Virtual Education Events at ESSDERC/ESSCIRC 2020

Given this uncertain situation, the organizing committee of ESSDERC/ESSCIRC 2020 in Grenoble and its Steering Committee, have decided to propose a new format for coming conference, which will include a NEW and Virtual Education Event series being developed for September 14th 2020 consisting of 13 educational sessions (workshops and tutorial) comprising invited presentations by leading academic and industrial experts and technologists. All related technical program details are also available online: https://www.esscirc-essderc2020.org/educationals

1. TUTORIAL | Quantum Computing: Myth or Reality?

Chairs: M. Vinet (CEA) and Farhana Sheikh (Intel)
Full content duration ~6h

2. WORKSHOP | Emerging Solutions for Imaging Devices, Circuits and Systems

Chairs: Matteo Perenzoni (FBK) and Albert Theuwissen (Harvest Imaging)
Full content duration ~6h

3. WORKSHOP | Non-Volatile Memories: Opportunities and Challenges from Devices to Systems

Chairs: Gabriel Molas (CEA) and Mahmut Sinangil (TSMC)
Full content duration ~6h

4. WORKSHOP | New 5G integration solutions, and related technologies (from materials to system)

Chairs: Nadine Collaert (imec) and Stefan G. Andersson (Ericsson)
Full content duration ~6h

5. WORKSHOP | Advances in device technologies for automotive industry (power devices, SiC, GaN)

Chairs: Ionut Radu (Soitec) and Stefaan Decoutere (IMEC)
Full content duration ~6h

6. WORKSHOP | Embedded monitoring and compensation design for energy or safety constrained applications

Chairs: Sylvain Clerc (ST) and Keith Bowman (Qualcomm)
Full content duration ~4h

7. WORKSHOP | Edge AI and In-Memory-Computing for energy efficient AIoT solutions​

Chairs:  Andreas Burg (EPFL) and Marian Verhelst (KUL)
Full content duration ~6h

8. WORKSHOP | Ab-initio simulations supporting new materials & process developments

Chairs: Denis Rideau (ST) and Philippe Blaise (Silvaco)
Full content duration ~3h

9. WORKSHOP | RISC-V cooking session

Chairs: Bora Nikolic (BWRC)
Full content duration ~3h

10. DISSEMINATION WORKSHOP |  Toward sustainable IOT from rare materials to big data

Chairs:  Thierry Baron (CEA, LTM/UGA) and Audrey Dieudonné (UGA)
Full content duration ~3h

11. DISSEMINATION WORKSHOP | High Density 3D CMOS Mixed-Signal Opportunities

Chair: Philipp Häfliger (UiO)
Full content duration ~3h

12. MOS-AK WORKSHOP | Compact/SPICE Modeling and its Verilog-A Standardization

Chair: Wladek Grabinski (MOS-AK) and Daniel Tomaszewski (ITE Warsaw)
Full content duration ~6h

13. IPCEI on Microelectronics: Innovative Technologies for Shaping the Future

Chairs: Dominique Thomas (ST), Klaus Pressel (Infineon), Rainer Pforr (Zeiss)
Full content duration ~6h

2020 IEEE ED Poland Chapter MQ

Date

2020-06-26

Location

Virtual

Region

IEEE Region 8 (Europe, Middle East and Africa)

Contact

Krzysztof Górecki – k.gorecki@we.am.gdynia.pl

Description

Distinguished Lecturer

Arokia Nathan - Oxide Electronics Univ. Cambridge (UK)

Mina Rais-Zadeh - MEMS development at JPL (US)

Benjamin Iniguez - Universitat Rovira i Virgili, Tarragona (SP)

Teodor Gotszalk - TU Wrocław (PL)

Mike Schwarz - MEMS Design & Simulation, Bosch (D)

REGISTER at the MQ site
https://eds.ieee.org/education/distinguished-lecturer-mini-colloquia-program/upcoming-dl-and-mq-events?eid=731&m=10e18da593444dc0cb20a2f377717f95

[paper] NESS

Nano-electronic Simulation Software (NESS): 

a flexible nano-device simulation platform

Salim Berrada, Hamilton Carrillo-Nunez, Jaehyun Lee, Cristina Medina-Bailon, Tapas Dutta, Oves Badami, Fikru Adamu-Lema, Vasanthan Thirunavukkarasu, Vihar Georgiev and Asen Asenov 

Journal of Computational Electronics (2020)

DOI: 10.1007/s10825-020-01519-0

Abstract: The aim of this paper is to present a flexible and open-source multi-scale simulation software which has been developed by the Device Modelling Group at the University of Glasgow to study the charge transport in contemporary ultra-scaled Nano-CMOS devices. The name of this new simulation environment is Nano-electronic Simulation Software (NESS). Overall NESS is designed to be flexible, easy to use and extendable. Its main two modules are the structure generator and the numerical solvers module. The structure generator creates the geometry of the devices, defines the materials in each region of the simulation domain and includes eventually sources of statistical variability. The charge transport models and corresponding equations are implemented within the numerical solvers module and solved self-consistently with Poisson equation. Currently, NESS contains a drift–diffusion, Kubo–Greenwood, and non-equilibrium Green’s function (NEGF) solvers. The NEGF solver is the most important transport solver in the current version of NESS. Therefore, this paper is primarily focused on the description of the NEGF methodology and theory. It also provides comparison with the rest of the transport solvers implemented in NESS. The NEGF module in NESS can solve transport problems in the ballistic limit or including electron–phonon scattering. It also contains the Flietner model to compute the band-to-band tunneling current in heterostructures with a direct band gap. Both the structure generator and solvers are linked in NESS to supporting modules such as effective mass extractor and materials database. Simulation results are outputted in text or vtk format in order to be easily visualized and analyzed using 2D and 3D plots. The ultimate goal is for NESS to become open-source, flexible and easy to use TCAD simulation environment which can be used by researchers in both academia and industry and will facilitate collaborative software development.

FIG: Flowchart of NESS detailing its modular structure

NESS will be released in the summer of 2020 as an open-source software which makes it very interesting for both academia and industry in helping to address the challenges subsequent to the further down-scaling of CMOS components.

Acknowledgements: This work was supported by the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No. 688101 SUPERAID7. Also, this project has received funding from EPSRC UKRI under Grant Agreements No. EP/S001131/1 (QSEE) and No. EP/P009972/1 (QUANTDEVMOD).

Semi-talk: Low Cost Photonics | Dr. Naresh Chand, Life Fellow of IEEE, Associate Vice President, Chapter Relations of the IEEE Photonics Society https://t.co/mQkIAGoI51 #paper https://t.co/zmPh8QDa3F

Semi-talk: Low Cost Photonics | Dr. Naresh Chand, Life Fellow of IEEE, Associate Vice President, Chapter Relations of the IEEE Photonics Society https://t.co/mQkIAGoI51#paper pic.twitter.com/zmPh8QDa3F

— Wladek Grabinski (@wladek60) June 8, 2020

from Twitter https://twitter.com/wladek60

June 08, 2020 at 09:52AM
via IFTTT

The Simplest #Microwave #Receiver https://t.co/atbhia4ZZy #paper https://t.co/WZDsDvXeoD

The Simplest #Microwave #Receiver https://t.co/atbhia4ZZy #paper pic.twitter.com/WZDsDvXeoD

— Wladek Grabinski (@wladek60) June 8, 2020

from Twitter https://twitter.com/wladek60

June 08, 2020 at 09:16AM
via IFTTT