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Xinyu Wu 0002
Person information
- affiliation: University of Idaho, Department of Electrical and Computer Engineering, Moscow, ID, USA
- affiliation: Boise State University, Electrical and Computer Engineering Department, ID, USA
Other persons with the same name
- Xinyu Wu (aka: Xin-Yu Wu) — disambiguation page
- Xinyu Wu 0001 (aka: Xin-Yu Wu 0001) — Chinese Academy of Sciences, Shenzhen Institutes of Advanced Technology, Guangdong Provincial Key Laboratory of Robotics and Intelligent System, China
- Xinyu Wu 0003 — Anhui University of Finance and Economics, School of Finance, Bengbu, China
- Xinyu Wu 0004 — Ulster University at Jordanstown, School of Information and Software Engineering, UK
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2010 – 2019
- 2018
- [c8]Vishal Saxena, Xinyu Wu, Kehan Zhu:
Energy-Efficient CMOS Memristive Synapses for Mixed-Signal Neuromorphic System-on-a-Chip. ISCAS 2018: 1-5 - [i6]Xinyu Wu, Vishal Saxena:
Dendritic-Inspired Processing Enables Bio-Plausible STDP in Compound Binary Synapses. CoRR abs/1801.02797 (2018) - [i5]Vishal Saxena, Xinyu Wu, Kehan Zhu:
Energy-Efficient CMOS Memristive Synapses for Mixed-Signal Neuromorphic System-on-a-Chip. CoRR abs/1802.02342 (2018) - 2017
- [c7]Xinyu Wu, Vishal Saxena:
Enabling bio-plausible multi-level STDP using CMOS neurons with dendrites and bistable RRAMs. IJCNN 2017: 3522-3526 - [c6]Kehan Zhu, Sakkarapani Balagopal, Xinyu Wu, Vishal Saxena:
Realization of a 10 GHz PLL in IBM 130 nm SiGe BiCMOS process for optical transmitter. ISCAS 2017: 1-4 - [c5]Kehan Zhu, Rui Wang, Xinyu Wu, Vishal Saxena:
Behavioral modeling and characterization of silicon photonic Mach-Zehnder modulator. MWSCAS 2017: 989-992 - [c4]Vishal Saxena, Xinyu Wu, Ira Srivastava, Kehan Zhu:
Towards spiking neuromorphic system-on-a-chip with bio-plausible synapses using emerging devices. NANOCOM 2017: 18:1-18:6 - 2016
- [c3]Kehan Zhu, Vishal Saxena, Xinyu Wu:
Modeling and optimization of the bond-wire interface in a Hybrid CMOS-photonic traveling-wave MZM transmitter. SoCC 2016: 151-156 - [i4]Xinyu Wu, Vishal Saxena:
Enabling Bio-Plausible Multi-level STDP using CMOS Neurons with Dendrites and Bistable RRAMs. CoRR abs/1612.01491 (2016) - 2015
- [j3]Xinyu Wu, Vishal Saxena, Kehan Zhu:
Homogeneous Spiking Neuromorphic System for Real-World Pattern Recognition. IEEE J. Emerg. Sel. Topics Circuits Syst. 5(2): 254-266 (2015) - [j2]Kehan Zhu, Vishal Saxena, Xinyu Wu, Wan Kuang:
Design Considerations for Traveling-Wave Modulator-Based CMOS Photonic Transmitters. IEEE Trans. Circuits Syst. II Express Briefs 62-II(4): 412-416 (2015) - [j1]Xinyu Wu, Vishal Saxena, Kehan Zhu, Sakkarapani Balagopal:
A CMOS Spiking Neuron for Brain-Inspired Neural Networks With Resistive Synapses and In Situ Learning. IEEE Trans. Circuits Syst. II Express Briefs 62-II(11): 1088-1092 (2015) - [c2]Xinyu Wu, Vishal Saxena, Kehan Zhu:
A CMOS spiking neuron for dense memristor-synapse connectivity for brain-inspired computing. IJCNN 2015: 1-6 - [c1]Kehan Zhu, Vishal Saxena, Xinyu Wu:
A comprehensive design approach for a MZM based PAM-4 silicon photonic transmitter. MWSCAS 2015: 1-4 - [i3]Xinyu Wu, Vishal Saxena, Kehan Zhu, Sakkarapani Balagopal:
A CMOS Spiking Neuron for Brain-Inspired Neural Networks with Resistive Synapses and In-Situ Learning. CoRR abs/1505.07814 (2015) - [i2]Xinyu Wu, Vishal Saxena, Kehan Zhu:
A CMOS Spiking Neuron for Dense Memristor-Synapse Connectivity for Brain-Inspired Computing. CoRR abs/1506.01069 (2015) - [i1]Xinyu Wu, Vishal Saxena, Kehan Zhu:
Homogeneous Spiking Neuromorphic System for Real-World Pattern Recognition. CoRR abs/1506.01072 (2015)
Coauthor Index
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