Title :
SLIDER: Simulation of Layout-Injected Defects for Electrical Responses
Author :
Tam, Wing Chiu ; Blanton, R.D.
Author_Institution :
Dept. of Electr. & Comput. Eng., Carnegie Mellon Univ., Pittsburgh, PA, USA
fDate :
6/1/2012 12:00:00 AM
Abstract :
Logic-level simulation has been the de facto method for simulating defect/faulty behavior for various testing tasks since it offers a good tradeoff between accuracy and speed. Unfortunately, by abstracting defect behavior to the logic level (i.e., a fault model), it also discards important information that inevitably results in inaccuracies. This paper describes a fast and accurate defect simulation framework called SLIDER (simulation of layout-injected defects for electrical responses). SLIDER uses well-developed mixed-signal simulation technology that is conventionally used for design verification. There are three innovative aspects that distinguish SLIDER from prior work in this area: 1) accuracy resulting from defect injection taking place at the layout level; 2) speedup resulting from careful and automatic partitioning of the circuit into maximal digital and minimal analog domains for mixed-signal simulation; and 3) complete automation that includes defect generation, defect injection, design partitioning, netlist extraction, mixed-signal simulation, and test-data extraction. The virtual failure data created by SLIDER is useful in a variety of settings that include diagnosis resolution improvement, defect localization, fault model evaluation, and evaluation of yield/test learning techniques that are based on failure data analysis.
Keywords :
circuit reliability; circuit simulation; failure analysis; fault simulation; logic circuits; logic testing; SLIDER; circuit automatic partitioning; de facto method; defect generation; defect injection; defect localization; defect simulation framework; defect-faulty behavior simulation; design partitioning; diagnosis resolution improvement; electrical responses; failure data analysis; fault model; fault model evaluation; layout-injected defect simulation; logic-level simulation; maximal digital domains; minimal analog domains; mixed-signal simulation technology; netlist extraction; test-data extraction; virtual failure data; yield-test learning techniques; Accuracy; Bridge circuits; Circuit faults; Databases; Integrated circuit modeling; Layout; Systematics; Defect modeling; layout analysis; mixed-signal simulation; volume diagnosis; yield learning;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2012.2184108
