Details

Memristor Technology: Synthesis and Modeling for Sensing and Security Applications


Memristor Technology: Synthesis and Modeling for Sensing and Security Applications


Analog Circuits and Signal Processing

von: Heba Abunahla, Baker Mohammad

96,29 €

Verlag: Springer
Format: PDF
Veröffentl.: 18.09.2017
ISBN/EAN: 9783319656991
Sprache: englisch

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Beschreibungen

<p>This book provides readers with a single-source guide to fabricate, characterize and model memristor devices for sensing applications.  The authors describe a correlated, physics-based model to simulate and predict the behavior of devices fabricated with different oxide materials, active layer thickness, and operating temperature.  They discuss memristors from various perspectives, including working mechanisms, different synthesis methods, characterization procedures, and device employment in radiation sensing and security applications.</p>
<p>Introduction.- Memristor Device Background.- Memristor Device Design and Synthesis.- Memristor for Security and Radiation Sensor Applications.- Memristor Device Modeling.</p>
<p>Heba Abunahla earned her PhD from Khalifa University at UAE in 2017, her M.S. degree from University of Sharjah, UAE, and BS degree from United Arab Emirates University, UAE, all in ECE.  Heba has several publications in the area of memristor devices and photovoltaic modules.<br/></p> <p>Dr. Baker Mohamamd earned his PhD from University of Texas at Austin, his M.S.  from Arizona State University, Tempe, and BS from the University of New Mexico, Albuquerque, all in ECE.   Dr. Mohammad is currently an associate Professor at the Department of Electrical and Computer Engineering at Khalifa University and a founding and active member of Khalifa University Semiconductor Research Center. He is a Senior Member of the IEEE and serves as an editor to the microelectronics journal, Elsevier.  Baker Served in many organization and technical committee for IEEE conferences, In addition, he is a frequent reviewer for many journals including IEEE TVLSI, IEEE Circuits and Systems, and Springer.  Baker has extensive experience for attracting and managing research grants including SRC, ADEC, UAE Space Agency and KU internal funding.</p><p>Prior to joining Khalifa University Baker has over 16-years industrial experience working for intel and Qualcomm in microprocessor design with emphasis on embedded system, and low power design.  His research interest includes power efficient computing, high yield embedded memory, emerging technology such as memristor, STTRAM, computer architecture, and In-Memory-Computing. In addition, he is engaged in micro-watt range computing platform for WSN focusing on energy harvesting and power management including efficient dc/dc, ac/dc convertors.  He authored/co-authored over 80 referred journals and conference proceedings, 2 books, 18 US patents, multiple invited seminars/panelist, and the presenter of 3 conference tutorials including one tutorial on Energy harvesting and Power management for WSN at the 2015 International Symposium on Circuits and Systems conference (ISCAS). <br/></p><p></p><p>Dr. Mohammad has received several awards including the KUSTAR staff excellence award in intellectual property creation, IEEE TVLSI best paper award, Qualcomm Qstar award for excellence on performance, and leadership. Best paper award for Qtech conference June 2009, and Intel Involve in the community award for volunteer and impact on the community.<br/></p>
This book provides readers with a single-source guide to fabricate, characterize and model memristor devices for sensing applications. The authors describe a correlated, physics-based model to simulate and predict the behavior of devices fabricated with different oxide materials, active layer thickness, and operating temperature. They discuss memristors from various perspectives, including working mechanisms, different synthesis methods, characterization procedures, and device employment in radiation sensing and security applications.<p></p> <p></p><ul><li>        Discusses a detailed, physics-based mathematical model, which can guide the design and fabrication process of memristive devices;<br/></li><li>        Describes detailed fabrication process steps for real memristor devices, enabling readers to synthesize similar and enhanced memristor devices;<br/></li><li>         Applies techniques presented to novel applications, including radiation sensing and security.<br/></li></ul><p></p>
Discusses a detailed, physics-based mathematical model, which can guide the design and fabrication process of memristive devices Describes detailed fabrication process steps for real memristor devices, enabling readers to synthesize similar and enhanced memristor devices Applies techniques presented to novel applications, including radiation sensing and security Includes supplementary material: sn.pub/extras

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