- Docente: Antonio Gnudi
- Crediti formativi: 3
- Lingua di insegnamento: Inglese
- Modalità didattica: Convenzionale - Lezioni in presenza
- Campus: Bologna
- Corso: Laurea Magistrale in Ingegneria elettronica (cod. 0934)
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dal 31/03/2025 al 26/05/2025
Conoscenze e abilità da conseguire
The course will consist of several technical seminars, given by internationally renowned experts in the field. They will address industrial challenges and trends in the design and production of electronic integrated circuits and systems.
Contenuti
Si prega di controllare questo sito per aggiornamenti sui seminari e/o date/orari.
- 31/3/2025, 10:00-13:00, aula 3.1: Ing. Giulio Ricotti, STMicroelectronics, "How an Integrated Circuit is created and managed"
Abstract:
The presentation goes through the evolution of Smart Power technologies, from ICs integrating a few power functions for motor drive or DC/DC converters, to a huge number of HV drivers (up to 200 V) for many actual application fields. A special focus will be given to the technical management of a new product from definition to final qualification passing through all the maturity steps and gates.
- 7/4/2025, 12:00-14:00, aula 0.6: Ing. Jacopo Iannacci, Fondazione Bruno Kessler, "Pivoting on Micro/Nanotechnologies to support the transition to 6G and Future Networks"
Abstract:
Looking to 2030, the future data- and communication-centric paradigms of 6G, Super-IoT (Internet of Things) and Tactile Internet (TI), will require leaps forth at technology and, also notably, at conceptual level. Artificial Intelligence (AI) will be a cornerstone both on the service and network operation plane, leveraging self-sustenance and self-evolution of the infrastructure. Within such a context, the currently-in-use design methods for Hardware-Software (HW-SW) systems are regarded as increasingly less suitable to fully meet the challenge.
This seminar will focus on low-complexity HW components, like sensors, actuators, and transducers, with reference to Micro/Nano (MEMS/NEMS) technologies.
After introducing how such technologies evolved through time and are commercially exploited today, reinforcement of the HW vs. SW separation and symmetry is proposed, overcoming the so-called HW-SW divide. The resulting frame of reference embodies solutions based on Micro/Nano technologies, regarded as pivotal in the transition to 6G/TI.
- 14/4/2025, 15:00-18:00, aula magna Foscolo: Ing. Gianni Borelli, Beghelli Group, "Challenges in wireless communication and IoT"
Abstract:
Internet of things (IoT) paradigms are based on the continuous pervasive and ubiquitous interaction of devices spread in the living environment. A cardinal element of IoT is the wireless communication between devices. The lecture reviews relevant communication techniques and standards. A few IoT application examples are included.
Topics:
- Internet of Things
- Wireless low power radio communication
- Digital spread spectrum radios
- Wireless standards for IoT
- Reliability and security challenges
- 5G and IoT
- Modern SoCs (System on Chip) for the IoT
- New IoT Alliances
- Lighting systems and IoT
- 12/5/2025, 14:30-17:00, aula 4.1: Ing. Pietro Casarola, Marposs, "Semiconductor manufacturing control: an overview with insight into the dicing process"
Abstract:
Semiconductor manufacturing demands extremely high quality and precision standards. In this context, Marposs plays a key role by providing advanced metrology solutions for in-process control during both front-end and back-end operations. Since the 1980s, Marposs has developed dedicated applications for the semiconductor and LED industries, offering non-contact sensors and measurement systems for critical operations such as ingot slicing, wafer grinding, dicing, and packaging.
One of the most recent technological advancements in this field is the Visual Blade Inspector (VBI) system, which enables highly accurate, virtual monitoring of dicing blade conditions and performance. This technology helps prevent wafer defects and machine downtime while minimizing waste and improving overall yield. VBI leverages advanced sensors and intelligent algorithms to analyze blade behavior in real-time, delivering continuous process control.
- 19/5/2025, 10:00-13:00, aula 4.1: Ing. Claudio Ricci, Danisi Engineering, title to be defined
- 26/5/2025, 12:00-14:00, aula magna Foscolo: Ingg. Andrea Vecchiato e Cristian Garbossa, Infineon, "Driving Change: How Power Management Integrated Circuits support Automotive Evolution"
Abstract:
The seminar will start with an introduction of automotive trends, focusing on electrification impact of power supplies distribution in the car. The link to microelectronic is than introduced with explanation of activities and roles involved in the definition of a semiconductor product in the context of automotive application. Finally a use case example is presented showing the development of a typical PMIC (Power Management Integrated Circuit) power architecture starting from some basic requirements.
Testi/Bibliografia
Verranno messe a disposizione le slide dei seminari.
Metodi didattici
Seminari in presenza.
Modalità di verifica e valutazione dell'apprendimento
Lo studente che vuole sostenere l'esame deve mandare una mail al docente responsabile del coordinamento del corso Prof. Antonio Gnudi, il quale risponderà assegnando tre titoli di seminari in modo random. Lo studente dovrà scegliere due titoli sui tre proposti e redigere per ciascuno di essi una relazione scritta, seguendo il template a disposizione su Virtuale, che dovrà inviare sempre via mail al docente. Se le relazioni saranno approvate, il superamento dell'esame verrà registrato.
Strumenti a supporto della didattica
Slides dei seminari.
Orario di ricevimento
Consulta il sito web di Antonio Gnudi