2008 |
14 | EE | Konstantin Likharev:
Defect-Tolerant Hybrid CMOS/Nanoelectronic Circuits.
DFT 2008: 504-504 |
2007 |
13 | EE | Xiaolong Ma,
Konstantin Likharev:
Global Reinforcement Learning in Neural Networks.
IEEE Transactions on Neural Networks 18(2): 573-577 (2007) |
2006 |
12 | | Dmitri B. Strukov,
Konstantin Likharev:
CMOL FPGA circuits.
CDES 2006: 213-219 |
11 | EE | Dmitri B. Strukov,
Konstantin Likharev:
A reconfigurable architecture for hybrid CMOS/Nanodevice circuits.
FPGA 2006: 131-140 |
10 | EE | Jung Hoon Lee,
Konstantin Likharev:
In Situ Training of CMOL CrossNets.
IJCNN 2006: 2749-2756 |
9 | EE | Xiaolong Ma,
Konstantin Likharev:
Global Reinforcement Learning in Neural Networks with Stochastic Synapses.
IJCNN 2006: 47-53 |
2005 |
8 | | André DeHon,
Konstantin Likharev:
Hybrid CMOS/nanoelectronic digital circuits: devices, architectures, and design automation.
ICCAD 2005: 375-382 |
7 | EE | Jung Hoon Lee,
Konstantin Likharev:
CMOL CrossNets as Pattern Classifiers.
IWANN 2005: 446-454 |
6 | EE | Jung Hoon Lee,
Xiaolong Ma,
Konstantin Likharev:
CMOL CrossNets: Possible Neuromorphic Nanoelectronic Circuits.
NIPS 2005 |
5 | EE | Özgür Türel,
Jung Hoon Lee,
Xiaolong Ma,
Konstantin Likharev:
Architectures for nanoelectronic implementation of artificial neural networks: new results.
Neurocomputing 64: 271-283 (2005) |
2004 |
4 | EE | Özgür Türel,
Jung Hoon Lee,
Xiaolong Ma,
Konstantin Likharev:
Architectures for Nanoelectronic Neural Networks: New Results.
ESANN 2004: 423-428 |
2003 |
3 | EE | Özgür Türel,
Konstantin Likharev:
CrossNets: Neuromorphic Networks for Nanoelectronic Implementation.
ICANN 2003: 753-762 |
2000 |
2 | | Alexander N. Korotkov,
Konstantin Likharev:
New Prospects for Electrostatic Data Storage Systems.
IEEE Symposium on Mass Storage Systems 2000: 197-202 |
1999 |
1 | | Mikhail N. Dorojevets,
Konstantin Likharev:
Ultra High-Speed Superconductor System Design: Phase 2.
HPCN Europe 1999: 1179-1182 |