Author: "Andreou, Andreas G." / Publication Type: Books - Searchworks@Jio Institute Digital Library Search Results

1. BRAINWAY and nano-Abacus architecture

Author: Andreou, Andreas G., primary
Published: 2022
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2. Printed Organic Electronic Sensors

Author: Kong, Hoyoul, primary, Dawidczyk, Thomas J., additional, Ozgun, Recep, additional, Andreou, Andreas G., additional, and Katz, Howard E., additional
Published: 2012
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3. Low-Voltage/Low-Power Integrated Circuits and Systems

Author: S, Edgar, primary and Andreou, Andreas G., additional
Published: 1999
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4. Analog Learning Fuzzy ART Chips

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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5. A VLSI-Friendly ART1 Algorithm

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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6. ART1 and ARTMAP VLSI Circuit Implementation

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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7. An ART1/ARTMAP/Fuzzy-ART/Fuzzy-ARTMAP Chip

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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8. Some Potential Applications For ART Microchips

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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9. Adaptive Resonance Theory Algorithms

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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10. A High-Precision Current-Mode WTA-MAX Circuit with Multi-Chip Capability

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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11. Adaptive Resonance Theory Microchips

Author: Serrano-Gotarredona, Teresa, primary, Linares-Barranco, Bernabé, additional, and Andreou, Andreas G., additional
Published: 1998
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12. A Multiple Input Differential Amplifier Based on Charge Sharing on a Floating-Gate MOSFET

Author: Yang, Kewei, primary and Andreou, Andreas G., additional
Published: 1994
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13. Characterization of CMOS Process Variations by Measuring Subthreshold Current

Author: Pavasović, Aleksandra, primary, Andreou, Andreas G., additional, and Westgate, Charles R., additional
Published: 1991
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14. In-Situ Characterization of Carrier Mobility in Field Effect Transistors

Author: Andreou, Andreas G., primary
Published: 1989
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15. Winner-Takes-All Associative Memory: A Hamming Distance Vector Quantizer

Author: Pouliquen, Philippe O., primary, Andreou, Andreas G., additional, and Strohbehn, Kim, additional
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16. Asynchronous Communication of 2D Motion Information Using Winner-Takes-All Arbitration

Author: Kalayjian, Zaven, primary and Andreou, Andreas G., additional
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17. Printed Organic Electronic Sensors.

Author: Kong, Hoyoul, Dawidczyk, Thomas J., Ozgun, Recep, Andreou, Andreas G., and Katz, Howard E.
Published: 2013
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18. INTEGRATING CIRCUITS.

Author: Furth, Paul M. and Andreou, Andreas G.
Subjects: COMPLEMENTARY metal oxide semiconductors, INTEGRATED circuits, ELECTRIC equipment, MICROELECTRONICS, ANALOG electronic systems, ANALOG-to-digital converters
Abstract: This article presents information on integrated circuits. Cascading one integrating circuit to another requires that the voltage signal be converted to a current signal. An integrating circuit can be realized using an operational amplifier, resistor, and capacitor. The input voltage is converted to an input current which is directly proportional to the input voltage via Ohm's Law. This current is integrated onto the capacitor. The major applications of integrating circuits are in filters, slow analog-to-digital converters, and image sensor circuits. Integrating circuits are the basic building blocks used to synthesize frequency selective circuits, or filters. Complementary metal oxide semiconductors image sensor circuits receive as input, a photocurrent, which is proportional to the intensity of the incoming light.
Published: 1999

19. Chapter 4: Exploiting Device Physics in Circuit Design for Efficient Computational Functions in Analog VLSI 4.8. References.

Author: Andreou, Andreas G.
Published: 1999

20. Chapter 4: Exploiting Device Physics in Circuit Design for Efficient Computational Functions in Analog VLSI 4.5. CONTRAST-SENSITIVE SILICON RETINA.

Author: Andreou, Andreas G.
Published: 1999

21. Chapter 4: Exploiting Device Physics in Circuit Design for Efficient Computational Functions in Analog VLSI 4.4. TRANSLINEAR PRINCIPLE.

Author: Andreou, Andreas G.
Published: 1999

22. Chapter 4: Exploiting Device Physics in Circuit Design for Efficient Computational Functions in Analog VLSI 4.3. CURRENT-MODE APPROACH.

Author: Andreou, Andreas G.
Published: 1999

23. Chapter 4: Exploiting Device Physics in Circuit Design for Efficient Computational Functions in Analog VLSI 4.2. TECHNOLOGYAND DEVICES.

Author: Andreou, Andreas G.
Published: 1999

24. Chapter 4: Exploiting Device Physics in Circuit Design for Efficient Computational Functions in Analog VLSI 4.1. INTRODUCTION.

Author: Andreou, Andreas G.
Published: 1999

25. Chapter 17: An Information Theoretic Framework for Comparing the Bit Energy of Signal Representations at the Circuit Level 17.4. FOUR SIGNAL REPRESENTATIONS: PHYSICAL ENCODINGS.

Author: Andreou, Andreas G. and Furth, Paul M.
Published: 1999

26. Chapter 17: An Information Theoretic Framework for Comparing the Bit Energy of Signal Representations at the Circuit Level 17.3. INFORMATION AND COMMUNICATION THEORY PRIMER.

Author: Andreou, Andreas G. and Furth, Paul M.
Published: 1999

27. Winner-Takes-All Associative Memory: A Hamming Distance Vector Quantizer.

Author: Ismail, Mohammed, Lande, Tor Sverre, Pouliquen, Philippe O., Andreou, Andreas G., and Strohbehn, Kim
Abstract: Associative processing and associative memories [10, 13, 14] are neuromorphic computational paradigms, inspired by the high level brain functions of associative memory and recall. Several experimental VLSI systems with digital storage but analog processing have been reported in the literature since the seminal work by Sivilotti, Emerling and Mead [8]; (see for example [3, 11, 21] and Chapters 16 and 18 of [10]). Systems that incorporate analog storage capabilities have also been reported [7, 12, 24]. [ABSTRACT FROM AUTHOR]
Published: 1998
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28. Asynchronous Communication of 2D Motion Information Using Winner-Takes-All Arbitration.

Author: Ismail, Mohammed, Lande, Tor Sverre, Kalayjian, Zaven, and Andreou, Andreas G.
Abstract: Synchronous quantization (data conversion), transmission, and processing of information are today common engineering practices. These practices have evolved in an era where system components were designed and optimized independantly of each other but with a standard interface. [ABSTRACT FROM AUTHOR]
Published: 1998
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