[Online Publications] 22nd MOS-AK/ESSERC Workshop in Munich (D) on Sept. 8 2025

Arbeitskreis Modellierung von Systemen und Parameterextraktion

Modeling of Systems and Parameter Extraction Working Group

MOS-AK/ESSERC Workshop

Munich, Sept.8, 2025

The consecutive, 22nd MOS-AK Workshop has been organized as an integral part of 51st ESSERC in Munich (D) on Sept. 8 2025. The MOS-AK workshop publications [1-6], with individually assigned DOI numbers, are available online at:

<https://www.mos-ak.org/munich_2025/>

The development of open-source Process Design Kits (PDKs) is crucial for democratizing access to advanced semiconductor technologies. IHP's OpenPDK initiative bridges the gap between academia, startups, and the semiconductor industry by offering a fully open and manufacturable SG13G2 BiCMOS OpenPDK for analog/RF, mixed-signal, and digital IC applications. Aligning with the EU Chips Act, this initiative emphasizes open collaboration to overcome economic and technical barriers in semiconductor innovation. The workshop introduces SG13G2 OpenPDK and Free and Open-Source Software (FOSS) tools for IC designs, including Verilog-A devices, schematic capture, SPICE simulation, layout, physical verification in advanced design flow up to final typeout.

To learn more about IHP OpenPDK Initiative and its Certified Design Courses, visit online depositories as listed below:

Open-Source Digital Design Course: https://github.com/OS-EDA/Course

• Full RTL-to-GDSII workflow using OpenROAD and SG13G2 PDK
• Feedback integrated via GitHub & live sessions
• Trial run Feb 2025: 15 on-site participants selected from 85+ applicants

Open-Source Analog Design Course: https://github.com/IHP-GmbH/IHP-AnalogAcademy

• Hands-on design with SG13G2 PDK; Strong emphasis on analog/RF practice, focused on the layout and verification, including process variation analysis of analog/RF ICs
• Explored designs: Bandgap, 50 GHz PA, SAR ADC
• Tools: Ngspice, Xyce, Xschem, Qucs, Klayout
• Trial run June 2025: with 16 on-site participants selected from 80+ applicants

MOS-AK Workshop References:

[1] M. Yazici and R. Scholz, "IHP OpenPDK Roadmap", presented at the MOS-AK/ESSERC Workshop Munich 2025, Munich, Germany, Sep. 13, 2025. doi: 10.5281/zenodo.17113282.

[2] Árpád Bűrmen, "The OpenVAF Verilog-A Compilerfor the OpenPDK Ecosystem", presented at the MOS-AK/ESSERC Workshop Munich 2025, Munich, Germany, Sep. 13, 2025. doi: 10.5281/zenodo.17113774.

[3] M. Volker, "User-friendly FDTD EM Workflow for IHP OpenPDK with Automatic Meshing", presented at the MOS-AK/ESSERC Workshop Munich 2025, Munich, Germany, Sep. 13, 2025. doi: 10.5281/zenodo.17113926.

[4] Mike Brinson, "Building Component Libraries for Use with the IHP OpenPDK and FOSS Tools", presented at the MOS-AK/ESSERC Workshop Munich 2025, Munich, Germany, Sep. 13, 2025. doi: 10.5281/zenodo.17113932.

[5] Mirjana Videnović-Mišić, "Analog IC Flow Automatization", presented at the MOS-AK/ESSERC Workshop Munich 2025, Munich, Germany, Sep. 13, 2025. doi: 10.5281/zenodo.17113935.

[6] Ralph Steiner Vanha, "MOS SizingTool – A Single Transistor Simulator", presented at the MOS-AK/ESSERC Workshop Munich 2025, Munich, Germany, Sep. 13, 2025. doi: 10.5281/zenodo.17113946.

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[paper] MicroLEDs SPICE Model

Sultan El Badaoui1,2, Patrick Le Maitre1, Anthony Cibié1, Julia Simon1, Aurélien Lardeau-Falcy1, 

Jeremy Bilde1, Louwenn Cherruault1, Manon Arch1, Michael Pelissier1, Yannis Le Guennec2

SPICE Modeling of GaN MicroLEDs for Optical Communication

Journal of the Society for Information Display, 2025; 0:1–16

DOI 10.1002/jsid.2105

1 Univ. Grenoble Alpes, CEA LETI, Minatec, Grenoble (F)
2 Univ. Grenoble Alpes, CNRS, Grenoble-INP, GIPSA-lab, Grenoble (F)

Abstract: With the rapid expansion of data centers, there is a growing demand for high data-rate, energy-efficient optical links over short distances. One potential technology for this application is Gallium-Nitride (GaN) based microlight emitting diodes (μLEDs), thanks to their compact size, high-speed operation, and ease of manufacturability. During the development of these μLEDs, modeling plays an essential role in optimizing their performance. In this paper, we present various models to estimate both the static and dynamic performance of GaN μLEDs of various sizes. We then propose a methodology to integrate these models into a unified equivalent circuit model, enabling the simulation of the full response of the μLED. Finally, we implement this unified model in a circuit-simulation-compatible module and replicate the experimental setups within a simulation software to evaluate the module's ability to accurately simulate the μLED's response.

