The combination of higher quality requirements and sensitivity of high performance circuits to delay defects has led to an increasing emphasis on delay testing of VLSI circuits. In this context, it has been proven that Single Input Change (SIC) test sequences are more effective than classical Multiple Input Change (MIC) test sequences when a high robust delay fault coverage is targeted. In this paper, we show that random SIC (RSIC) test sequences achieve a higher fault coverage than random MIC (RMIC) test sequences when both robust and non-robust tests are under consideration. Experimental results given in this paper are based on a software generation of RSIC test sequences that can be easily generated in this case. For a built-in self-test...
This article presents a technique for the extension of delay fault test pattern generation to synchr...
This thesis describes the implementation of a system for analyzing circuits with respect to their pa...
Experience has shown that an excessive time penalty can be incurred when testing large scan circuits...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
Previous title: « RSIC Generation: A Solution for Logic BIST »International audienceHigh defect cove...
Devices such as microcontrollers are often required to operate across a wide range of voltage and te...
A new testing paradigm called Built-In Self-Test (BIST) has been gaining increasing acceptance over ...
We present a software-based weighted random pattern scheme for testing delay faults in IP cores of p...
Delay testing has become increasingly essential as chip geometries shrink [1,2,3]. Low overhead or c...
Given the rapid increase in the clock frequency of integrated circuits, the quality requirements of ...
Abstract The implementation of a system for analyzing circuits with respect to their path-delay faul...
Random pattern testing methods are known to result in poor fault coverage for most sequential circui...
This article presents a technique for the extension of delay fault test pattern generation to synchr...
This thesis describes the implementation of a system for analyzing circuits with respect to their pa...
Experience has shown that an excessive time penalty can be incurred when testing large scan circuits...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
Previous title: « RSIC Generation: A Solution for Logic BIST »International audienceHigh defect cove...
Devices such as microcontrollers are often required to operate across a wide range of voltage and te...
A new testing paradigm called Built-In Self-Test (BIST) has been gaining increasing acceptance over ...
We present a software-based weighted random pattern scheme for testing delay faults in IP cores of p...
Delay testing has become increasingly essential as chip geometries shrink [1,2,3]. Low overhead or c...
Given the rapid increase in the clock frequency of integrated circuits, the quality requirements of ...
Abstract The implementation of a system for analyzing circuits with respect to their path-delay faul...
Random pattern testing methods are known to result in poor fault coverage for most sequential circui...
This article presents a technique for the extension of delay fault test pattern generation to synchr...
This thesis describes the implementation of a system for analyzing circuits with respect to their pa...
Experience has shown that an excessive time penalty can be incurred when testing large scan circuits...