Test and Design-for-Test of Analog, Mixed-Signals and RF (AMS-RF) Circuits

This research line gathers all the activities related to the development of test techniques. These can be low-cost functional approaches whose goal is the direct estimation of the specified performance. Other structural approaches (defect-oriented or indirect) make more use of Design-for-Testability features and rely on the consideration that the circuit is correct by design. As a result they are more focused on the detection of spot defects or unexpectedly excessive parametric deviations.

In both cases, embedded test techniques (commonly called Built-In Self-Test or BIST) are of particular interest to reduce test plan complexity, to enable the test of IP blocks with limited accessibility within a System-on-Chip (SoC) or even to enable in-field testing (which increases system-level diagnosis capability).

Our most recent research themes in this line are:

  • On-line test and BIST for AMS-RF circuits.
  • Characterization techniques for periodic signals and signal generation circuits for the embedded functional test of AMS circuits.
  • Low-cost functional test techniques for Analog to Digital data converters.
  • Machine-learning indirect test applied to AMS-RF circuits.
  • Development of robust tests based on causal relationships.

Measurement method for ADCs based on double-histogram. From the histograms (output code density) obtained for a non-linear monotonous input signal and its replica with an additive offset, the INL of a high-resolution ADC can be retrieved at low cost.
Statistical post processing for Alternate Test. From a completely characterized subset of circuits, a machine-learning algorithm extracts the non-linear and multi-dimensional relations between simple signatures and specifications. This model is further used to test the rest of circuits with the simple signatures only.


Diego Vázquez García >

Gildas Léger >

Palabras clave

  • Mixed-Signal Integrated Circuits
  • Test
  • Testing
  • Design-for-Test (DfT)
  • Built-In-Selft-Test (BIST)
  • Machine-Learning

Resultados destacados

G. Leger and M. J. Barragan, "Brownian distance correlation-directed search: A fast feature selection technique for alternate test", Integration, the VLSI Journal, vol. 55, pp. 401–414, Sep 2016  »  doi

A.J. Gines E. Peralias, G. Leger, A. Rueda, G. Renaud, M.J. Barragan and S. Mir, "Linearity test of high-speed high-performance ADCs using a self-testable on-chip generator", IEEE European Test Symposium (ETS), Amsterdam, 2016  »  doi

M.J. Barragan and G. Leger, "A Procedure for Alternate Test Feature Design and Selection", IEEE Design & Test, vol. 32, no. 1, pp. 18–25, Feb 2015  »  doi

M.J. Barragan, G. Leger, D. Vazquez and A. Rueda, "On-chip sinusoidal signal generation with harmonic cancelation for analog and mixed-signal BIST applications", Analog Integrated Circuits and Signal Processing, vol. 82, pp. 67-79, 2015  »  doi

Best Special session award: M.J. Barragan, G. Leger, F. Azais, R.D. Blanton, A. D. Singh and S. Sunter, "Special session: Hot topics: Statistical test methods," VLSI Test Symposium (VTS), Napa (USA), 2015  »  doi

Proyectos y contratos de investigación relacionados con la línea

IndieTEST: Indirect Test solutions for analog, mixed-signal and RF integrated systems (PICS CNRS)
PI: Gildas Léger (CSIC) / Manuel Barragán (CNRS)
Funding Body: CSIC & CNRS
Jan 2017 - Dec 2019

n-PATETIC: New paradigms for testing mixed-signal integrated circuits (TEC2015-68448-R)
PI: Adoración Rueda Rueda
Funding Body: Min. de Economía y Competitividad
Jan 2016 - Dec 2018

DANTE: Adapting Mixed-signal and RF ICs Design and Test to Process and Evironment Variability (TEC2011-28302)
PI: Adoración Rueda Rueda
Funding Body: Min. de Ciencia e Innovación
Jan 2012 - Dec 2015

ACATEX: Self-calibration and self-test of analog, mixed-signal and radio frecuency circuits (P09-TIC-5386)
PI: Adoración Rueda Rueda
Funding Body: Junta de Andalucía - Proyectos de Excelencia
Mar 2010 - Feb 2014

TOETS: Towards One European Test Solution
PI: José L. Huertas Díaz
Funding Body: CE: CATRENE European Program - CT302
Dec 2009 - Nov 2011

Todas las Áreas y Líneas de Investigación