FIG: (a) SEM image of a 50-μm μLED, showing the GSG pad configuration and the grid contact over the μLED

(b) Schematic of the stack of the μLEDs 

9c) Simulation setup used to for transient simulation

Acknowledgments: This work is part of the IPCEI Microelectronics and Connectivity and was supported by the French Public Authorities within the frame of France 2030 and by the Institut Carnot CEA-Leti.

[Conference] 33rd Austrochip 2025

Austrochip 2025

33rd Austrian Workshop on Microelectronics

September 25, 2025 – Linz, Austria

The TT workshop program

Conference Program

08:00 – 09:00 Coffee & Registration
09:00 – 09:15 Conference Opening
09:15 – 10:00 First Keynote-Address

• IHP OpenPDK and MPW: Pushing Open-Source EDA tools to Analog and RF Design René Scholz IHP – Leibniz Institute for high performance Microelectronics, Im Technologiepark 25, 15236 Frankfurt (Oder), Germany

10:00 – 10:45 Second Keynote-Address

• Open-source SoC design using PULP Frank K. Gürkaynak ETH Zürich, IIS, ETZ J 60.1, Gloriastrasse 35, 8092 Zürich, Switzerland

10:45 – 11:00 Break
11:00 – 12:00 Paper Session I:
Session Chair: TBA, TBA

• Gain Expansion Generator based on a Reduced Conduction Angle for H-Band Applications Thomas Ufschlag, Benjamin Schoch, Lukas Gebert, Dominik Wrana, Axel Tessmann and Ingmar Kallfass University of Stuttgart (ILH), Fraunhofer Institute for Applied Solid State Physics IAF
• Greyhound: A Reconfigurable and Extensible RISC-V SoC and eFPGA on IHP SG13G2 Leo Moser, Meinhard Kissich, Tobias Scheipel and Marcel Baunach Graz University of Technology
• Comparison of Low Power Digitally Controlled Ring Oscillator Architectures in 12 nm FinFET Florian Schneider, Luca Avallone and Alicja Michalowska-Forsyth Infineon Technologies Austria AG Institute of Electronics (IFE), Graz University of Technology

12:00 – 12:30 Poster & Sponsor Pitch Session
12:30 – 14:00 Lunch
14:00 – 15:15 Paper Session II:
Session Chair: TBA, TBA

• A 150-GHz 9-dBm EIRP Open-Source FMCW Radar Chip in 130-nm BiCMOS Ghaith Al Sabagh, Georg Zachl and Harald Pretl Institute for Integrated Circuits and Quantum Computing, JKU Linz

• A CMOS Source-Coupled Relaxation Oscillator Achieving Close-in Phase Noise of −72.9 dBc/Hz at a 1 kHz Offset Baset Mesgari, Saeed Saeedi, Reinhard Feger and Horst Zimmermann Institute for Communications Engineering and RF-Systems, Johannes Kepler University Linz Faculty of Electrical and Computer Engineering, Tarbiat Modares University Christian Doppler Laboratory MWTH

• A FR3, 25 dBm Unbalanced MMIC GaAs Doherty Power Amplifier with Auxiliary Gate Voltage Modulation for Linearity Improvement Abdolhamid Noori, Fatemeh Abbassi, Christoph Wagner, Christian Fager and Gregor Lasser Chalmers University of Technology, Silicon Austria Labs

• A 72.7-90.4 GHz VCO with a Stacked NMOS based Tuning Network in 28nm FDSOI Waseem Abbas, Samir Aziri and Christoph Wagner Silicon Austria Labs

• A D-Band Active Down-Conversion Mixer with 80 GHz IF for FMCW Radar Frequency Extension Fatemeh Abbassi, Samir Aziri, Waseem Abbas, Christoph Wagner and Timm Ostermann Silicon Austria Labs, Institute for Integrated Circuits and Quantum Computing, JKU Linz

