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Introduction to Nano- computing for K-8 Students Sanjukta Bhanja and Javier Pulecio Assistant Professor, PhD student University of South Florida.

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Presentation on theme: "Introduction to Nano- computing for K-8 Students Sanjukta Bhanja and Javier Pulecio Assistant Professor, PhD student University of South Florida."— Presentation transcript:

1 Introduction to Nano- computing for K-8 Students Sanjukta Bhanja and Javier Pulecio Assistant Professor, PhD student University of South Florida.

2 Biography Education BE Jadavpur University (Kolkata) 1991 MS Indian Institute of Science, 1994 PhD University of South Florida, 2002 Work Assistant Professor, Electrical Engineering, University of South Florida (since 2002) Research Interest: VLSI Design, Nano- computing, Ferro-magnetic computing

3 Why Engineering Engineering technology uses knowledge of mathematics And natural sciences (Physics, Chemistry, Biology) Key Features: Problem Solving Application Engineers are Strong in Theory, Strong in Application, Strong in Service

4 Various Engineering Disciplines

5

6 Problems Biometrics/Data-Mining Robotics-human assistance Infrastructure-security Biotechnology (genome project, cognitive modeling) Nanotechnology Computing systems Bio-sensors, drug delivery Chemical sensor

7

8 Application Domain

9 Some of the Promising Technologies… Quantum-Dot Cellular Automata (QCA) Carbon Nanotubes (CNT) Single Electron Transistor (SET) P = +1 P = - 1

10 QCA Logic QCA Majority Gate QCA Inverter QCA OR Gate QCA AND Gate QCA NAND Gate

11 QCA Logic Propagation UnstableStable Unstable Stable Unstable Stable

12 QCA Logic Propagation Unstable Stable Unstable Inverter Chain 1 1

13 Wire Crossbar 1 1

14 QCA Inverter Gate Logic 1

15 QCA Majority Gate Logic

16 Research: The Need Reliability-centric Electronic Design and Automation (rEDA) Device level issues will dominate Next generation design issues Error Thermal/Power Collaborators: Dr. Syed Alam (Freescale semiconductors) Dr. B. Paul (Toshiba Inc.) Prof. V. Bieu (UAE) Funding CRI (National Science Foundation): PI-Bhanja New Researcher Award (USF)

17 Nano-CMOS: Limit of charge flow Goal: To analyze and model the interplay of Error, Power and Redundancy through probabilistic models. Students: Two PhD students and two MS students Collaborators: Dr. Syed Alam (Freescale semiconductors) Dr. B. Paul (Toshiba Inc.) Prof. V. Bieu (UAE) Funding CRI (NSF): PI-Bhanja, Co-PI- Jain, Ranganathan, Zheng, Katkoori, Schlaf New Researcher Award (USF) Accomplishments 5 Journal papers Paper award at IEEE conference on VLSI Design Graduated 1 PhD and 5 MS students Error Power Reliability Our strength: Probabilistic design and modeling at multiple design levels

18 Field Coupled Computing: No flow of charges Goal: Novel, revolutionary computing paradigm No flow of electrons Computing accomplished by coupling charges or spins or magnetic properties Extremely low power Students: Javier Pulecio (PhD student) Saket Srivastava (finishing PhD) Praveen Venkataramani MS Our strength: Solid probabilistic design metholodgy

19 Ferromagnetic Computing (Nano- magnets)

20 Thank You


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