Add to ORKGRandom pattern testing methods are known to result in poor fault coverage for most sequential circuits unless costly circuit modification methods are employed. In this paper we propose a novel approach to improve the random pattern testability of sequential circuits. We introduce the concept of holding signals at primary inputs and scan flip-flops for a certain length of time instead of applying a new random vector at each clock cycle. When a random vector is held at the primary inputs of the circuit under test or at the scan flip-flops, the system clock is applied and the primary outputs of the circuit are observed. The number of clock cycles, k, for which each random input is held at a fixed value, before applying the next random vector, ...
Previous title: « RSIC Generation: A Solution for Logic BIST »International audienceHigh defect cove...
A lisfruct-The problem of detecting permanent faults in sequential circuits by random testing is ana...
Abstract In this paper, the natures of random and pseudo-random input sequences and their influence ...
Experience has shown that an excessive time penalty can be incurred when testing large scan circuits...
A resurgence of interest in asynchronous VLSI circuits is occurring because of their poten-tial for ...
are faults that no input patterns can detect. They cause difficulty in test generation, especially i...
The increasing complexity of today's digital devices has rendered the problem of fault detection, fa...
ABSTRACT: Cost of set/reset flip-flops -- Initialization of sequential circuits in pseudo-random tes...
Generally, there exist random-pattern resistant faults that result in the poor fault coverage in Bui...
Two novel methods to reduce the number of random test patterns required to fully test a circuit are ...
An efficient method has been presented to compute multiple distributions for random patterns, which ...
Among the black-box approaches to digital circuit testing, Random testing is popular due to its simp...
A new testing paradigm called Built-In Self-Test (BIST) has been gaining increasing acceptance over ...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
Testing and verification of digital circuits is of vital importance in electronics industry. Moreove...
Previous title: « RSIC Generation: A Solution for Logic BIST »International audienceHigh defect cove...
A lisfruct-The problem of detecting permanent faults in sequential circuits by random testing is ana...
Abstract In this paper, the natures of random and pseudo-random input sequences and their influence ...
Experience has shown that an excessive time penalty can be incurred when testing large scan circuits...
A resurgence of interest in asynchronous VLSI circuits is occurring because of their poten-tial for ...
are faults that no input patterns can detect. They cause difficulty in test generation, especially i...
The increasing complexity of today's digital devices has rendered the problem of fault detection, fa...
ABSTRACT: Cost of set/reset flip-flops -- Initialization of sequential circuits in pseudo-random tes...
Generally, there exist random-pattern resistant faults that result in the poor fault coverage in Bui...
Two novel methods to reduce the number of random test patterns required to fully test a circuit are ...
An efficient method has been presented to compute multiple distributions for random patterns, which ...
Among the black-box approaches to digital circuit testing, Random testing is popular due to its simp...
A new testing paradigm called Built-In Self-Test (BIST) has been gaining increasing acceptance over ...
International audienceThe combination of higher quality requirements and sensitivity of high perform...
Testing and verification of digital circuits is of vital importance in electronics industry. Moreove...
Previous title: « RSIC Generation: A Solution for Logic BIST »International audienceHigh defect cove...
A lisfruct-The problem of detecting permanent faults in sequential circuits by random testing is ana...
Abstract In this paper, the natures of random and pseudo-random input sequences and their influence ...