Pietro Maris Ferreira

Paris-Saclay

pietro.marisferreira [at] centralesupelec.fr

Résumé :

  • Pietro Maris Ferreira (S'03-SG'06-M'12-SM'18) received the B.Sc. cum lauda and the M.Sc. degrees from the Federal University of Rio de Janeiro (UFRJ), Brazil in 2006 and 2008, respectively, and the Ph.D. degree from the Télécom ParisTech, France, in 2011, all in electronic engineering. Researching high-performance high-reliability circuits and systems, he joined IM2NP lab. (UMR CNRS 7334) for one year and IEMN lab. (UMR CNRS 8520) for two years during his tenure track. Since 2014, he has been with GeePs lab. (UMR CNRS 8507) as Associated Professor of the Dep. of Electronic Systems of CentraleSupélec at Université Paris-Saclay, France. His research interest is design methodologies for harsh environments and microwave integrated circuits.

Mots clés :

  • circuits and systems, microwave theory and techniques

Publications :

  • Communication on a congress - 47 documents
    • Vanessa M. da F. Botinelly, Filipe F. Caetano, Pietro M. Ferreira, Osamu Saotome, Lucas Compassi-Severo. Design of Low-Power 5 . 8-GHz ULV LNTAs using Normalized Biasing Metric, 2024-09-02. (https://hal.science/hal-04631371v1)
    • Ali Mostafa, João R. Raposo de O. Martins, Jérôme Juillard, Pietro M. Ferreira. A gm/Id based methodology to estimate OTA requirements in low-pass discrete time Σ∆-ADCs, 2024-05-19. (https://centralesupelec.hal.science/hal-04403410v1)
    • Hanane Meliani, Emilie Avignon-Meseldzija, Jelena Anastasov, Dejana Milić, Pietro M. Ferreira. Design of a passive dispersive filter for analog pulse compression radar, 2023-10-25. (https://hal.science/hal-04316496v1)
    • Zalfa Jouni, Théo Prats Rioufol, Siqi Wang, A. Benlarbi-Delai, Pietro M. Ferreira. Jitter Noise Impact on Analog Spiking Neural Networks: STDP Limitations, 2023-08-28. (https://hal.science/hal-04193888v1)
    • Théo Prats Rioufol, Zalfa Jouni, Thomas Soupizet, Pietro M. Ferreira. Revisiting the Ultra-Low Power Electronic Neuron Towards a Faithful Biomimetic Behavior, 2023-08-28. (https://hal.science/hal-04193898v1)
    • Jack Ou, Pietro M. Ferreira. A Tunable Morris-Lecar Spiking Neuron in CMOS, 2023-08-06. (https://hal.science/hal-04141227v1)
    • Siqi Wang, Pietro Maris Ferreira, A. Benlarbi-Delai. Dual-band Transmitter Linearization using Spiking Neural Networks, 2022-11-29. (https://hal.science/hal-03799133v1)
    • Jack Ou, Pietro Maris Ferreira. Analysis of an Inverter-Based CMOS Envelope Detector, 2022-10-24. (https://hal.science/hal-03799138v1)
    • Artur Piana, Siqi Wang, Joao Frischenbruder Sulzbach, Paolo Zaniboni, Raphael El-Haddad, A. Benlarbi-Delai, Geoffroy Klisnick, Pietro Maris Ferreira. Smart IoT - Implementation of Neuromorphic Circuits, 2022-08-24. (https://centralesupelec.hal.science/hal-03726659v1)
    • Joao Frischenbruder Sulzbach, Siqi Wang, Zalfa Jouni, A. Benlarbi-Delai, Geoffroy Klisnick, Pietro Maris Ferreira. Sub-nJ per Decison Schmitt Trigger Comparator for Neuromorphic Spike Detection in 55nm Technology, 2022-08-24. (https://centralesupelec.hal.science/hal-03726654v1)
