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Konstantin Likharev
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- affiliation: Stony Brook University, NY, USA
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2010 – 2019
- 2018
- [j12]Farnood Merrikh-Bayat, Xinjie Guo, Michael Klachko, Mirko Prezioso, Konstantin K. Likharev, Dmitri B. Strukov:
High-Performance Mixed-Signal Neurocomputing With Nanoscale Floating-Gate Memory Cell Arrays. IEEE Trans. Neural Networks Learn. Syst. 29(10): 4782-4790 (2018) - 2017
- [i5]Dmitri Gavrilov, Dmitri B. Strukov, Konstantin K. Likharev:
Capacity, Fidelity, and Noise Tolerance of Associative Spatial-Temporal Memories Based on Memristive Neuromorphic Network. CoRR abs/1707.03855 (2017) - 2016
- [c18]Mirko Prezioso, Y. Zhong, D. Gavrilov, Farnood Merrikh-Bayat, Brian Hoskins, Gina C. Adam, Konstantin K. Likharev, Dmitri B. Strukov:
Spiking neuromorphic networks with metal-oxide memristors. ISCAS 2016: 177-180 - [i4]Farnood Merrikh-Bayat, Xinjie Guo, Michael Klachko, Mirko Prezioso, Konstantin K. Likharev, Dmitri B. Strukov:
Sub-1-us, Sub-20-nJ Pattern Classification in a Mixed-Signal Circuit Based on Embedded 180-nm Floating-Gate Memory Cell Arrays. CoRR abs/1610.02091 (2016) - 2015
- [c17]Farnood Merrikh-Bayat, Xinjie Guo, H. A. Ommani, N. Do, Konstantin K. Likharev, Dmitri B. Strukov:
Redesigning commercial floating-gate memory for analog computing applications. ISCAS 2015: 1921-1924 - [i3]Mirko Prezioso, Farnood Merrikh-Bayat, Brian Hoskins, Konstantin K. Likharev, Dmitri B. Strukov:
Self-Adaptive Spike-Time-Dependent Plasticity of Metal-Oxide Memristors. CoRR abs/1505.05549 (2015) - 2014
- [j11]Thomas John Walls, Konstantin K. Likharev:
Self-Organization in Autonomous, Recurrent, Firing-Rate CrossNets With Quasi-Hebbian Plasticity. IEEE Trans. Neural Networks Learn. Syst. 25(4): 819-824 (2014) - [i2]Farnood Merrikh-Bayat, Xinjie Guo, H. A. Ommani, N. Do, Konstantin K. Likharev, Dmitri B. Strukov:
Redesigning Commercial Floating-Gate Memory for Analog Computing Applications. CoRR abs/1410.4781 (2014) - [i1]Mirko Prezioso, Farnood Merrikh-Bayat, Brian Hoskins, Gina C. Adam, Konstantin K. Likharev, Dmitri B. Strukov:
Training and Operation of an Integrated Neuromorphic Network Based on Metal-Oxide Memristors. CoRR abs/1412.0611 (2014)
2000 – 2009
- 2009
- [c16]Konstantin K. Likharev:
Biologically Inspired Computing in CMOL CrossNets. AAAI Fall Symposium: Biologically Inspired Cognitive Architectures 2009 - 2008
- [j10]Konstantin K. Likharev:
CMOL: Second life for silicon. Microelectron. J. 39(2): 177-183 (2008) - [c15]Xiaobo Sharon Hu, Alexander Khitun, Konstantin K. Likharev, Michael T. Niemier, Mingqiang Bao, Kang L. Wang:
Design and defect tolerance beyond CMOS. CODES+ISSS 2008: 223-230 - [c14]Konstantin Likharev:
Defect-Tolerant Hybrid CMOS/Nanoelectronic Circuits. DFT 2008: 504-504 - 2007
- [j9]Jung Hoon Lee, Konstantin K. Likharev:
Defect-tolerant nanoelectronic pattern classifiers. Int. J. Circuit Theory Appl. 35(3): 239-264 (2007) - [j8]Xiaolong Ma, Konstantin Likharev:
