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Kang L. Wang
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2020 – today
- 2024
- [i6]Yang Cheng, Qingyuan Shu, Albert Lee, Haoran He, Ivy Zhu, Haris Suhail, Minzhang Chen, Renhe Chen, Zirui Wang, Hantao Zhang, Chih-Yao Wang, Shan-Yi Yang, Yu-Chen Hsin, Cheng-Yi Shih, Hsin-Han Lee, Ran Cheng, Sudhakar Pamarti, Xufeng Kou, Kang L. Wang:
Voltage-Controlled Magnetoelectric Devices for Neuromorphic Diffusion Process. CoRR abs/2407.12261 (2024) - 2023
- [j14]Hangtian Wang, Koichi Murata, Weiran Xie, Jing Li, Jie Zhang, Kang L. Wang, Weisheng Zhao, Tianxiao Nie:
Proximity-induced magnetic order in topological insulator on ferromagnetic semiconductor. Sci. China Inf. Sci. 66(12) (2023) - [c23]Haris Suhail, Jiyue Yang, Haoran He, Kang L. Wang, Sudhakar Pamarti
:
Analytical Array-Level Comparison of Read/Write Performance Between Voltage Controlled-MRAM and STT-MRAM. MWSCAS 2023: 326-330 - 2022
- [i5]Prayash Dutta, Albert Lee, Kang L. Wang, Alex K. Jones
A Multi-domain Magneto Tunnel Junction for Racetrack Nanowire Strips. CoRR abs/2205.12494 (2022) - [i4]Yuting Liu, Albert Lee, Kun Qian, Peng Zhang, Haoran He, Zheyu Ren, Shun Kong Cheung, Yaoyin Li, Xu Zhang, Zichao Ma, Zhihua Xiao, Guoqiang Yu, Xin Wang, Junwei Liu, Zhongrui Wang, Kang L. Wang, Qiming Shao:
Cryogenic in-memory computing using tunable chiral edge states. CoRR abs/2209.09443 (2022) - 2021
- [j13]Shaodi Wang
Adaptive MRAM Write and Read with MTJ Variation Monitor. IEEE Trans. Emerg. Top. Comput. 9(1): 402-413 (2021) - [c22]Jiyue Yang, Di Wu, Albert Lee, Seyed Armin Razavi, Puneet Gupta
A Calibration-Free In-Memory True Random Number Generator Using Voltage-Controlled MRAM. ESSCIRC 2021: 115-118 - [c21]Jiyue Yang, Di Wu, Albert Lee, Seyed Armin Razavi, Puneet Gupta, Kang L. Wang, Sudhakar Pamarti
A Calibration-Free In-Memory True Random Number Generator Using Voltage-Controlled MRAM. ESSDERC 2021: 115-118 - [c20]Hao-Yuan Chang
Deep Unitary Convolutional Neural Networks. ICANN (2) 2021: 170-181 - [i3]Albert Lee, Bingqian Dai, Di Wu, Hao Wu, Robert N. Schwartz, Kang L. Wang:
A Thermodynamic Core using Voltage-Controlled Spin-Orbit-Torque Magnetic Tunnel Junctions. CoRR abs/2101.03448 (2021) - [i2]Hao-Yuan Chang, Kang L. Wang:
Deep Convolutional Neural Networks with Unitary Weights. CoRR abs/2102.11855 (2021) - [i1]Albert Lee, Kang L. Wang:
Max and Coincidence Neurons in Neural Networks. CoRR abs/2110.01218 (2021) - 2020
- [j12]Igor V. Ovchinnikov
Criticality or Supersymmetry Breaking? Symmetry 12(5): 805 (2020) - [j11]Albert Lee
A 2-D Calibration Scheme for Resistive Nonvolatile Memories. IEEE Trans. Very Large Scale Integr. Syst. 28(6): 1371-1377 (2020)
2010 – 2019
- 2019
- [c19]Qingzhou Wan, Peng Zhang
Dynamic $(\mathrm{Bi}_{\mathrm{x}}\mathrm{Sb}_{1-\mathrm{x}})_{2}\mathrm{Te}_{\mathrm{3}}$ Synaptic Devices with Programmable Spatio-Temporal Responses. DRC 2019: 213-214 - 2018
- [j10]Wenyuan Li, Igor V. Ovchinnikov, Honglin Chen, Zhe Wang, Albert Lee, Houchul Lee, Carlos Cepeda, Robert N. Schwartz, Karlheinz Meier, Kang L. Wang:
A Basic Phase Diagram of Neuronal Dynamics. Neural Comput. 30(9) (2018) - [c18]Qiming Shao, Guoqiang Yu
Large Room Temperature Charge-to-Spin Conversion Efficiency in Topological Insulator/CoFeB bilayers. DRC 2018: 1-2 - [c17]Kang L. Wang:
Recent Progress in Spintronics and Devices. DRC 2018: 1-2 - 2017
- [j9]Hochul Lee
A Word Line Pulse Circuit Technique for Reliable Magnetoelectric Random Access Memory. IEEE Trans. Very Large Scale Integr. Syst. 25(7): 2027-2034 (2017) - [c16]Shaodi Wang, Saptadeep Pal, Tianmu Li, Andrew Pan
Hybrid VC-MTJ/CMOS non-volatile stochastic logic for efficient computing. DATE 2017: 1438-1443 - 2016
- [j8]Shaodi Wang, Hochul Lee, Farbod Ebrahimi
Comparative Evaluation of Spin-Transfer-Torque and Magnetoelectric Random Access Memory. IEEE J. Emerg. Sel. Topics Circuits Syst. 6(2): 134-145 (2016) - [j7]Kang L. Wang, Xufeng Kou
