In-memory computing with resistive switching devices D Ielmini, HSP Wong Nature electronics 1 (6), 333-343, 2018 | 1797 | 2018 |
Phase change materials and their application to nonvolatile memories S Raoux, W Wełnic, D Ielmini Chemical reviews 110 (1), 240-267, 2010 | 952 | 2010 |
Resistive switching memories based on metal oxides: mechanisms, reliability and scaling D Ielmini Semiconductor Science and Technology 31 (6), 063002, 2016 | 941 | 2016 |
Analytical model for subthreshold conduction and threshold switching in chalcogenide-based memory devices D Ielmini, Y Zhang Journal of Applied Physics 102 (5), 2007 | 700 | 2007 |
Modeling the universal set/reset characteristics of bipolar RRAM by field-and temperature-driven filament growth D Ielmini IEEE Transactions on Electron Devices 58 (12), 4309-4317, 2011 | 636 | 2011 |
Recommended methods to study resistive switching devices M Lanza, HSP Wong, E Pop, D Ielmini, D Strukov, BC Regan, L Larcher, ... Advanced Electronic Materials 5 (1), 1800143, 2019 | 630 | 2019 |
Resistive switching: from fundamentals of nanoionic redox processes to memristive device applications D Ielmini, R Waser John Wiley & Sons, 2015 | 593 | 2015 |
Resistive switching by voltage-driven ion migration in bipolar RRAM—Part II: Modeling S Larentis, F Nardi, S Balatti, DC Gilmer, D Ielmini IEEE Transactions on Electron Devices 59 (9), 2468-2475, 2012 | 558 | 2012 |
Self-accelerated thermal dissolution model for reset programming in unipolar resistive-switching memory (RRAM) devices U Russo, D Ielmini, C Cagli, AL Lacaita IEEE Transactions on Electron Devices 56 (2), 193-200, 2009 | 524 | 2009 |
Reliability study of phase-change nonvolatile memories A Pirovano, A Redaelli, F Pellizzer, F Ottogalli, M Tosi, D Ielmini, ... IEEE Transactions on Device and Materials Reliability 4 (3), 422-427, 2004 | 509 | 2004 |
2022 roadmap on neuromorphic computing and engineering DV Christensen, R Dittmann, B Linares-Barranco, A Sebastian, ... Neuromorphic Computing and Engineering 2 (2), 022501, 2022 | 456 | 2022 |
Filament conduction and reset mechanism in NiO-based resistive-switching memory (RRAM) devices U Russo, D Ielmini, C Cagli, AL Lacaita IEEE Transactions on Electron Devices 56 (2), 186-192, 2009 | 440 | 2009 |
Threshold switching mechanism by high-field energy gain in the hopping transport of chalcogenide glasses D Ielmini Physical Review B—Condensed Matter and Materials Physics 78 (3), 035308, 2008 | 410 | 2008 |
Study of multilevel programming in programmable metallization cell (PMC) memory U Russo, D Kamalanathan, D Ielmini, AL Lacaita, MN Kozicki IEEE transactions on electron devices 56 (5), 1040-1047, 2009 | 379 | 2009 |
Electronic switching effect and phase-change transition in chalcogenide materials A Redaelli, A Pirovano, F Pellizzer, AL Lacaita, D Ielmini, R Bez IEEE Electron Device Letters 25 (10), 684-686, 2004 | 365 | 2004 |
Electrothermal and phase-change dynamics in chalcogenide-based memories AL Lacaita, A Redaelli, D Ielmini, F Pellizzer, A Pirovano, A Benvenuti, ... IEDM Technical Digest. IEEE International Electron Devices Meeting, 2004 …, 2004 | 335 | 2004 |
Recovery and drift dynamics of resistance and threshold voltages in phase-change memories D Ielmini, AL Lacaita, D Mantegazza IEEE Transactions on Electron Devices 54 (2), 308-315, 2007 | 333 | 2007 |
Brain-inspired computing with resistive switching memory (RRAM): Devices, synapses and neural networks D Ielmini Microelectronic Engineering 190, 44-53, 2018 | 314 | 2018 |
In materia reservoir computing with a fully memristive architecture based on self-organizing nanowire networks G Milano, G Pedretti, K Montano, S Ricci, S Hashemkhani, L Boarino, ... Nature materials 21 (2), 195-202, 2022 | 312 | 2022 |
Emerging neuromorphic devices D Ielmini, S Ambrogio Nanotechnology 31 (9), 092001, 2019 | 290 | 2019 |