    • Thomas Soupizet, Zalfa Jouni, Joao Frischenbruder Sulzbach, A. Benlarbi-Delai, Pietro Maris Ferreira. Deep Neural Network Feasibility Using Analog Spiking Neurons, 2022-08-22. (https://centralesupelec.hal.science/hal-03689837v1)
    • Zalfa Jouni, Thomas Soupizet, Siqi Wang, A. Benlarbi-Delai, Pietro Maris Ferreira. 1.2 nW Neuromorphic Enhanced Wake-Up Radio, 2022-08-22. (https://centralesupelec.hal.science/hal-03689791v1)
    • Siqi Wang, Pietro Maris Ferreira, A. Benlarbi-Delai. Behavioral Modeling of Nonlinear Power Amplifiers Using Spiking Neural Networks, 2022-06-19. (https://centralesupelec.hal.science/hal-03689855v1)
    • João R. Raposo de O. Martins, Francisco Alves, Pietro Maris Ferreira. A 237 ppm / ◦ C L-Band Active Inductance Based Voltage Controlled Oscillator in SOI 0.18 µm, 2021-08-23. (https://hal.science/hal-03329925v1)
    • Fernando Ferreira, Pietro Maris Ferreira, Sandro Binsfeld Ferreira. A Flexible Low-Cost Discrete-Time Wake-up Receiver for LoRaWAN Applications, 2021-06-13. (https://hal.science/hal-03203162v1)
    • Jérôme Juillard, Ali Mostafa, Pietro Maris Ferreira, Manon Gouspy, Michael Kraft. A highly-linear, integration-compatible output metric for amplitude-modulated resonant sensors based on weakly-coupled resonators, 2020-10-25. (https://hal.science/hal-02948372v1)
    • Jamel Nebhen, Pietro Maris Ferreira, S. Mansouri, M. Masmoudi. A 108-dB DR 103-dB SNR Delay-Time Chopper Stabilization Audio CT ΔΣ Modulator, 2020-06-07. (https://hal.science/hal-02612626v1)
    • Emilie Avignon-Meseldzija, João Alberto de França Ferreira, Pietro Maris Ferreira, Philippe Benabes. A Compact Active Phaser with Enhanced Linearity of Group Delay for Analog Signal Processing, 2019-10-23. (https://hal.science/hal-02290328v1)
    • João R. Raposo de O. Martins, Emilie Avignon-Meseldzija, Pietro Maris Ferreira. Temperature-Aware gm/ID-based Methodology for Active Inductor Design, 2019-08-26. (https://centralesupelec.hal.science/hal-02268794v1)
    • Pietro Maris Ferreira, Nathan de Carvalho, Geoffroy Klisnick, A. Benlarbi-Delai. Energy efficient fJ / spike LTS e-Neuron using 55-nm node, 2019-08-26. (https://hal.science/hal-02290309v1)
    • Pietro Maris Ferreira, João R. Raposo de O. Martins, Ali Mostafa, Jérôme Juillard. Process-Voltage-Temperature Analysis of a CMOS-MEMS Readout Architecture, 2019-05-12. (https://hal.science/hal-02290321v1)
    • Ali Mostafa, Jérôme Juillard, João R. Raposo de O. Martins, Pietro Maris Ferreira. An Adaptative Ratio-Metric Analog-To-Digital Interface For Weakly-Coupled Resonant Sensors Based On Mutually Injection-Locked Oscillators, 2019-05-12. (https://hal.science/hal-02290315v1)
    • João Alberto de França Ferreira, Emilie Avignon-Meseldzija, Pietro Maris Ferreira, Philippe Benabes. Design and Synthesis of Arbitrary Group Delay Filters for Integrated Analog Signal Processing, 2018-12-09. (https://hal.science/hal-01898793v1)
    • Audrey Michard, N. Michit, J. F. Carpentier, P. Le Maitre, J. B. Quelene, Pietro Maris Ferreira. O-Band 50Gb/s Ring Modulator in a 300mm Si Photonic Platform, 2018-09-23. (https://hal.science/hal-03203134v1)
