Estimation of Analog/RF Parametric Test Metrics Based on a Multivariate Extreme Value Model

Ahcene Bounceur; Salvador Mir; Reinhardt Euler; Kamel Beznia

doi:10.1109/TCAD.2019.2907923

Estimation of Analog/RF Parametric Test Metrics Based on a Multivariate Extreme Value Model

Ahcene Bounceur^*
, Salvador Mir
, Reinhardt Euler
, Kamel Beznia

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Analog/RF built-in test (BIT) techniques are essential for reducing the very high costs of specification-based tests and for high-safety applications. The adoption of a BIT technique needs to be decided at the design stage, and this can be facilitated by estimating the test quality in terms of errors such as test escapes ( {T_{E}} ) and yield loss ( {Y_{L}} ). Test quality estimation at the design stage has been traditionally very difficult for analog/RF circuits due to the lack of fault models that properly cover parametric faulty behavior. In recent years, statistical simulation has been considered in combination with learning techniques for the estimation of parametric test metrics. Extreme value theory (EVT) has provided a rigorous tool for the computation of parametric test metrics. However, test metrics estimation has been limited to the use of a univariate model. In this paper, we extend this approach by using a multivariate extreme value model. We illustrate this for the evaluation of an RF LNA BIT technique using a bivariate model.

Original language	English
Article number	8675464
Pages (from-to)	966-976
Number of pages	11
Journal	IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
Volume	39
Issue number	5
DOIs	https://doi.org/10.1109/TCAD.2019.2907923
State	Published - May 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 1982-2012 IEEE.

Keywords

Analog/RF test
extreme value theory (EVT)
probability density estimation
test metrics

ASJC Scopus subject areas

Software
Computer Graphics and Computer-Aided Design
Electrical and Electronic Engineering

Access to Document

10.1109/TCAD.2019.2907923

Cite this

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title = "Estimation of Analog/RF Parametric Test Metrics Based on a Multivariate Extreme Value Model",

abstract = "Analog/RF built-in test (BIT) techniques are essential for reducing the very high costs of specification-based tests and for high-safety applications. The adoption of a BIT technique needs to be decided at the design stage, and this can be facilitated by estimating the test quality in terms of errors such as test escapes ( \{T\_\{E\}\} ) and yield loss ( \{Y\_\{L\}\} ). Test quality estimation at the design stage has been traditionally very difficult for analog/RF circuits due to the lack of fault models that properly cover parametric faulty behavior. In recent years, statistical simulation has been considered in combination with learning techniques for the estimation of parametric test metrics. Extreme value theory (EVT) has provided a rigorous tool for the computation of parametric test metrics. However, test metrics estimation has been limited to the use of a univariate model. In this paper, we extend this approach by using a multivariate extreme value model. We illustrate this for the evaluation of an RF LNA BIT technique using a bivariate model.",

keywords = "Analog/RF test, extreme value theory (EVT), probability density estimation, test metrics",

author = "Ahcene Bounceur and Salvador Mir and Reinhardt Euler and Kamel Beznia",

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year = "2020",

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PY - 2020/5

Y1 - 2020/5

N2 - Analog/RF built-in test (BIT) techniques are essential for reducing the very high costs of specification-based tests and for high-safety applications. The adoption of a BIT technique needs to be decided at the design stage, and this can be facilitated by estimating the test quality in terms of errors such as test escapes ( {T_{E}} ) and yield loss ( {Y_{L}} ). Test quality estimation at the design stage has been traditionally very difficult for analog/RF circuits due to the lack of fault models that properly cover parametric faulty behavior. In recent years, statistical simulation has been considered in combination with learning techniques for the estimation of parametric test metrics. Extreme value theory (EVT) has provided a rigorous tool for the computation of parametric test metrics. However, test metrics estimation has been limited to the use of a univariate model. In this paper, we extend this approach by using a multivariate extreme value model. We illustrate this for the evaluation of an RF LNA BIT technique using a bivariate model.

AB - Analog/RF built-in test (BIT) techniques are essential for reducing the very high costs of specification-based tests and for high-safety applications. The adoption of a BIT technique needs to be decided at the design stage, and this can be facilitated by estimating the test quality in terms of errors such as test escapes ( {T_{E}} ) and yield loss ( {Y_{L}} ). Test quality estimation at the design stage has been traditionally very difficult for analog/RF circuits due to the lack of fault models that properly cover parametric faulty behavior. In recent years, statistical simulation has been considered in combination with learning techniques for the estimation of parametric test metrics. Extreme value theory (EVT) has provided a rigorous tool for the computation of parametric test metrics. However, test metrics estimation has been limited to the use of a univariate model. In this paper, we extend this approach by using a multivariate extreme value model. We illustrate this for the evaluation of an RF LNA BIT technique using a bivariate model.

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Estimation of Analog/RF Parametric Test Metrics Based on a Multivariate Extreme Value Model

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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Cite this