkis M. Arslanov, Konstantin I. Gerasimov, Alexander A. Kalinkin, Sergey A. Moiseev |
CNOT gate on reverse photon modes in a ring cavity. |
Quantum Inf. Process. |
2019 |
DBLP DOI BibTeX RDF |
|
| 25 | J. H. Lopes, W. C. Soares, Bertúlio de Lima Bernardo, D. P. Caetano, Askery Canabarro |
Linear optical CNOT gate with orbital angular momentum and polarization. |
Quantum Inf. Process. |
2019 |
DBLP DOI BibTeX RDF |
|
| 25 | Alexandre Araujo Amaral de Almeida, Gerhard W. Dueck, Alexandre C. R. da Silva |
CNOT Gate Mappings to Clifford+T Circuits in IBM Architectures. |
ISMVL |
2019 |
DBLP DOI BibTeX RDF |
|
| 25 | V. Vijayakrishnan, S. Balakrishnan 0001 |
Correspondence between quantization schemes for two-player nonzero-sum games and CNOT complexity. |
Quantum Inf. Process. |
2018 |
DBLP DOI BibTeX RDF |
|
| 25 | Giulia Meuli, Mathias Soeken, Giovanni De Micheli |
SAT-based {CNOT, T} Quantum Circuit Synthesis. |
RC |
2018 |
DBLP DOI BibTeX RDF |
|
| 25 | Kevin D. Osborn, Waltraut Wustmann |
Ballistic Reversible Gates Matched to Bit Storage: Plans for an Efficient CNOT Gate Using Fluxons. |
RC |
2018 |
DBLP DOI BibTeX RDF |
|
| 25 | Alexandre A. A. de Almeida, Gerhard W. Dueck, Alexandre C. R. da Silva |
Efficient Realizations of CNOT gates in IBM's Quantum Computers. |
ISED |
2018 |
DBLP DOI BibTeX RDF |
|
| 25 | A. N. Nagamani, Vijetha Ravichander, Madhumita Harish, Vinod Kumar Agrawal |
DFT methodologies for testing k-CNOT, Fredkin and Peres based reversible circuits. |
RAIT |
2018 |
DBLP DOI BibTeX RDF |
|
| 25 | Martin Lukac, Kamila Abdiyeva, Michitaka Kameyama |
CNOT-Measure Quantum Neural Networks. |
ISMVL |
2018 |
DBLP DOI BibTeX RDF |
|
| 25 | Matthew Amy, Jianxin Chen, Neil J. Ross |
A finite presentation of CNOT-dihedral operators. |
QPL |
2017 |
DBLP DOI BibTeX RDF |
|
| 25 | J. Robin B. Cockett, Cole Comfort, Priyaa V. Srinivasan |
The Category CNOT. |
QPL |
2017 |
DBLP DOI BibTeX RDF |
|
| 25 | Long Zhang, Hong-Wei Sun, Ke-Jia Zhang, Heng-Yue Jia |
An improved arbitrated quantum signature protocol based on the key-controlled chained CNOT encryption. |
Quantum Inf. Process. |
2017 |
DBLP DOI BibTeX RDF |
|
| 25 | Jin-Lei Wu, Xin Ji, Shou Zhang |
Dressed-state scheme for a fast CNOT gate. |
Quantum Inf. Process. |
2017 |
DBLP DOI BibTeX RDF |
|
| 25 | Alexandru Paler |
Circular CNOT Circuits: Definition, Analysis and Application to Fault-Tolerant Quantum Circuits. |
RC |
2016 |
DBLP DOI BibTeX RDF |
|
| 25 | Feng-Guang Li, Jian-Hong Shi |
An arbitrated quantum signature protocol based on the chained CNOT operations encryption. |
Quantum Inf. Process. |
2015 |
DBLP DOI BibTeX RDF |
|
| 25 | Amor Gueddana, Rihab Chatta, Noureddine Boudriga |
Success Probability Evaluation of Quantum Circuits based on Probabilistic CNOT-Gates. |
DCNET/ICE-B/OPTICS |
2012 |
DBLP BibTeX RDF |
|
| 25 | Mark W. Coffey, Ron Deiotte |
Exact canonical decomposition of two-qubit operators in terms of CNOT. |
Quantum Inf. Process. |
2010 |
DBLP DOI BibTeX RDF |
|
| 25 | Vivek V. Shende, Igor L. Markov |
On the CNOT-cost of TOFFOLI gates. |
Quantum Inf. Comput. |
2009 |
DBLP DOI BibTeX RDF |
|
| 25 | Sara Felloni, Giuliano Strini |
An Error Model for the Cirac-Zoller cnot Gate. |
QuantumComm |
2009 |
DBLP DOI BibTeX RDF |
|
| 25 | Vivek V. Shende, Igor L. Markov |
On the CNOT-cost of TOFFOLI gates. |
CoRR |
2008 |
DBLP BibTeX RDF |
|
| 25 | Mark W. Coffey, Ron Deiotte |
Relation of operator Schmidt decomposition and CNOT complexity. |
Quantum Inf. Process. |
2008 |
DBLP DOI BibTeX RDF |
|
| 25 | Miroslava Sotáková |
The normal form of reversible circuits consisting of CNOT and NOT gates |
