Jun 13, 2016

Programme of the 4th Training Course on Compact Modeling

The 4th Training Course on Compact Modeling (TCCM) will take place in Tarragona (Catalonia, Spain) from June 27 to 28 2016.

The 4th TCCM is partially sponsored by the DOMINO EU H2020 project. It will consist a series of lectures conducted by prestigious researchers in the field of modeling of semiconductor devices, dealing with several issues related to the semiconductor device modeling, mostly compact/SPICE modeling. It is a very interesting event to PhD students and young researchers, but can interest senior researchers too. These lectures will be conducted by top experts in the field. 

No doubt the 4th TCCM will be useful to researchers working on compact modeling, but also to researchers working on circuit design, numerical modeling, device characterization and semiconductor device technology.

TCCM is organized by the Department of Electronic, Electrical and Automatic Control Engineering (DEEEiA) of the Universitat Rovira i Virgili (URV), in Tarragona. The General Chair of TCCM is Prof. Benjamin Iñiguez, who is also the Coordinator of the DOMINO project.

Programme of TCCM:

June 27 2016

8:30
Opening
Benjamin Iñiguez (Universitat Rovira i Virgili)
8:55
"Compact modeling for biological applications".
Morgan Madec (Université de Strasbourg, France)
10:05
"TCAD and semiclassical device modeling"
 Christoph Jungemann (RWTH-AAchen, Germany)
11:15
Coffe Break
11:40
"Modeling and experimental verification of mechanical stress effects in  ultra-thin Si MOSFET devices integrated into flexible packages. "
Heidrun Alus (AdMOS GmbH, Germany)
12:50
"Device simulation for Organic Electronics using GENIUS"
Heinz Olav Müller (Plastic Logic GmbH, Germany))
14:00
Lunch
15:15
"TCAD for compact model development"
Ahmed Nejim (Silvaco Europe Ltd. , UK)
16:25
"Modelling of Amorphous-Oxide-Semiconductors TFTs for large-area flexible electronics"
Fabrizio Torricelli (University of Brescia, Italy)
20:30
Gala Dinner


June 28 2016

8:45-14:00  Mini-Colloquium on Compact Modeling and Parameter Extraction
8:45
"An Integrated Approach for Circuit Performance and Reliability Simulation"
Mansun Chan (Hong Kong University of Science and Technology)
9:55
"Static and dynamic characterization of SiC based MOSFETs/IGBTs"
Muhammad Nawaz (ABB Sweden)
11:05
Coffee Break
11:30
“Model parameter extraction”
Antonio Cerdeira (CINVESTAV Mexico)
12:50
"Compact modeling for AlGaN/GaN HEMTs"
Benjamin Iñiguez (URV)
14:00
Lunch
15:15
"Application of compact models for organic circuit design"
Eugenio Cantatore (TU-Eindhoven, The Netherlands)
16:25
« Mathematical and Semi-physical compact modeling for emerging technologies”
Firas Mohamed (Infiniscale, France)
17:35
End of the Training Course

Besides, on June 29 1016, the  Workshop on Flexible Electronics (WFE) will take place in Tarragona, too. Attendees to TCCM who work on Flexible Electronics (not necessarily modeling) will have a chance to present recent results on their own. But WFE is open to all researchers.


Registration to both events is open. It is possible to register only to TCCM, or only to WFE or to both. It is quite cheap, in partular for students, and includes lunches, coffee breaks, and in the case of TCCM, a gala dinner.

Finally, on June 30-July 1 the Annual Graduate Student Meeting on Electronic Engineering will be held, consisting of plenary talks by prestigious researchers and student presentations. Registration is free.



I encourage researchers on semiconductor devices and circuit design to attend TCCM!

Jun 11, 2016

Modeling and simulation of nanomagnetic logic with cadence virtuoso using Verilog-A https://t.co/J8R9fcdtDu #papers #feedly


from Twitter https://twitter.com/wladek60

June 11, 2016 at 01:22PM
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Jun 8, 2016

Improved modeling of GaN HEMTs for predicting thermal and trapping-induced-kink effects https://t.co/YanqSVXH3q #papers #feedly


from Twitter https://twitter.com/wladek60

June 08, 2016 at 01:44PM
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Jun 6, 2016

A novel approach for the modeling of HEMT high power device https://t.co/rDLgFItU1g #papers #feedly


from Twitter https://twitter.com/wladek60

June 06, 2016 at 06:38PM
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Jun 2, 2016

A new constituent of electrostatic energy in semiconductors

 A new constituent of electrostatic energy in semiconductors
 An attempt to reformulate electrostatic energy in matter
 
 Swiss Federal Institute of Technology Lausanne Switzerland 

Received: 30 October 2015
Received in final form: 29 January 2016
Published online: 1 June 2016

Eur. Phys. J. B, 89 6 () 136
DOI: http://dx.doi.org/10.1140/epjb/e2016-60865-4

Abstract: The concept of electric energy is revisited in detail for semiconductors. We come to the conclusion that the main relationship used to calculate the energy related to the penetration of the electric field in semiconductors is missing a fundamental term. For instance, spatial derivate of the electrostatic energy using the traditional formula fails at giving the correct electrostatic force between semiconductor based capacitor plates, and reveals unambiguously the existence of an extra contribution to the standard electrostatic free energy. The additional term is found to be related to the generation of space charge regions which are predicted when combining electrostatics with semiconductor physics laws, such as for accumulation and inversion layers. On the contrary, no such energy is needed when relying on electrostatics only, as for instance when adopting the so-called full depletion approximation. The same holds for neutral and charged insulators that are still consistent with the customary definition, but these two examples are in fact singular cases. In semiconductors for instance, this additional energy can largely exceed the energy gained by the dipoles, thus becoming the dominant term. This unexpected result clearly asks for a generalization of electrostatic energy in matter in order to reconcile basic concepts of electrostatic energy in the framework of classical physics.

Keywords: Solid State and Materials

© The Author(s) 2016. This article is published with open access at Springerlink.com