IMSE-CNM

Implementando conceptos innovadores en silicio

Áreas de Investigación

Analog Signal Processing
Analog Signal Processing

Digital Signal Processing & VLSI Systems
Digital Signal Processing & VLSI Systems

Brain-Inspired Neural Networks and Artificial Intelligence
Brain-Inspired Neural Networks and Artificial Intelligence

Sensory & Photonic Vision Systems
Sensory & Photonic Vision Systems

Nanoelectronics and Emerging Technologies
Nanoelectronics and Emerging Technologies

Biomedical and Bioinspired Circuits and Systems
Biomedical and Bioinspired Circuits and Systems

Integrated Circuits for Space Applications
Integrated Circuits for Space Applications

Hardware Security
Hardware Security

Noticias

Defensa de Tesis Doctoral
Defensa de Tesis Doctoral

Behavioral Modelling of CMOS SPADs based on TCAD Simulations.
Juan M. López Martínez
24 Enero 2023

Publicación en el blog La Cuadratura del Círculo
Publicación en el blog La Cuadratura del Círculo

La computación neuromórfica de alta velocidad, una realidad cada vez más cercana.
Rafaella Fiorelli

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Seminario IMSE-Forum
Seminario IMSE-Forum

Error correcting codes for hyper-speed memory and data storage.
IEEE Distinguished Lecturer Prof. Xinmiao Zhang, Dept. of Electrical & Computer Engineering, Ohio State University

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Proyecto DIGISOLAR
Luz verde para la financiación con fondos europeos del proyecto DIGISOLAR

El proyecto de sensor solar con tecnología andaluza para satélites recibe una subvención del programa para Agrupaciones Empresariales Innovadoras (AEI) del Ministerio de Industria, Comercio y Turismo, a través de los fondos Next Generation EU.

NOTA DE PRENSA

Proyecto NimbleAI
Kick-start del proyecto europeo NimbleAI

Los 19 socios europeos del proyecto se reunieron en Arrasate-Mondragón (España) para poner en marcha oficialmente NimbleAI, el proyecto de investigación de 3 años y 10M € que mejorará la eficiencia energética y el rendimiento de los chips neuromórficos de próxima generación que sostienen la visión basada en eventos.

NOTA DE PRENSA

Doctores Honoris Causa
Distinciones Doctor Honoris Causa

Los investigadores del IMSE Manuel Valencia, Ángel Barriga y Santiago Sánchez han sido galardonados con la distinción Doctor Honoris Causa por la Universidad Tecnológica de La Habana "José Antonio Echeverría" (CUJAE).

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EVENTOS Y NOTICIAS ANTERIORES

Laboratorios del IMSE

- Caracterización de Dispositivos
- Optoelectrónica
- Radiofrecuencia
- Medidas A/D
- Láser Pulsado
- Ciberseguridad del Hardware
- Sistemas Complejos
- ATE Agilent 93000
- Montajes Especiales
- Encapsulado
- Mecanización y Montaje de PCBs

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Formación en el IMSE

- Doctorado
- Máster
- Grados
- Trabajos Fin de Grado
- Prácticas en Empresa

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Publicaciones recientes

The diverse meteorology of Jezero crater over the first 250 sols of Perseverance on Mars
J.A. Rodriguez-Manfredi, M. de la Torre Juarez, A. Sanchez-Lavega, R. Hueso, G. Martinez, M.T. Lemmon, C.E. Newman, A. Munguira, M. Hieta, L.K. Tamppari, J. Polkko, D. Toledo, E. Sebastian, M.D. Smith, I. Jaakonaho, M. Genzer, A. de Vicente-Retortillo, D. Viudez-Moreiras, M. Ramos, A. Saiz-Lopez, A. Lepinette, M. Wolff, R.J. Sullivan, J. Gomez-Elvira, V. Apestigue, P.G. Conrad, T. Del Rio-Gaztelurrutia, N. Murdoch, I. Arruego, D. Banfield, J. Boland, A.J. Brown, J. Ceballos, M. Dominguez-Pumar, S. Espejo, A.G. Fairén, R. Ferrandiz, E. Fischer, M. Garcia-Villadangos, S. Gimenez, F. Gomez-Gomez, S.D. Guzewich, A.-M. Harri, J.J. Jimenez, V. Jimenez, T. Makinen, M. Marin, C. Martin, J. Martin-Soler, A. Molina, L. Mora-Sotomayor, S. Navarro, V. Peinado, I. Perez-Grande, J. Pla-Garcia, M. Postigo, O. Prieto-Ballesteros, S.C.R. Rafkin, M.I. Richardson, J. Romeral, C. Romero, H. Savijärvi, J. T. Schofield, J. Torres, R. Urqui, S. Zurita & the MEDA team
Journal Paper · Nature Geoscience, 2023
NATURE    ISSN: 1752-0894
resumen      doi      