Electron. Colloquium Comput. Complex. |
2005 |
DBLP BibTeX RDF |
|
| 25 | Yasuhito Kawano, Kinji Kimura, Hiroshi Sekigawa, Masayuki Noro, Kiyoshi Shirayanagi, Masahiro Kitagawa, Masanao Ozawa |
Existence of the Exact CNOT on a Quantum Computer with the Exchange Interaction. |
Quantum Inf. Process. |
2005 |
DBLP DOI BibTeX RDF |
|
| 25 | Antoni Wójcik, Andrzej Grudka |
Erasure versus teleportation scheme of optical CNOT gate. |
Quantum Inf. Comput. |
2004 |
DBLP DOI BibTeX RDF |
|
| 25 | Kazuo Iwama, Shigeru Yamashita |
Transformation Rules for CNOT-based Quantum Circuits and Their Applications. |
New Gener. Comput. |
2003 |
DBLP DOI BibTeX RDF |
|
| 25 | Kai Pahlke, Lars Kroneberg, Wolfgang Mathis |
A CNOT-gate implementation for information transfer by the phonon bus. |
ISCAS |
2000 |
DBLP DOI BibTeX RDF |
|
| 20 | Dmitri Maslov, Gerhard W. Dueck, D. Michael Miller, Camille Negrevergne |
Quantum Circuit Simplification and Level Compaction. |
IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. |
2008 |
DBLP DOI BibTeX RDF |
|
| 20 | James Donald, Niraj K. Jha |
Reversible logic synthesis with Fredkin and Peres gates. |
ACM J. Emerg. Technol. Comput. Syst. |
2008 |
DBLP DOI BibTeX RDF |
Quantum computing, reversible logic |
| 20 | Raheel Allauddin, Stuart Boehmer, Elizabeth C. Behrman, Kavitha Gaddam, James Edward Steck |
Quantum Simulataneous Recurrent Networks for Content Addressable Memory. |
Quantum Inspired Intelligent Systems |
2008 |
DBLP DOI BibTeX RDF |
|
| 20 | Ehsan K. Ardestani, Morteza Saheb Zamani, Mehdi Sedighi |
A Fast Transformation-Based Synthesis Algorithm for Reversible Circuits. |
DSD |
2008 |
DBLP DOI BibTeX RDF |
|
| 20 | Julia Kempe, Oded Regev 0001, Falk Unger, Ronald de Wolf |
Upper Bounds on the Noise Threshold for Fault-Tolerant Quantum Computing. |
ICALP (1) |
2008 |
DBLP DOI BibTeX RDF |
|
| 20 | Lior Eldar, Oded Regev 0001 |
Quantum SAT for a Qutrit-Cinquit Pair Is QMA1-Complete. |
ICALP (1) |
2008 |
DBLP DOI BibTeX RDF |
|
| 20 | Harry Buhrman, Richard Cleve, Monique Laurent, Noah Linden, Alexander Schrijver, Falk Unger |
New Limits on Fault-Tolerant Quantum Computation. |
FOCS |
2006 |
DBLP DOI BibTeX RDF |
|
| 20 | Dmitri Maslov, Christina Young, D. Michael Miller, Gerhard W. Dueck |
Quantum Circuit Simplification Using Templates. |
DATE |
2005 |
DBLP DOI BibTeX RDF |
|
| 20 | Ilia Polian, Thomas Fiehn, Bernd Becker 0001, John P. Hayes |
A Family of Logical Fault Models for Reversible Circuits. |
Asian Test Symposium |
2005 |
DBLP DOI BibTeX RDF |
ATPG, fault models, quantum circuits, reversible circuits |
| 20 | Stephen A. Fenner, Frederic Green, Steven Homer, Yong Zhang 0053 |
Bounds on the Power of Constant-Depth Quantum Circuits. |
FCT |
2005 |
DBLP DOI BibTeX RDF |
|
| 20 | Dimitrios Ntalaperas, K. Theodoropoulos, Athanasios K. Tsakalidis, Nikos Konofaos |
A Quantum Computer Architecture Based on Semiconductor Recombination Statistics. |
Panhellenic Conference on Informatics |
2005 |
DBLP DOI BibTeX RDF |
|
| 20 | Vivek V. Shende, Igor L. Markov, Stephen S. Bullock |
Smaller Two-Qubit Circuits for Quantum Communication and Computation. |
DATE |
2004 |
DBLP DOI BibTeX RDF |
|
| 20 | Vivek V. Shende, Aditya K. Prasad, Igor L. Markov, John P. Hayes |
Synthesis of reversible logic circuits. |
IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. |
2003 |
DBLP DOI BibTeX RDF |
|
| 20 | Vivek V. Shende, Aditya K. Prasad, Igor L. Markov, John P. Hayes |
Reversible logic circuit synthesis. |
ICCAD |
2002 |
DBLP DOI BibTeX RDF |
|
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