Special Issue of Solid-State Electronics, dedicated to EUROSOI-ULIS 2016 https://t.co/fFD9GehZEP #papers #feedly
— Wladek Grabinski (@wladek60) December 25, 2016
from Twitter https://twitter.com/wladek60
December 25, 2016 at 09:14PM
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Dec 25, 2016
Special Issue of Solid-State Electronics, dedicated to EUROSOI-ULIS 2016 https://t.co/fFD9GehZEP #papers #feedly
from Twitter https://twitter.com/wladek60
December 25, 2016 at 09:14PM
via IFTTT
Dec 20, 2016
[paper] Analysis and Compact Modeling of Negative Capacitance Transistor
Analysis and Compact Modeling of Negative Capacitance Transistor with High ON-Current
and Negative Output Differential Resistance
Part II: Model Validation
and Negative Output Differential Resistance
Part II: Model Validation
Girish Pahwa, Student Member, IEEE, Tapas Dutta, Member, IEEE, Amit Agarwal,
Sourabh Khandelwal, Member, IEEE, Sayeef Salahuddin, SM IEEE,
Chenming Hu, IEEE Fellow, and Yogesh Singh Chauhan, SM IEEE
Sourabh Khandelwal, Member, IEEE, Sayeef Salahuddin, SM IEEE,
Chenming Hu, IEEE Fellow, and Yogesh Singh Chauhan, SM IEEE
in IEEE Transactions on Electron Devices, vol. 63, no. 12, pp. 4986-4992, Dec. 2016
Abstract: In this paper, we show a validation of our compact model for negative capacitance FET (NCFET) presented in Part I. The model is thoroughly validated with the TCAD simulations with respect to ferroelectric thickness scaling and temperature effects. Interestingly, we find that an NCFET with PZT ferroelectric of a large thickness provides a negative output differential resistance in addition to an expected high ON current and a sub-60 mV/decade subthreshold swing. The model is also tested for the Gummel symmetry and its transient capabilities are highlighted through a ring oscillator circuit simulation.
[read more at IEEE Xplore]
Dec 19, 2016
[Call for Papers] ESSCIRC–ESSDERC 2017
September 11-14, 2017
LEUVEN - Belgium
www.esscirc-essderc2017.org
www.esscirc-essderc2017.org
ESSCIRC–ESSDERC annual Conference is the most important European forum for the presentation and discussion of recent advances in solid-state devices and circuits: MAKE SURE TO BE PART OF IT!
LOCAL SCIENTIFIC SECRETARIAT
Cor Claeys (imec, BE) | General Chair
Chantal Deboes (imec, BE) | ESSDERC Chair
Danielle Vermetten (KU Leuven, BE) | ESSCIRC Chair
ORGANIZERS
TECHNICAL CO-SPONSORSHIP
ESSDERC FINANCIAL SPONSOR
ESSCIRC FINANCIAL SPONSOR
DIAMOND SPONSOR
ORGANIZING SECRETARIAT: Sistema Congressi s.r.l.
Cor Claeys (imec, BE) | General Chair
Chantal Deboes (imec, BE) | ESSDERC Chair
Danielle Vermetten (KU Leuven, BE) | ESSCIRC Chair
ORGANIZERS
TECHNICAL CO-SPONSORSHIP
ESSDERC FINANCIAL SPONSOR
ESSCIRC FINANCIAL SPONSOR
DIAMOND SPONSOR
ORGANIZING SECRETARIAT: Sistema Congressi s.r.l.
Dec 16, 2016
[online] Verilog-AMS Quick Reference and Tutorials
Verilog-AMS is a hardware description language that can model both analog and digital systems. The official description of the Verilog-AMS language is contained in the Verilog-AMS Language Reference Manual.
This site is designed to be your quick reference guide for Verilog-A and Verilog-AMS. The reference material is not complete at this point, but is still quite usable. Over time the reference material should fill out and be supplemented with useful application notes and annotated models that will help you learn to use Verilog-A/MS more effectively. The emphasis is very much on analog and mixed-signal modeling. If you are looking for information on synthesis or the obscure corners of the Verilog language, you must look elsewhere
Both Ken & Henry at Designer’s Guide Consulting aim to make www.VerilogAMS.com your everyday source for information on Verilog-A/MS. Please take a look around, and tell your friends and co-workers. If you have questions about Verilog-AMS, feel free to ask them on
the forum at designers-guide.org.
the forum at designers-guide.org.
Dec 14, 2016
QUCS mentioned in IEEE-EDL paper
Jacopo Iannacci, Fondazione Bruno Kessler (FBK), Trento, Italy, has recently published an article in the IEEE Electron Device Letters (EDL) where he used and explicitly mentioned the QUCS, FOSS CAD/EDA simulator:
doi: 10.1109/LED.2016.2623328
[read more: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7726036&isnumber=7739309]
RF-MEMS Technology for Future Mobile and High-Frequency Applications:
Reconfigurable 8-Bit Power Attenuator Tested up to 110 GHz
J. Iannacci, M. Huhn, C. Tschoban and H. Pötter
in IEEE EDL, vol. 37, no. 12, pp. 1646-1649, Dec. 2016.
Abstract: In this letter, we present and test—to the best of our knowledge, for the first time—, an 8-bit (256-state) reconfigurable RF-MEMS attenuator, from 10 MHz up to 110 GHz, realized in the CMM-FBK technology. Resistive loads, in series and shunt configuration, are selectively inserted on the RF line by means of electrostatic MEMS ohmic switches. The network exhibits several attenuation levels in the range of −10/−45 dB that are rather flat up to 50 GHz, and a certain number of configurations with VSWR smaller than 4 from nearly dc up to 110 GHz, and better than 2 on a frequency span of ~80 GHz.
[read more: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7726036&isnumber=7739309]
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