Global Reinforcement Learning in Neural Networks. IEEE Trans. Neural Networks 18(2): 573-577 (2007) - [c13]Dmitri B. Strukov, Konstantin K. Likharev:
Prospects for the development of digital CMOL circuits. NANOARCH 2007: 109-116 - 2006
- [c12]Dmitri B. Strukov, Konstantin K. Likharev:
CMOL FPGA circuits. CDES 2006: 213-219 - [c11]Dmitri B. Strukov, Konstantin K. Likharev:
A reconfigurable architecture for hybrid CMOS/Nanodevice circuits. FPGA 2006: 131-140 - [c10]Xiaolong Ma, Konstantin Likharev:
Global Reinforcement Learning in Neural Networks with Stochastic Synapses. IJCNN 2006: 47-53 - [c9]Jung Hoon Lee, Konstantin Likharev:
In Situ Training of CMOL CrossNets. IJCNN 2006: 2749-2756 - 2005
- [j7]Özgür Türel, Jung Hoon Lee, Xiaolong Ma, Konstantin Likharev:
Architectures for nanoelectronic implementation of artificial neural networks: new results. Neurocomputing 64: 271-283 (2005) - [c8]Konstantin K. Likharev:
CMOL: possible hybrid semiconductor/nanodevice circuits. ECCTD 2005: 237-238 - [c7]André DeHon, Konstantin Likharev:
Hybrid CMOS/nanoelectronic digital circuits: devices, architectures, and design automation. ICCAD 2005: 375-382 - [c6]Jung Hoon Lee, Konstantin Likharev:
CMOL CrossNets as Pattern Classifiers. IWANN 2005: 446-454 - [c5]Jung Hoon Lee, Xiaolong Ma, Konstantin Likharev:
CMOL CrossNets: Possible Neuromorphic Nanoelectronic Circuits. NIPS 2005: 755-762 - 2004
- [j6]Özgür Türel, Jung Hoon Lee, Xiaolong Ma, Konstantin K. Likharev:
Neuromorphic architectures for nanoelectronic circuits. Int. J. Circuit Theory Appl. 32(5): 277-302 (2004) - [c4]Özgür Türel, Jung Hoon Lee, Xiaolong Ma, Konstantin Likharev:
Architectures for Nanoelectronic Neural Networks: New Results. ESANN 2004: 423-428 - 2003
- [j5]Özgür Türel, Konstantin Likharev:
CrossNets: possible neuromorphic networks based on nanoscale components. Int. J. Circuit Theory Appl. 31(1): 37-53 (2003) - [c3]Özgür Türel, Konstantin Likharev:
CrossNets: Neuromorphic Networks for Nanoelectronic Implementation. ICANN 2003: 753-762 - 2000
- [c2]Alexander N. Korotkov, Konstantin Likharev:
New Prospects for Electrostatic Data Storage Systems. IEEE Symposium on Mass Storage Systems 2000: 197-202
1990 – 1999
- 1999
- [j4]Konstantin K. Likharev:
Single-electron devices and their applications. Proc. IEEE 87(4): 606-632 (1999) - [c1]Mikhail N. Dorojevets, Konstantin Likharev:
Ultra High-Speed Superconductor System Design: Phase 2. HPCN Europe 1999: 1179-1182 - 1998
- [j3]Konstantin K. Likharev, Alexander N. Korotkov:
Single-Electron Parametron. VLSI Design 6(1-4): 43-46 (1998) - [j2]Leonardo R. C. Fonseca, Alexander N. Korotkov, Konstantin K. Likharev:
SENECA: a New Program for the Analysis of Single-Electron Devices. VLSI Design 6(1-4): 57-60 (1998) - [j1]Konstantin K. Likharev, Alexander N. Korotkov:
Analysis of Q0-Independent Single-Electron Systems. VLSI Design 6(1-4): 341-344 (1998)
Coauthor Index
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