Wednesday, March 25, 2020
8:45am–10:10am |
Keynote Speech: |
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9:00am–9:35am | Active Learning for Fast, Comprehensive SPICE Verification Jeff Dyck - Engineering Director, Mentor, a Siemens Business |
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9:35am–10:10am | Re-Engineering Computing with Neuro-Inspired Learning: Devices, Circuits, and Systems Prof. Kaushik Roy - Edward G. Tiedemann Jr. Distinguished Professor,Purdue University |
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10:10am-10:15am |
Best Paper Awards (Sponsored by Synopsys) |
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10:25am–11:45am |
PUF and Security in Emerging Systems
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Artificial Intelligence for Hardware Security
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Reliable Electronics: From EM to Approximate Computing |
Magnets and Spins for Better Memory
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12:00pm–12:35pm | Keynote Speech: Spintronic Devices for Memory, Logic, and Neuromorphic Computing Joseph S. Friedman - Assistant Professor, Director of the NeuroSpinCompute Laboratory, Department of Electrical & Computer Engineering , The University of Texas at Dallas | |||
1:50pm-2:00pm | Break | |||
2:00pm–3:00pm | Tutorial 1 Abundant-Data Computing: The N3XT 1,000X Presenter: |
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3:00pm-4:00pm | Tutorial 2 Energy-efficient Secure Circuits for Entropy Generation & Cryptography Presenter: |
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4:00pm-4:10pm | Break | |||
4:10pm–5:30pm |
Logic Obfuscation and Fault Attacks |
Reliability and Physical Design |
Novel System Design Techniques |
Analog, Nanotube, and Quantum Relevance of Machine Learning |
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Thursday, March 26, 2020
8:45am–10:10am |
Poster & WIP Oral Presentations |
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10:10am-10:20am | Break |
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10:20am–12:00am |
Smart Sensors |
Artificial Intelligence for Hardware Acceleration |
Circuits and Systems for Quantum Computing Artificial Intelligence for Hardware Applications |
Machine Learning in Conventional and Emerging Platforms Neuromorphic Computing and Cognitive Computing in Hardware |
12:00pm-1:00pm |
Break |
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1:00pm-2:00pm | Tutorial 3 Presenter: |
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2:00pm-3:00pm | Tutorial 4 Bitcoin Demystified: Disrupting Technology or Mafia Haven? Presenter: |
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3:00pm-3:10pm | Break | |||
3:10pm-4:30pm |
3D Integration & Advanced Packaging Circuit and System Diagnosis and Validation |
Energy Oriented System Design |
Energy Efficient Designs for Future Computing |
Reliability and Physical Design |
*This is a preliminary program and is subject to change