Automatic generation of test infrastructures for analog integrated circuits by controllability and observability co-optimization

© 2016 Elsevier B.V. This paper presents a method to address the automatic testing of analog ICs for catastrophic defects. Based on Design-for-Testability building blocks offering extra controllability and extra observability, a test infrastructure is generated for a targeted circuit. The selection...

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Veröffentlicht in:	Integration 2016-09, Vol.55, p.393-400
Hauptverfasser:	Coyette, Anthony, Esen, Vahap Baris, Dobbelaere, Wim, Vanhooren, Ronny, Gielen, Georges
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creator	Coyette, Anthony Esen, Vahap Baris Dobbelaere, Wim Vanhooren, Ronny Gielen, Georges
description	© 2016 Elsevier B.V. This paper presents a method to address the automatic testing of analog ICs for catastrophic defects. Based on Design-for-Testability building blocks offering extra controllability and extra observability, a test infrastructure is generated for a targeted circuit. The selection of the extra blocks and their insertion into the circuit is done automatically by a workflow based on DC simulations and optimization algorithms. Adopting a defect-oriented methodology, this approach maximizes the fault coverage while minimizing the silicon area overhead and test time. The proposed method is applied to two industrial circuits in order to generate optimal test infrastructures combining controllability and observability. These case studies show that, with a silicon area overhead of less than 10%, a fault coverage of 94.1% can be reached.
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This paper presents a method to address the automatic testing of analog ICs for catastrophic defects. Based on Design-for-Testability building blocks offering extra controllability and extra observability, a test infrastructure is generated for a targeted circuit. The selection of the extra blocks and their insertion into the circuit is done automatically by a workflow based on DC simulations and optimization algorithms. Adopting a defect-oriented methodology, this approach maximizes the fault coverage while minimizing the silicon area overhead and test time. The proposed method is applied to two industrial circuits in order to generate optimal test infrastructures combining controllability and observability. These case studies show that, with a silicon area overhead of less than 10%, a fault coverage of 94.1% can be reached.</abstract><pub>North-Holland Pub. Co</pub><oa>free_for_read</oa></addata></record>
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title	Automatic generation of test infrastructures for analog integrated circuits by controllability and observability co-optimization
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