    • Pietro Maris Ferreira, Martin Schaeffer, Adel Mezaour, Olivier Petit, Caroline Lelandais-Perrault, Gérad Charbonnier. A − 40 to 250 °C Triple Modular Redundancy Temperature Sensor for Turbofan Engines, 2018-08-27. (https://hal.science/hal-01868264v1)
    • Jack Ou, Pietro Maris Ferreira. A CMOS Envelope Detector for Low Power Wireless Receiver Applications, 2018-06-24. (https://hal.science/hal-01789807v1)
    • Jérôme Juillard, Pierre M Prache, Pietro Maris Ferreira, Nuria Barniol. Resolution of phase difference and frequency measurements of mutually injection-locked oscillators for resonant sensing applications, 2018-05-22. (https://hal.science/hal-01800828v1)
    • Jérôme Juillard, Ali Mostafa, Pietro Maris Ferreira. Nonlinear enhancement of locking range of mutually injection-locked oscillators for resonant sensing applications, 2018-04-10. (https://hal.science/hal-01796631v1)
    • Jérôme Juillard, Ali Mostafa, Pietro Maris Ferreira. Analysis of resonant sensors based on mutually injection-locked oscillators beyond the critical Duffing amplitude, 2018-04-10. (https://hal.science/hal-01796629v1)
    • Ludwig Cron, Philippe Laugier, Pietro Maris Ferreira, Filipe Vinci dos Santos, Philippe Benabes. Delay estimation and measurement circuit for a high-speed CMOS clocked comparator, 2017-09-04. (https://hal.science/hal-01657124v1)
    • Adriano V. Fonseca, Rachid El Khattabi, William A Afshari, Fernando a P Barúqui, Carlos F T Soares, Pietro M. Ferreira. A temperature-aware analysis of latched comparators for smart vehicle applications, 2017-08-28. (https://hal.science/hal-01656784v1)
    • Jérôme Juillard, Pierre M Prache, Pietro Maris Ferreira, Nuria Barniol. Impact of output metric on the resolution of mode-localized MEMS resonant sensors, 2017-07-09. (https://hal.science/hal-01657114v1)
    • Jack Ou, Pietro Maris Ferreira. Design Considerations of a CMOS Envelope Detector for Low Power Wireless Receiver Applications, 2017-06-25. (https://hal.science/hal-01657109v1)
    • Audrey Michard, Nicolas Michit, Jean-Baptiste Quelene, Jean-François Carpentier, Pietro Maris Ferreira. Influence of Thermo-mechanical Effects induced by 3D Assembly on Silicon Microring Resonator, 2017-04-03. (https://centralesupelec.hal.science/hal-01535044v1)
    • Pierre M Prache, Pietro Maris Ferreira, N Barniol, Jérôme Juillard. Monolithic integration of mutually injection-locked CMOS-MEMS oscillators for differential resonant sensing applications, 2016-12-11. (https://centralesupelec.hal.science/hal-01418133v1)
    • Audrey Michard, Pietro Maris Ferreira, Jean-François Carpentier. 0.18-µm CMOS Driver Optimization for Maximum Data Rate under Power and Area Constraints, 2016-06-26. (https://centralesupelec.hal.science/hal-01357884v1)
    • Pietro Maris Ferreira, Anthony Kolar, Philippe Benabes. Optimization Methodology for a 460-MHz-GBW and 80-dB-SNR Low-Power Current-Mode Amplifier, 2015-08-31. (https://centralesupelec.hal.science/hal-01222050v1)
    • Emilie Avignon-Meseldzija, Pietro Maris Ferreira, Lekkas Konstantinos, Fabrice Boust. A high-Q Tunable Grounded Negative Inductor for Small Antennas and Broadband Metamaterials, 2015-06-07. (https://centralesupelec.hal.science/hal-01222040v1)