Electric-Field Control of Spin-Orbit Interaction for Low-Power Spintronics. Proc. IEEE 104(10): 1974-2008 (2016) - [c15]Shaodi Wang, Hochul Lee, Cecile Grezes, Pedram Khalili
MTJ variation monitor-assisted adaptive MRAM write. DAC 2016: 169:1-169:6 - [c14]Kang L. Wang, Hochul Lee, Farbod Ebrahimi
Ultra-low-power, high-density spintronic programmable logic (SPL). ISCAS 2016: 169-172 - 2014
- [c13]Mirko Poljak
Impact of microstrip width and annealing time on the characteristics of micro-scale graphene FETs. MIPRO 2014: 27-32 - 2013
- [j6]Guangyu Xu
Variability Effects in Graphene: Challenges and Opportunities for Device Engineering and Applications. Proc. IEEE 101(7): 1670-1688 (2013) - 2012
- [j5]Mei Xue, Kang L. Wang:
Molecular Rotors as Switches. Sensors 12(9): 11612-11637 (2012) - [c12]Mirko Poljak
Effects of disorder on transport properties of extremely scaled graphene nanoribbons. ESSDERC 2012: 298-301 - [c11]J. G. Alzate, Parag Upadhyaya, M. Lewis, J. Nath, Y. T. Lin, Kin Wong, S. Cherepov, P. Khalili Amiri, Kang L. Wang, J. Hockel, A. Bur, Gregory P. Carman, S. Bender, Y. Tserkovnyak, J. Zhu, Y.-J. Chen, I. N. Krivorotov, J. Katine, J. Langer, Prasad Shabadi, Santosh Khasanvis, Sankara Narayanan Rajapandian, Csaba Andras Moritz, Alexander Khitun:
Spin wave nanofabric update. NANOARCH 2012: 196-202 - 2011
- [c10]Prasad Shabadi, Alexander Khitun, Kin Wong, P. Khalili Amiri
Spin wave functions nanofabric update. NANOARCH 2011: 107-113 - 2010
- [c9]Prasad Shabadi, Alexander Khitun, Pritish Narayanan, Mingqiang Bao, Israel Koren, Kang L. Wang, Csaba Andras Moritz:
Towards logic functions as the device. NANOARCH 2010: 11-16
2000 – 2009
- 2008
- [j4]Kang L. Wang, Kosmas Galatsis, Roman Ostroumov, Alexander Khitun, Zuoming Zhao, Song Han:
Nanoarchitectonics for Heterogeneous Integrated Nanosystems. Proc. IEEE 96(2): 212-229 (2008) - [c8]Xiaobo Sharon Hu
Design and defect tolerance beyond CMOS. CODES+ISSS 2008: 223-230 - [c7]Roman Ostroumov, Kang L. Wang:
On Power Dissipation in Information Processing. ITNG 2008: 1094-1097 - [c6]Alexander Khitun, Mingqiang Bao, Yina Wu, Ji-Young Kim, Augustin Hong, Ajey P. Jacob, Kosmas Galatsis, Kang L. Wang:
Spin Wave Logic Circuit on Silicon Platform. ITNG 2008: 1107-1110 - 2007
- [j3]Mary Mehrnoosh Eshaghian-Wilner, Alexander Khitun, Shiva Navab, Kang L. Wang:
The spin-wave nanoscale reconfigurable mesh and the labeling problem. ACM J. Emerg. Technol. Comput. Syst. 3(2): 5 (2007) - [j2]Kang L. Wang, Dongho Cha, Jianlin Liu
Ge/Si Self-Assembled Quantum Dots and Their Optoelectronic Device Applications. Proc. IEEE 95(9): 1866-1883 (2007) - [c5]Alexander Khitun, Mingqiang Bao, Jooyoung Lee, Kang L. Wang, D. W. Lee, S. Wang:
Cellular Nonlinear Network with Spin Wave Bus. ITNG 2007: 915-919 - 2006
- [j1]Jooyoung Lee, Mao-Nan Chang, Kang L. Wang:
Size dependence of hall mobility and dislocation density in Ge heteroepitaxial layers grown by MBE on a SiO2 patterned Si template. Microelectron. J. 37(12): 1523-1527 (2006) - [c4]Mary Mehrnoosh Eshaghian-Wilner, Alexander Khitun, Shiva Navab, Kang L. Wang:
Hierarchical Multi-Scale Architectures with Spin Waves. CDES 2006: 220-226 - [c3]Mary Mehrnoosh Eshaghian-Wilner, Alexander Khitun, Shiva Navab, Kang L. Wang:
A nano-scale reconfigurable mesh with spin waves. Conf. Computing Frontiers 2006: 65-70 - [c2]Alexander Khitun, Kang L. Wang:
Nano Logic Circuits with Spin Wave Bus. ITNG 2006: 747-752 - [p1]Mary Mehrnoosh Eshaghian-Wilner, Amar H. Flood, Alexander Khitun, J. Fraser Stoddart, Kang L. Wang:
Molecular and Nanoscale Computing and Technology. Handbook of Nature-Inspired and Innovative Computing 2006: 477-509
1990 – 1999
- 1998
- [c1]Alexander A. Balandin, Kang L. Wang:
Implementation of Quantum Controlled-NOT Gates Using Asymmetric Semiconductor Quantum Dots. QCQC 1998: 460-467
Coauthor Index
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