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Prof. Paul Hasler
Georgia Institute of Technology
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Professor in the EE department, Georgia Institute of Technology. He specializes in analog and mixed signal integrated circuits (systems on a chip); analog-digital signal processing; low power electronics; the use of floating-gate MOS transistors to build adaptive information processing systems and ``smart'' interfaces for MEMS sensors; floating-gate amplifiers, filters, and cochleas; device physics, particularly related to submicron devices or floating-gate devices; analog VLSI models of on on-chip learning and sensory processing in neurobiology.

Recent journal publications:

Mark Walker, Paul Hasler, and Lex Akers, ``A CMOS Neural Network for Pattern Association,'' IEEE Micro, vol. 9, no. 5, 1989, pp. 68-74.

Christopher H. Lee, Umberto Ravaioli, Karl Hess, Carver Mead, and Paul Hasler, ``Simulation of a long term memory device with a full bandstructure Monte Carlo approach,'' IEEE Electron Device Letters, vol. 16, no. 8, 1995, pp. 360-362.

Bradley A. Minch, Chris Diorio, Paul Hasler, and Carver Mead, ``Translinear circuits using subthreshold floating-gate MOS transistors,'' Analog Integrated Circuits and Signal Processing, vol. 9, no. 2, 1996, pp. 167-179.

C. Diorio, P. Hasler, B. A. Minch, and C. A. Mead, ``A Single-Transistor Silicon Synapse,'' IEEE Transactions on Electron Devices, vol. 43, no. 11, 1996, pp. 1972-1980. Winner of the Paul Raphorst Best Paper Award, IEEE Electron Devices Society, 1997.

Chris Diorio, Paul Hasler, Bradley A. Minch, and Carver Mead, ``A complementary pair of four-terminal silicon synapses," Analog Integrated Circuits and Signal Processing, vol. 13, no. 1/2, 1997, pp. 153-166.

Chris Diorio, Paul Hasler, Bradley A. Minch, and Carver A. Mead, ``A Floating-Gate MOS Learning Array with Locally Computed Weight Updates,'' IEEE Transactions on Electron Devices, vol. 44, no. 12, 1997, pp. 2281-2289.

Paul Hasler, Andreas Andreou, Chris Diorio, Bradley A. Minch, and Carver Mead, ``Impact ionization and hot-electron injection derived consistently from Boltzman transport,'' VLSI Design, vol. 8, no. 14, 1998, pp. 455-461.

Paul Hasler, Bradley A. Minch, and Chris Diorio, ``An Autozeroing Floating-Gate Amplifier,'' IEEE Transactions on Circuits and Systems II, Feb. 2001.

Paul Hasler and Jeff Dugger, ``Correlation Learning Rule in Floating-Gate pFET Synapses," IEEE Transactions on Circuits and Systems II, Feb. 2001.

Matt Kucic, AiChen Low, Paul Hasler, and Joe Neff, ``A Programmable Continuous-time Floating-Gate Fourier Processor,'' IEEE Transactions on Circuits and Systems II, Feb. 2001

Paul Hasler, ``Continuous-Time Feedback in Floating-Gate MOS Circuits,'' IEEE Transactions on Circuits and Systems II, Feb. 2001

R.R. Harrison, J.A. Bragg, P. Hasler, B.A. Minch, and S. Deweerth, ``A CMOS Programmable Analog Memory Cell Array using Floating-Gate Circuits,'' IEEE Transactions on Circuits and Systems, Feb. 2001.

B. Minch, P. Hasler, and C. Diorio, ``Multiple-Input Translinear Element Networks,'' IEEE Transactions on Circuits and Systems, Feb. 2001.

Paul Hasler, Theron Stanford, and Bradley A. Minch, ``A Second-Order Section Built from Autozeroing Floating-Gate Amplifiers,'' IEEE Transactions on Circuits and Systems, Feb. 2001.