    • Pietro Maris Ferreira, Cora Donche, Kamel Haddadi, Tuami Lasri, Thomas Quemerais, Christophe Gaquière, Daniel Gloria, Gilles Dambrine. 1 – 20 GHz kΩ -range BiCMOS 55 nm Reflectometer, 2014-06-22. (https://hal.science/hal-01222113v1)
    • Jack Ou, Pietro Maris Ferreira. Transconductance / Drain Current Based Sensitivity Analysis for Analog CMOS Integrated Circuits, 2013-06-16. (https://hal.science/hal-01222134v1)
    • Pietro Maris Ferreira, Emmanuel Bergeret, Philippe Pannier. 1.4 V and 300 nA UHF Passive RFID Voltage Regulator, 2012-06-17. (https://hal.science/hal-01222144v1)
    • Pietro Maris Ferreira, Hervé Petit, Jean-Francois Naviner. WLAN / WiMAX RF Front-End Reliability Analysis, 2011-08-30. (https://hal.science/hal-01898818v1)
    • Pietro Maris Ferreira, Hervé Petit, Jean-François Naviner. A New Synthesis Methodology for Reliable RF front-end Design, 2011-05-15. (https://hal.science/hal-01222152v1)
    • Pietro Maris Ferreira, Hervé Petit, Jean-Francois Naviner. AMS and RF Design for Reliability Methodology, 2010-05-20. (https://hal.science/hal-01898819v1)
    • Pietro Maris Ferreira, Hervé Petit, Jean-Francois Naviner. CMOS 65 nm wideband LNA reliability estimation, 2009-06-28. (https://hal.science/hal-01898815v1)
    • Pietro Maris Ferreira, José Gabriel R.C. Gomes, Antonio Petraglia. Current mode read-out circuit for infrared photodiode applications in 0.35 μm CMOS, 2008-08-20. (https://hal.science/hal-01898807v1)
    • Pietro Maris Ferreira, Antonio Petraglia, Fernando Antonio Pinto Baruqui. A CMOS AM Demodulator for Instrumentation Applications, 2007-08-25. (https://hal.science/hal-01898811v1)
  • Other submission - 5 documents
  • Article in a review - 30 documents
    • Hanane Meliani, Emilie Avignon-Meseldzija, Jelena Anastasov, Dejan N Milic, Pietro M. Ferreira. On The Design of Passive Dispersive Filters for Analog Signal Processing Applications, 2024. (https://hal.science/hal-04734804v1)
    • Thomas Soupizet, Zalfa Jouni, Siqi Wang, A. Benlarbi-Delai, Pietro M. Ferreira. Analog Spiking Neural Network Synthesis for the MNIST, 2023-05-22. (https://hal.science/hal-04118869v1)
    • Zalfa Jouni, Thomas Soupizet, Siqi Wang, A. Benlarbi-Delai, Pietro M. Ferreira. RF Neuromorphic Spiking Sensor for Smart IoT Devices, 2023. (https://hal.science/hal-04133969v1)
    • Siqi Wang, Pietro Maris Ferreira, Aziz Benlarbi-Delai. Physics Informed Spiking Neural Networks: Application to Digital Predistortion for Power Amplifier Linearization, 2023. (https://hal.science/hal-04118835v1)
    • João R. Raposo de O. Martins, Francisco de Oliveira Alves, Pietro Maris Ferreira. A General gm/Id Temperature-Aware Design Methodology Using 180 nm CMOS up to 250 °C, 2022-04-30. (https://centralesupelec.hal.science/hal-03689553v1)
    • Pietro Maris Ferreira, Emilie Avignon-Meseldzija, Philippe Benabes, Francis Trélin. Surface versus Performance Trade-offs: A Review of Layout Techniques, 2022-04-30. (https://centralesupelec.hal.science/hal-03689551v1)
    • Jamel J Nebhen, Pietro Maris Ferreira. A chopper negative-R Delta-Sigma ADC for audio MEMS sensors, 2022-01-14. (https://hal.science/hal-03471388v1)
