[Special Issue] TED on “Compact Modeling for Circuit Design"

Call for papers for 

a Special Issue of IEEE TED

on

Compact Modeling for Circuit Design

Submission deadline: April 30, 2018               Publication date: January 2019

In order to capture the full potential of semiconductor devices, compact device models and design software are critically needed. Predictive and physical device and circuit design software are required to accelerate development cycles and tackle issues of device efficiency, manufacturing yield and product stability. The performance/accuracy of the design software is dependent on the availability of accurate device models, and for circuit design, compact models.

In particular, compact device models are the vehicle that allows the design of circuits using the targeted devices. The compact model should not only accurately capture the physics of the device in all operation regimes, but at the same time should also have an analytical or semi-analytical formulation to be used in automated design tools for the simulation of circuits containing several or many devices. On the other hand, compact models can also be used as a tool to make clear estimations and predictions of the performances of future devices following technological trends. The lack of adequate compact models for a number of emerging devices is mostly due to the insufficient understanding of the physical mechanisms that govern their behaviours. Regarding many emerging non-silicon structures, devices, circuit and system designers very often rely on empirical behavioural macro-models and/or use existing silicon device compact models based on the conventional understanding of transport processes. However, for these emerging non-silicon devices, neither approach provides a fully adequate device description under all operation conditions, nor the quantitative predictive quality required for the accurate production quality design.

Therefore, the main objective of this dedicated special issue is to engage Electron Devices Community in a serious discussion with their scholarly contributions specifically focused on solving major challenges in the broad area of compact device modeling for circuit design.

Suggested topics include but not limited to:

1. Silicon MOSFET modeling: Advanced Bulk MOSFETs; SOl MOSFETs; Multi-Gate MOSFETs: Double-Gate MOSFETs, Surrounding-Gate MOSFETs, FinFETs, UTB SOI MOSFETs; Junctionless MuGFETs; Power and High Voltage MOSFETs.
2. Junction-based and compound semiconductor FET modeling: Advanced MESFETs; Advanced HEMTs; lIl-V and Ill-N; MOSFETs; Advanced IFETs.
3. Diode and bipolar transistor modeling: Advanced BJTs; HBTs; IGBTs; pn and pin diodes; Varactors.
4. Emerging transistor modeling: Tunnel FETs; Molecular transistors; Single Electron Transistors; Quantum Dot Transistors; Negative Capacitance Transistors.
5. Emerging semiconductor devices: Memories, MRAM, PCRAM etc.; Spintronic devices; Layered/2D materials
6. Thin-Film FETS (TFT): a-Si:H TFTs; Polycrystalline Si TFTs; OTFTs and OECTs; Oxide TFTs; Single-crystal TFTs.
7. Modeling of physical effects: Noise; High frequency operation; Mismatch; Strain; High energy particle interactions in ICs (Cosmic rays and energy beams); ESD events; Ballistic and quasi-ballistic transport; Layout dependent effects.
8. Photonic devices: LEDs and OLEDs; Photodiodes; Solar cells; Photodetectors; SPADs.
9. Model implementation in EDA tools and applications: Model code adaptation to EDA tools; Computational model performances in design tools; Challenges of model implementation in design tools; Compact model applications to variation and statistical analysis; Compact model applications to thermal analysis; Compact model applications to design exploration; Compact model applications to design optimization; Compact model applications to device process improvements; Compact modeling for BSD prediction; Circuit design using new compact models.

Submission instructions: Manuscripts should he submitted in a double column format using an IEEE style file Please visit the following link to download the templates:

http://www,ieeeiorg/publicationsistandards/publications/authors/author7templates,html

In your cover letter, please indicate that your submission is for this special issue. Please submit papers using the website: http://mc.manuscriDtcentral.com/ted

Guest Editors:

1. Benjamin Iniguez, URV, Tarragona (SP)
2. Yogesh Chauan, IIT Kanpur (IN) 
3. Andries Scholten, NXP Semiconductors, Eindhoven (NL)
4. Ananda Roy, Intel Corporation, Portland, OR (USA)
5. Slobodan Mijalkovic, Silvaco Europe Ltd, St. Ives (UK)
6. Sadayuki Yoshitomi, Toshiba Corporation, Tokyo (J)
7. Kejun Xia, NXP Semiconductors, Phoenix, AZ (USA) 
8. Wladek Grabinski, GMC Consulting, Commugny (CH) 
9. Kaikai Xu, UEST of China, Chengdu (CN) 

