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Craig S. Lent
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2020 – today
- 2022
- [j9]Brendan J. Mahoney, Craig S. Lent:
The Value of the Early-Time Lieb-Robinson Correlation Function for Qubit Arrays. Symmetry 14(11): 2253 (2022) - 2020
- [j8]Craig S. Lent:
Blind Witnesses Quench Quantum Interference without Transfer of Which-Path Information. Entropy 22(7): 776 (2020)
2010 – 2019
- 2016
- [c9]César O. Campos-Aguillón, Rene Celis-Cordova, Ismo K. Hänninen, Craig S. Lent, Alexei O. Orlov, Gregory L. Snider:
A Mini-MIPS microprocessor for adiabatic computing. ICRC 2016: 1-7 - [c8]Craig S. Lent, Kenneth W. Henderson, S. Alex Kandel, Steven A. Corcelli, Gregory L. Snider, Alexei O. Orlov, Peter M. Kogge, Michael T. Niemier, Ryan C. Brown, John A. Christie, Natalie A. Wasio, Rebecca C. Quardokus, Ryan P. Forrest, Jacob P. Peterson, Angela Silski, David A. Turner, Enrique P. Blair, Yuhui Lu:
Molecular cellular networks: A non von Neumann architecture for molecular electronics. ICRC 2016: 1-7 - 2014
- [j7]Ismo Hänninen, Craig S. Lent, Gregory L. Snider:
Quantifying Irreversible Information Loss in Digital Circuits. ACM J. Emerg. Technol. Comput. Syst. 11(2): 10:1-10:17 (2014) - [j6]Ismo Hänninen, Gregory L. Snider, Craig S. Lent:
Adiabatic CMOS: Limits of Reversible Energy Recovery and First Steps for Design Automation. Trans. Comput. Sci. 24: 1-20 (2014) - [p2]Craig S. Lent, Gregory L. Snider:
The Development of Quantum-Dot Cellular Automata. Field-Coupled Nanocomputing 2014: 3-20 - [p1]Ismo Hänninen, Hao Lu, Enrique P. Blair, Craig S. Lent, Gregory L. Snider:
Reversible and Adiabatic Computing: Energy-Efficiency Maximized. Field-Coupled Nanocomputing 2014: 341-356 - 2013
- [c7]Ismo Hänninen, Craig S. Lent, Gregory L. Snider:
Models of irreversibility for binary adders. MWSCAS 2013: 1071-1074 - [c6]Ismo Hänninen, Hao Lu, Craig S. Lent, Gregory L. Snider:
Energy Recovery and Logical Reversibility in Adiabatic CMOS Multiplier. RC 2013: 25-35 - 2011
- [c5]Ismo Hänninen, Jarmo Takala, Craig S. Lent:
Irreversible bit erasures in binary multipliers. ISCAS 2011: 2369-2372
2000 – 2009
- 2007
- [j5]Mo Liu, Craig S. Lent:
Reliability and Defect Tolerance in Metallic Quantum-dot Cellular Automata. J. Electron. Test. 23(2-3): 211-218 (2007) - [j4]André DeHon, Craig S. Lent, Fabrizio Lombardi:
Introduction to the Special Section on Nano Systems and Computing. IEEE Trans. Computers 56(2): 145-146 (2007) - 2006
- [c4]Craig S. Lent:
Molecular quantum-dot cellular automata. SiPS 2006 - 2005
- [j3]Ravi K. Kummamuru, Mo Liu, Alexei O. Orlov, Craig S. Lent, Gary H. Bernstein, Gregory L. Snider:
Temperature dependence of the locked mode in a single-electron latch. Microelectron. J. 36(3-6): 304-307 (2005) - [c3]Craig S. Lent, Sarah E. Frost, Peter M. Kogge:
Reversible computation with quantum-dot cellular automata (QCA). Conf. Computing Frontiers 2005: 403 - 2000
- [c2]Costa Gerousis, Stephen M. Goodnick, Xiaohui Wang, Wolfgang Porod, Árpád Csurgay, Géza Tóth, Craig S. Lent:
Modeling nanoelectronic CNN cells: CMOS, SETs and QCAs. ISCAS 2000
1990 – 1999
- 1999
- [c1]Árpád Csurgay, Craig S. Lent, Wolfgang Porod:
Why is Time-Varying Control Necessary for Signal Processing with Locally-Connected Quantum-Dot Arrays? Great Lakes Symposium on VLSI 1999: 122- - 1998
- [j2]Zhi-An Shao, Wolfgang Porod, Craig S. Lent:
2D Finite Element Method Simulation of Lateral Resonant Tunneling Devices. VLSI Design 6(1-4): 131-135 (1998) - 1997
- [j1]Craig S. Lent, P. Douglas Tougaw:
A device architecture for computing with quantum dots. Proc. IEEE 85(4): 541-557 (1997)
Coauthor Index
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