    • Jack Ou, Brendon Palmer, Laurence Hou, Pietro Maris Ferreira. Analysis and Implementation of OVSF Address Decoders, 2022-01-01. (https://hal.science/hal-03249896v1)
    • João R. Raposo de O. Martins, Ali Mostafa, Jérôme Juillard, Rachid Hamani, Francisco De Oliveira Alves, Pietro Maris Ferreira. A Temperature-Aware Framework on gm/ID-Based Methodology using 180 nm SOI from -40 ◦C to 200 ◦C, 2021-03-21. (https://hal.science/hal-03176579v1)
    • Mojtaba Daliri, Pietro Maris Ferreira, Geoffroy Klisnick, A. Benlarbi-Delai. A Comparative Study Between E-Neurons Mathematical model and Circuit model, 2021-02-05. (https://hal.science/hal-02948300v1)
    • Pietro Maris Ferreira, Jamel Nebhen, Geoffroy Klisnick, A. Benlarbi-Delai. Neuromorphic Analog Spiking-Modulator for Audio Signal Processing, 2021. (https://hal.science/hal-02948290v1)
    • Audrey Michard, Jean-François Carpentier, Nicolas Michit, Patrick Lemaitre, Philippe Benabes, Pietro Maris Ferreira. A sub-pJ/bit, low-ER Mach-Zehnder-based Transmitter for chip-to-chip Optical Interconnects, 2020-03-31. (https://hal.science/hal-02404779v1)
    • João Alberto França Ferreira, Emilie Avignon-Meseldzija, Pietro Maris Ferreira, Julien Sarrazin, Philippe Benabes. Design of integrated all‐pass filters with linear group delay for analog signal processing applications, 2020-01-25. (https://centralesupelec.hal.science/hal-02504364v1)
    • Jamel Nebhen, Pietro Maris Ferreira, Sofiene Mansouri. A Chopper Stabilization Audio Instrumentation Amplifier for IoT Applications, 2020. (https://hal.science/hal-02544379v1)
    • Jerome Juillard, Ali Mostafa, Pietro Maris Ferreira. Nonlinear Operation of Resonant Sensors Based On Weakly Coupled Resonators: Theory and Modeling, 2019-12. (https://hal.science/hal-02404745v1)
    • Jerome Juillard, Ali Mostafa, Pietro Maris Ferreira. Nonlinear operation of resonant sensors based on weakly-coupled resonators: Experimental investigation of an actively-coupled architecture, 2019-10. (https://hal.science/hal-02404752v1)
    • Jack Ou, Pietro Maris Ferreira. Implications of Small Geometry Effects on gm/ID Based Design Methodology for Analog Circuits, 2019-01-01. (https://hal.science/hal-01809251v1)
    • Jérôme Juillard, Pierre M Prache, Pietro Maris Ferreira, Nuria Barniol. Ultimate limits of differential resonant MEMS sensors based on two coupled linear resonators, 2018-12-01. (https://hal.science/hal-01868247v1)
    • Adriano V. Fonseca, Pietro Maris Ferreira, Ludwig Cron, Fernando Antonio Pinto Baruqui, Carlos Fernando, Philippe Benabes. A Temperature-Aware Analysis of SAR ADCs for Smart Vehicle Applications, 2018-08-24. (https://hal.science/hal-01862894v1)
    • Pietro Maris Ferreira, Cora Donche, Emilie Avignon-Meseldzija, Thomas Quémerais, Frederic Gianessello, Daniel Gloria, Tuami Lasri, Gilles Dambrine, Christophe Gaquière. Fully Integrated Interferometry-Based Reflectometer for High-Impedance Instrumentation, 2018-04-13. (https://hal.science/hal-01789805v1)
    • Jack Ou, Pietro Maris Ferreira. Design considerations of CMOS active inductor for low power applications, 2018-03. (https://hal.science/hal-01657110v1)