NASA’s Perseverance rover’s Mars Environmental Dynamics Analyzer is collecting data at Jezero crater, characterizing the physical processes in the lowest layer of the Martian atmosphere. Here we present measurements from the instrument’s first 250 sols of operation, revealing a spatially and temporally variable meteorology at Jezero. We find that temperature measurements at four heights capture the response of the atmospheric surface layer to multiple phenomena. We observe the transition from a stable night-time thermal inversion to a daytime, highly turbulent convective regime, with large vertical thermal gradients. Measurement of multiple daily optical depths suggests aerosol concentrations are higher in the morning than in the afternoon. Measured wind patterns are driven mainly by local topography, with a small contribution from regional winds. Daily and seasonal variability of relative humidity shows a complex hydrologic cycle. These observations suggest that changes in some local surface properties, such as surface albedo and thermal inertia, play an influential role. On a larger scale, surface pressure measurements show typical signatures of gravity waves and baroclinic eddies in a part of the seasonal cycle previously characterized as low wave activity. These observations, both combined and simultaneous, unveil the diversity of processes driving change on today’s Martian surface at Jezero crater.

Accurate Face Recognition on Highly Compressed Samples
A. Khan, J. Fernández-Berni and R. Carmona-Galán
Conference · International Conference on Signal Image Technology and Internet Based Systems SITIS 2022
resumen     

Compressive sensing is an emerging field for lowdimensional data acquisition. Samples are acquired in the compressed domain and utilized for signal reconstruction or as input features for a classifier. In this work, hardware-aware face recognition using compressed samples was investigated. A linear support vector machine (SVM) classifier was exploited with compressed samples as input features; Faces can be reliably recognized with high average accuracy (up to 99%). To assess the robustness of the proposed scheme, three image datasets covering different facial and illumination conditions were analyzed. Random (binary) and structured (Haar-transform-based) measurement matrices were employed for generating compressed samples. For one of the datasets, Extended Yale B, and using a random binary measurement matrix, the proposed scheme achieved 82% accuracy from as few as 15 compressed samples, which means a 1/20480 sensing ratio. Accuracy and compression are also remarkably high with respect to the state-of-the-art for the other two datasets.

A Facial Authentication System using Post-Quantum-Secure Data Generated on Mobile Devices
P. López-González, R. Arjona, R. Román and I. Baturone
Conference · International Conference on Mobile Computing and Networking MOBICOM 2022
resumen     

This paper describes a demonstrator of a post-quantum-secure facial authentication system distributed between a mobile device acting as a client and a remote computer acting as an authentication server. Homomorphic encryption based on Classic McEliece, one of the fourth-round candidates of the NIST post-quantum standardization process, is carried out by the client for protecting the biometric data extracted from the users’ faces at enrollment and verification. The remote computer only stores and compares the received protected data, thus preserving user privacy. An Android App and a Graphical User Interface (GUI) were implemented at the client and the server, respectively, to show the system performance in terms of computation and security.

A Methodology for Defect Detection in Analog Circuits based on Causal Feature Selection
G. Leger, A. Gines, V. Gutierrez and M.J. Barragan
Conference · IEEE International Conference on Electronics Circuits and Systems ICECS 2022
resumen     

The cost of assuring test quality significantly increases when dealing with complex systems with tightly integrated AMS-RF building blocks. Machine learning-based test may be a promising solution to this issue. These tests rely on regression models trained to replace costly performance measurements by simpler test signatures. However, these regression models are targeted only at parametric performance variations in defect-free circuits. The presence of spot defects may be undetected by these tests and lead to test quality degradation and reliability issues. In this work we propose a methodology based on causal discovery algorithms to screen out these spot defects.

TODAS LAS PUBLICACIONES

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Qué hacemos en el IMSE

El área de especialización del Instituto es el diseño de circuitos integrados analógicos y de señal mixta en tecnología CMOS, así como su uso en diferentes contextos de aplicación tales como dispositivos biomédicos, comunicaciones inalámbricas, conversión de datos, sensores de visión inteligentes, ciberseguridad, computación neuromórfica y tecnología espacial.

La plantilla del IMSE-CNM está formada por unas cien personas, entre personal científico y de apoyo, que participan en el avance del conocimiento, la generación de diseños de alto nivel científico-técnico y la transferencia de tecnología.

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Webs relacionadas con el IMSE

Máster en Microelectrónica. Diseño y Aplicaciones de Sistemas Micro/Nanométricos

Doctorado en Ciencias y Tecnologías Físicas

Doctorado de Ingeniería Informática

SIMSIDES: A Time-Domain Behavioral Simulator for Sigma-Delta Modulators in MATLAB/SIMULINK

SHORES: Software & Hardware Open Repository for Embedded Systems

Fuzzy Logic Design Tools

El IMSE in los medios
El IMSE in los medios

El Mundo de los Chips
El Mundo de los Chips

Catálogo de servicios científico-técnicos
Catálogo de servicios científico-técnicos

Empleo en el IMSE
Empleo en el IMSE
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