F. Hapke scite author profile

This paper describes the new cell-aware test (CAT) approach, which enables a transistor-level and defect-based ATPG on full CMOS-based designs to significantly reduce the defect rate of manufactured ICs, including FinFET technologies. We present results from a defect-oriented CAT fault model generation for 1,940 standard library cells, as well as the application of CAT to several industrial designs. We present high volume production test results from a 32 nm notebook processor and from a 350 nm automotive design, including the achieved defect rate reduction in defective-parts-per-million. We also present CAT diagnosis and physical failure analysis results from one failing part and give an outlook for using the functionality for quickly ramping up the yield in advanced technology nodes.Index Terms-Automatic test pattern generation, cell-aware test, defect-based test, defective parts, design for testability, failure analysis, FinFET test, logic testing, test data compression, transistor-level test.

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Embedded multi-detect ATPG and Its Effect on the Detection of Unmodeled Defects

Geuzebroek

Marinissen

Majhi

et al. 2007

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Defect-oriented cell-aware ATPG and fault simulation for industrial cell libraries and designs

Hapke¹,

Krenz-Baath²,

Glowatz³

et al. 2009

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Atpg padding and ate vector repeat per port for reducing test data volume

Vranken

Hapke

Rogge

et al.

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F. Hapke

On Acceleration of SAT-Based ATPG for Industrial Designs

Cell-Aware Test

Embedded multi-detect ATPG and Its Effect on the Detection of Unmodeled Defects

Defect-oriented cell-aware ATPG and fault simulation for industrial cell libraries and designs

Atpg padding and ate vector repeat per port for reducing test data volume

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