    • Pierre Prache, Jérome Juillard, Pietro Maris Ferreira, Nuria Barniol, Marti Riverola. Design and characterization of a monolithic CMOS-MEMS mutually injection-locked oscillator for differential resonant sensing, 2018-01. (https://hal.science/hal-01656775v1)
    • Emilie Avignon-Meseldzija, Thomas Lepetit, Pietro Maris Ferreira, Fabrice Boust. Negative inductance circuits for metamaterial bandwidth enhancement, 2017. (https://hal.science/hal-01655934v1)
    • Pietro Maris Ferreira, Cora Donche, Ambroise Delalin, Thomas Quémerais, Daniel Gloria, Tuami Lasri, Gilles Dambrine, Christophe Gaquière. Sub-fF 130 nm MOS Varactor Characterization using 6 . 8 GHz Interferometry-based Reflectometer, 2015-05-06. (https://centralesupelec.hal.science/hal-01217908v1)
    • Jack Ou, Pietro Maris Ferreira. A Unified Explanation of gm /ID -Based Noise Analysis, 2015-01. (https://centralesupelec.hal.science/hal-01222077v1)
    • Jack Ou, Pietro Maris Ferreira. A gm/ID-Based Noise Optimization for CMOS Folded-Cascode Operational Amplifier, 2014-10-01. (https://centralesupelec.hal.science/hal-01074273v1)
    • Jack Ou, Pietro M. Ferreira, Pietro M. Ferreira, Jui-Chu Lee. Experimental Demonstration of <i>g<sub>m</sub></i>/I<i><sub>D</sub></i> Based Noise Analysis, 2014-04. (https://hal.science/hal-01222130v2)
    • Pietro Maris Ferreira, Hervé Petit, Jean-François Naviner. A synthesis methodology for AMS/RF circuit reliability: Application to a DCO design, 2010-12-14. (https://hal.science/hal-01417129v1)
    • Pietro Maris Ferreira, José Gabriel R.C. Gomes, Antonio Petraglia. Current mode read-out circuit for InGaAs photodiode applications, 2010-07. (https://hal.science/hal-01222155v1)
    • Pietro Maris Ferreira, Fernando a P Barúqui, Antonio Petraglia. A 0.35 μm CMOS AM demodulator, 2008-08-01. (https://hal.science/hal-01417139v1)
  • POSTER - 5 documents
    • Zalfa Jouni, Thomas Soupizet, Siqi Wang, A. Benlarbi-Delai, Pietro Maris Ferreira. 1.2 nW Neuromorphic Enhanced Wake-Up Radio, 2022-06-27. (https://hal.science/hal-03690092v1)
    • João R. Raposo de O. Martins, Francisco Alves, Pietro Maris Ferreira. From Semiconductor to Transistor-Level: Modeling, Simulation, and Layout Rendering Tools, 2022-06-27. (https://hal.science/hal-03690082v1)
    • João R. Raposo de O. Martins, Pietro Maris Ferreira. Méthodologie de Conception Conscient des Variations en Température: Circuits de Lecture pour les Environnements Sous Contraintes, 2019-06-03. (https://hal.science/hal-02294927v1)
    • Audrey Michard, Jean-François Carpentier, Pietro Maris Ferreira. Tiny companion testchip for 56 Gbaud applications based on microring resonators, 2016-08-29. (https://centralesupelec.hal.science/hal-01420967v1)
    • Audrey Michard, Jean-François Carpentier, Pietro Maris Ferreira. Les challenges de l'intégration monolithique et hybride pour la photonique sur silicium, 2016-05-11. (https://centralesupelec.hal.science/hal-01357880v1)
  • HDR - 1 document
  • Pre-submission / Working document - 2 documents
  • Work chapter - 2 documents
  • Dissertation - 1 document