Enhanced transconductance in a double-gate graphene field-effect transistor https://t.co/aVJlxjMHVj #paper https://t.co/DPbG4zxT1d

Enhanced transconductance in a double-gate graphene field-effect transistor https://t.co/aVJlxjMHVj #paper http://pic.twitter.com/DPbG4zxT1d

— Wladek Grabinski (@wladek60) December 21, 2017

from Twitter https://twitter.com/wladek60

December 21, 2017 at 03:28PM
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Replication of Random Telegraph Noise by Using a Physical-Based Verilog-AMS #Model https://t.co/KQZ8JlQV8r https://t.co/jVdRwct9J3

Replication of Random Telegraph Noise by Using a Physical-Based Verilog-AMS #Model https://t.co/KQZ8JlQV8r http://pic.twitter.com/jVdRwct9J3

— Wladek Grabinski (@wladek60) December 21, 2017

from Twitter https://twitter.com/wladek60

December 21, 2017 at 01:14PM
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[call for papers] EUROSOI-ULIS2018, Granada

Joint International EUROSOI-ULIS Conference on SOI and Ultimate Integration on Silicon

Granada, Spain

on March 19-21, 2018

3rd Call for Papers 

Abstract Submission Deadline: January 12, 2018

The organizing committee invites scientists and engineers working in the above fields to actively participate by submitting high quality papers. Original 2-page abstracts with illustrations will be accepted for review in pdf format. The template is available at the conference website: congresos.ugr.es/eurosoi-ulis2018. The accepted abstracts will be published in a Proceedings book with an ISBN. The authors of the accepted contributions will be requested to provide a 4-page paper to appear in the conference proceedings, which will be submitted to the IEEE Xplore® digital library. A selection of the presented manuscripts in the conference will be invited to submit an extended version, which after a peer-review process, will be published as a Special Issue of Solid-State Electronics. A best paper award will be attributed to the best paper by the SINANO institute.

Papers in the following areas are solicited:
• Advanced SOI materials and wafers. Physical mechanisms and innovative SOI-like devices.
• New channel materials for CMOS: strained Si, strained SOI, SiGe, GeOI, III-V and high mobility materials on insulator; carbon nanotubes; graphene and other two-dimensional materials.
• Properties of ultra-thin films and buried oxides, defects, interface quality. Thin gate dielectrics: high-κ materials for switches and memory.
• Nanometer scale devices: technology, characterization techniques and evaluation metrics for high performance, low power, low standby power, high frequency and memory applications.
• Alternative transistor architectures including FDSOI, DGSOI, FinFET, MuGFET, vertical MOSFET, Nanowires, FeFET and Tunnel FET, MEMS/NEMS, Beyond-CMOS nanoelectronic devices.
• New functionalities in silicon-compatible nanostructures and innovative devices representing the More than Moore domain, nanoelectronic sensors, biosensor devices, energy harvesting devices, RF devices, imagers, etc.
• CMOS scaling perspectives; device/circuit level performance evaluation; switches and memory scaling. Three-dimensional integration of devices and circuits, heterogeneous integration.
• Transport phenomena, compact modeling, device simulation, front- and back-end process simulation.
• Advanced test structures and characterization techniques, parameter extraction, reliability and variability assessment techniques for new materials and novel devices.
• Emerging memory devices

Invited Speakers:
• Prof. Jesús del Alamo (MIT, USA): III-V CMOS: Quo vadis?
• Prof. Hiroshi Iwai (TIT, Japan): 3D scaling of Si-IGBT.
• Prof. Enrique Calleja (Uni Madrid, Spain): MBE growth of ordered InGaN/GaN nano/microrods: basics and applications.
• Prof. Edward Yi Chang (NCTU, Taiwan): High performance GaN HEMT technologies.
• Prof. Adrian Ionescu (EPFL, Switzerland): Millivolt technology for low power digital and sensing applications.
• Dr. Byungil Kwak (SK Hynix, Korea): DRAM Peripheral Transistor Scaling using logic technologies – Future Challenges.

People Should Really Be Thankful For Free Software Developers – #FOSS Post https://t.co/6a2XhakKzM #opensource

People Should Really Be Thankful For Free Software Developers – #FOSS Post https://t.co/6a2XhakKzM #opensource

— Wladek Grabinski (@wladek60) December 16, 2017

from Twitter https://twitter.com/wladek60

December 16, 2017 at 04:18PM
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