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Timing-related defects are a major cause of test escapes and field returns for very deep-submicron (VDSM) integrated circuits. Small-delay variations induced by crosstalk, process variations, power supply noise, and resistive opens and shorts can cause timing failures in a design, leading to quality and reliability concerns. This article describes the authors' work with a previously proposed test-grading...
Testing for small-delay defects (SDDs) is necessary for ensuring product quality in smaller technology nodes. Current tools such as transition-delay fault (TDF) ATPGs and timing-aware ATPGs are either inefficient in detecting SDDs or suffering from large pattern count and CPU runtime. Furthermore, none of these methodologies take into account the impact of pattern-induced noises, e.g., power supply...
There is an ever-increasing demand for higher performance microprocessors within a given power budget. This demand forces design choices - that were once seen only in high-speed custom blocks - to spread throughout the microprocessor core. These unique design structures, combined with the nanometer technology test challenges such as crosstalk, process variations, power-supply noise, and resistive...
Test data volume and test application time are major concerns for large industrial circuits. In recent years, many compression techniques have been proposed and evaluated using industrial designs. However, these methods do not target sequence- or timing-dependent failures while compressing the test patterns. Timing-related failures in high-performance integrated circuits are now increasingly dominated...
Timing-related failures in high-performance integrated circuits are being increasingly dominated by small-delay defects (SDDs). Such delay faults are caused by process variations, crosstalk, power-supply noise, and defects such as resistive shorts and opens. Recently, the concept of output deviations has been presented as a surrogate long-path coverage metric for SDDs. However, this approach is focused...
Timing-related defects are becoming increasingly important in nanometer technology designs. Small delay variations induced by crosstalk, process variations, power-supply noise, as well as resistive opens and shorts can potentially cause timing failures in a design, thereby leading to quality and reliability concerns. We present a test-grading technique to leverage the method of output deviations for...
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