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Rodrigo Possamai Bastos

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Documents

Présentation

I am an Associate Professor at the Univ. Grenoble Alpes, CNRS, Grenoble INP, and TIMA Laboratory (France) since September 2012, having obtained my dual-nationality Ph.D. degree in nano and microelectronics with the Univ. Grenoble Alpes and UFRGS in July 2010 and the French accreditation for leading research (HDR) in January 2018. My current research interests include aspects related to reliability and security of integrated circuits and computing systems (hardware and software) for aerospace and ground-level applications, from designing to testing, including on-chip CMOS current sensors, solutions for mitigating effects of environmental energetic subatomic particles, and methods for carrying out accelerated ionizing radiation tests in computing systems, edge computing, inertial navigation systems, embedded artificial intelligence (AI) processing, and tiny machine learning applications. **Key research projects** * [MultiRad](https://sourcesup.renater.fr/wiki/multirad/public) * [stAte](https://sourcesup.renater.fr/wiki/state/public) **Coordination of undergraduate activities** * [Grenoble INP Phelma - Échange International BRAFITEC/BRAFISAT](https://sourcesup.renater.fr/wiki/brafisat) * [PHITEM M2 MISTRE - Architectures de systèmes à base processeurs](https://cours.univ-grenoble-alpes.fr/course/view.php?id=11828) * [DLST L2 - Parcours Mathématiques - Informatique International (MIN Int)](https://dlst.univ-grenoble-alpes.fr/formations/parcours-internationaux-parcours-selectifs-/parcours-mathematiques-informatique-international-min-int--122158.kjsp) * [DLST L1 - Formation Bureautique Internet (FBI)](https://cours.univ-grenoble-alpes.fr/course/view.php?id=3547) **Doctoral thesis supervisions** * (10) Leonardo Alexandrino de Melo (2024-2027): - Deploying compact and dependable deep neural networks in safety critical applications * (9) Luiz Henrique Laurini (2023-2026): - Mitigation of cosmic ray radiation effects in artificial intelligence computing systems * (8) Tarso Kraemer Sarzi Sartori (2020-2023): - Mitigation of radiation effects on the attitude estimation processing of autonomous things * (7) Matheus Garay Trindade (2018-2021): - Assessment of edge machine-learning systems under radiation-induced effects * (6) Ricardo Aquino Guazzelli (2017-2020): - Test and side-channel analysis of asynchronous circuits * (5) Otto Aureliano Rolloff (2015-2019): - Distributed body-bias micro-generators for an activity-driven power management in FD-SOI technologies * (4) Thiago Ferreira de Paiva Leite (2015-2018): - Energy efficiency opportunities of FD-SOI technology for asynchronous circuits * (3) Raphael Andreoni Camponogara Viera (2015-2018): - Modeling and simulating the effects of laser fault injection on integrated circuits * (2) Jean Simatic (2014-2017): - Design flow for ultra-low power: nonuniform sampling and asynchronous circuits * (1) Leonel Acunha Guimarães (2014-2017): - Testing techniques for detection of hardware Trojans in integrated circuits of trusted systems **Supervisions at level of master 2 or 3rd year of engineering school** * (13) Isabella Basso Pereira (2023-2024): - Testing procedures for assessment of computing systems under radiation effects * (12) Matthieu Charles (2022-2023): - Hardware and software set-up for evaluation of radiation effects in computing system * (11) Luiz Henrique Laurini (2022-2023): - Assessment of tiny machine-learning computing systems under neutron radiation effects * (10) Marti Gorchs Picas (2021-2022): - Analysis of medium-earth orbit radiation effects in spacecraft digital systems * (9) Marcelo Correa Cueto (2020-2021): - Analysis of medium-earth orbit radiation effects in multicore system for spacecraft * (8) Joao Sales Brum (2020-2021): - Soft error evaluation of attitude estimation algorithm in multicore computing system * (7) Jiaru Lin (2020-2021): - Test and analysis of multicore computing system under radiation effects * (6) Djeson Pascal-Valette (2020-2021): - Calibration board for radiation tests of electronic components under neutron beam instrument * (5) Matheus Garay Trindade (2017-2018): - Qualification of supervised learning models under radiation-induced effects * (4) Raphael Andreoni Camponogara Viera (2015): - Evaluation of new FD-SOI standard cells under the effects of malicious laser-induced transient faults * (3) Thiago Ferreira de Paiva Leite (2015): - Design of new digital signal processing subsystems by using FD-SOI technology and asynchronous features * (2) Otto Aureliano Rolloff (2014): - Design and evaluation of standard cells for asynchronous integrated circuits in low-power nanotechnology * (1) Ahmad Al Youssef (2013): - Evaluating the effectiveness of techniques for detection of transient faults

Publications

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