15:15 – 15:30 Break
15:30 – 16:45 Paper Session III:
Session Chair: TBA, TBA

• Design Automation of a Digitally Controlled Ring Oscillator using CUAS Cell Creator Framework Daniel Cerdà Holmager, Santiago Martin Sondón, Violeta Petrescu, Wolfgang Scherr and Johannes Sturm Carinthia University of Applied Sciences in Austria, CUAS
• Event-Based ADCs vs. Nyquist ADCs: Rethinking Performance Metrics Simon Dorrer, Anna Werzi, Bernhard A. Moser, Michael Lunglmayr and Harald Pretl Institute for Integrated Circuits and Quantum Computing, JKU Linz Institute of Signal Processing, JKU Linz
• Modeling Location-dependent Random Telegraph Noise for Circuit Simulators Florian Berger, Gerhard Landauer, Alicja Michalowska-Forsyth, Martin Flatscher, Philipp Greiner and Stefan Gansinger Institute for Electronics, Graz University of Technology Power and Sensor Systems, Infineon Technologies
• An 8.1-µW 12-bit Non-Binary Self-Clocked SAR-ADC in 130 nm Open-Source PDK Ali Olyanasab, Patrick Fath, Leonhard Schreiner, Christoph Guger and Harald Pretl g.tec medical engineering GmbH Institute for Integrated Circuits and Quantum Computing, JKU Linz
• SPAD Active Quenching/Resetting Circuit in 0.35-µm HV-CMOS Enabling 24V Excess Bias for PDP >90% Sherwin Nasirifar, Baset Mesgari, Christoph Ribisch, Saman Kohneh Poushi and Horst Zimmermann Institute of Electrodynamics, Microwave and Circuit Engineering, TU Wien Institute for Communications Engineering and RF Systems, JKU Linz Austrian Institute of Technology (AIT), Vienna Silicon Austria Labs

16:45 – 17:00 Conference Closing, Best Paper Award & Outlook Austrochip 2026

Aging Model for ASAP 7nm Predictive PDK

Neha Gupta¹, Lomash Chandra Acharya¹, Mahipal Dargupally¹, Khoirom Johnson Singh², Amit Kumar Behera¹, Johan Euphrosine³, Sudeb Dasgupta¹, Anand Bulusu¹

Aging Model Development for ASAP 7 nm Predictive PDK: Application in Aging-Aware Performance Prediction of Digital Logic and ADCs in Data Acquisition System

IEEE ISVLSI (2025)

DOI: 10.1109/ISVLSI65124.2025.11130265

1 Indian Institute of Technology, Roorkee, (IN)
2 Dhanamanjuri University, Manipur (IN)
3 Google, Tokyo (J)

Abstract: As semiconductor technology advances to sub- 10nm nodes, Design Technology Co-Optimization (DTCO) has emerged as an essential paradigm for co-optimizing processes and design methodologies. Although the ASAP 7nm Predictive PDK (Process Design Kit), which is a free and open-source academic PDK developed by the Arizona State University (ASU) research team, is a useful open-source platform for digital design research, it lacks key DTCO features such as reliability modeling, aging resilience, and security-aware co-design. In this article, we present our developed aging model for ASAP 7nm Predictive PDK and utilize it to evaluate the impact of transistor aging on the performance of digital timing logic and a memory cell which provides timing feedback from a DTCO point-of-view concerning standard cells and other reference circuit designing. In this work, different logic gates, benchmark circuits, N-stage ring oscillator and 6T SRAM bitcell are used as the representative of digital logic and memory cell, respectively. We further utilize our developed aging model to predict performance of an analog-to-digital converter in data acquisition systems. The developed aging model would be released for the research community for further improvement in design reliability and technology enhancement along with OPENROAD Tool flow.

Fig. (a) Flow chart for representing steps required to develop Verilog-A aging model 

for ASAP 7nm Predictive PDK (FinFET) process. 

(b) Inclusion of the developed aging model to incorporate aging impact in static timing analysis (STA).

FOSSEE eSim Marathon – Circuit Design & Simulation with IHP SG13G2

Design, Simulate, Showcase

Unlock Open-Source VLSI Design  using eSim + IHP SG13G2 OpenPDK!!!

The eSim Marathon - Circuit Design & Simulation with IHP SG13G2 is a nationwide circuit design competition where participants use eSim, an open-source EDA tool developed by FOSSEE, IIT Bombay, to design and simulate circuits using the IHP OpenPDK for 130nm SG13G2 BiCMOS technology from IHP Microelectronics, Germany.

Key Highlights:

• Tool Used: eSim - a free and open-source alternative to commercial circuit design tools 
• OpenPDK Used: IHP SG13G2 - enables design of analog, digital, and RF circuits at 130 nm BiCMOS.
• Objective: Design, simulate, and submit functional analog/digital/mixed-signal circuits.
• Eligibility: Open to individuals - students, hobbyists, and early-career professionals.
• Learning Outcomes: Participants gain hands-on VLSI design experience using a real foundry OpenPDK, develop schematics, run simulations, and build documentation - entirely with open tools.

Register < https://esim-marathon.netlify.app/register/ >

Timeline

Date	Activity	Description
1 Sept. - 15 Sept. 2025	Registration for the Marathon	Complete the participation form
16 Sept. 2025	Marathon Inauguration Webinar	FOSSEE Team will introduce through eSim, IHP and Marathon process
16 Sept. - 23 Sept. 2025	Literature Survey	Participants need to research the topic available in papers/journals on the web
23 Sept. 2025	Report Submission	Submit one-page research conclusion and circuit implementation plan
23 Sept. - 5 Oct. 2025	Implementation	Design, characterise and simulate using eSim platform
5 Oct. - 8 Oct. 2025	Report Submission & Documentation	Upload reference and actual circuit/waveform using eSim
25 Oct. 2025	Result Declaration (Provisional)	Announcement of provisional results