Bis-ferrocene molecular QCA wire: Ab initio simulations of fabrication driven fault tolerance A Pulimeno, M Graziano, A Sanginario, V Cauda, D Demarchi, G Piccinini IEEE transactions on nanotechnology 12 (4), 498-507, 2013 | 93 | 2013 |
An NCL-HDL snake-clock-based magnetic QCA architecture M Graziano, M Vacca, A Chiolerio, M Zamboni IEEE Transactions on nanotechnology 10 (5), 1141-1149, 2011 | 79 | 2011 |
New logic-in-memory paradigms: An architectural and technological perspective G Santoro, G Turvani, M Graziano Micromachines 10 (6), 368, 2019 | 73 | 2019 |
Towards a molecular QCA wire: Simulation of write-in and read-out systems A Pulimeno, M Graziano, D Demarchi, G Piccinini Solid-State Electronics 77, 101-107, 2012 | 72 | 2012 |
Topolinano: a cad tool for nano magnetic logic F Riente, G Turvani, M Vacca, MR Roch, M Zamboni, M Graziano IEEE Transactions on Computer-Aided Design of Integrated Circuits and …, 2017 | 58 | 2017 |
Quantum dot cellular automata check node implementation for LDPC decoders M Awais, M Vacca, M Graziano, MR Roch, G Masera IEEE transactions on nanotechnology 12 (3), 368-377, 2013 | 56 | 2013 |
Majority voter full characterization for nanomagnet logic circuits M Vacca, M Graziano, M Zamboni IEEE transactions on nanotechnology 11 (5), 940-947, 2012 | 55 | 2012 |
MagCAD: tool for the design of 3-D magnetic circuits F Riente, U Garlando, G Turvani, M Vacca, MR Roch, M Graziano IEEE Journal on Exploratory Solid-State Computational Devices and Circuits 3 …, 2017 | 50 | 2017 |
Magnetoelastic clock system for nanomagnet logic M Vacca, M Graziano, L Di Crescenzo, A Chiolerio, A Lamberti, D Balma, ... IEEE Transactions on nanotechnology 13 (5), 963-973, 2014 | 42 | 2014 |
Effectiveness of molecules for quantum cellular automata as computing devices Y Ardesi, A Pulimeno, M Graziano, F Riente, G Piccinini Journal of Low Power Electronics and Applications 8 (3), 24, 2018 | 40 | 2018 |
Asynchrony in quantum-dot cellular automata nanocomputation: Elixir or poison? M Graziano, M Vacca, D Blua, M Zamboni IEEE Design & Test of Computers 28 (5), 72-83, 2011 | 40 | 2011 |
UDSM trends comparison: From technology roadmap to UltraSparc Niagara2 A Pulimeno, M Graziano, G Piccinini IEEE transactions on very large scale integration (VLSI) systems 20 (7 …, 2011 | 39 | 2011 |
Effect of a clock system on bis-ferrocene molecular QCA R Wang, A Pulimeno, MR Roch, G Turvani, G Piccinini, M Graziano IEEE Transactions on Nanotechnology 15 (4), 574-582, 2016 | 37 | 2016 |
Nanomagnetic logic microprocessor: Hierarchical power model M Vacca, M Graziano, M Zamboni IEEE Transactions on very large scale integration (VLSI) systems 21 (8 …, 2012 | 37 | 2012 |
Feedbacks in QCA: A quantitative approach M Vacca, J Wang, M Graziano, MR Roch, M Zamboni IEEE Transactions on Very Large Scale Integration (VLSI) Systems 23 (10 …, 2014 | 36 | 2014 |
Nanomagnet logic: an architectural level overview M Vacca, M Graziano, J Wang, F Cairo, G Causapruno, G Urgese, A Biroli, ... Field-Coupled Nanocomputing: Paradigms, Progress, and Perspectives, 223-256, 2014 | 36 | 2014 |
Asynchronous solutions for nanomagnetic logic circuits M Vacca, M Graziano, M Zamboni ACM Journal on Emerging Technologies in Computing Systems (JETC) 7 (4), 1-18, 2011 | 36 | 2011 |
Logic-in-memory architecture made real D Pala, G Causapruno, M Vacca, F Riente, G Turvani, M Graziano, ... 2015 IEEE International Symposium on Circuits and Systems (ISCAS), 1542-1545, 2015 | 32 | 2015 |
Logic-in-memory: A nano magnet logic implementation M Cofano, G Santoro, M Vacca, D Pala, G Causapruno, F Cairo, F Riente, ... 2015 IEEE Computer Society Annual Symposium on VLSI, 286-291, 2015 | 31 | 2015 |
A technology aware magnetic QCA NCL-HDL architecture M Graziano, A Chiolerio, M Zamboni 2009 9th IEEE Conference on Nanotechnology (IEEE-NANO), 763-766, 2009 | 30 | 2009 |