Add to ORKGThis paper presents a scalable method to generate close to minimal size test pattern sets for stuck-at faults in scan based circuits. The method creates sets of potentially compatible faults based on necessary assignments. It guides the justification and propagation decisions to create patterns that will accommodate most targeted faults. The technique presented achieves close to minimal test pattern sets for ISCAS circuits. For industrial circuits it achieves much smaller test pattern sets than other methods in designs sensitive to decision order used in ATPG. 1
Snehal Udar, for the Doctor of Philosophy degree in Electrical and Computer Engineering, presented o...
Minimal test sets have the property that each input vector simultaneously tests several faults in a ...
Applications of reversible circuits can be found in the fields of low-power computation, cryptograph...
Scan is a widely used design-for-testability technique to improve test and diagnosis quality, howeve...
This paper presents two new algorithms, Redundant Vector Elimination (RVE) and Essential Fault Reduc...
[[abstract]]This letter proposes an algorithm that selects a small number of test patterns for small...
This paper proposes a test generation framework to generate stuck-at tests for a scan circuit under ...
With the increasing number of transistors in the circuit, the time it requires to label the circuit ...
We describe a built-in test pattern generation method for scan circuits. The method is based on part...
This paper presents two new algorithms, Redundant Vector Elimination (RVE) and Essential Fault Reduc...
This paper presents new techniques for speeding up deterministic test pattern generation for VLSI ci...
Diagnosis is an important but difficult problem in the design and manufacturing of VLSI circuits. Th...
Diagnosis is an important but difficult problem in the design and manufacturing of VLSI circuits. Th...
[[abstract]]In this paper we propose a method for generating test patterns very efficient for stuck-...
Abstract—The test set size is a highly important factor in the post-production test of circuits. A h...
Snehal Udar, for the Doctor of Philosophy degree in Electrical and Computer Engineering, presented o...
Minimal test sets have the property that each input vector simultaneously tests several faults in a ...
Applications of reversible circuits can be found in the fields of low-power computation, cryptograph...
Scan is a widely used design-for-testability technique to improve test and diagnosis quality, howeve...
This paper presents two new algorithms, Redundant Vector Elimination (RVE) and Essential Fault Reduc...
[[abstract]]This letter proposes an algorithm that selects a small number of test patterns for small...
This paper proposes a test generation framework to generate stuck-at tests for a scan circuit under ...
With the increasing number of transistors in the circuit, the time it requires to label the circuit ...
We describe a built-in test pattern generation method for scan circuits. The method is based on part...
This paper presents two new algorithms, Redundant Vector Elimination (RVE) and Essential Fault Reduc...
This paper presents new techniques for speeding up deterministic test pattern generation for VLSI ci...
Diagnosis is an important but difficult problem in the design and manufacturing of VLSI circuits. Th...
Diagnosis is an important but difficult problem in the design and manufacturing of VLSI circuits. Th...
[[abstract]]In this paper we propose a method for generating test patterns very efficient for stuck-...
Abstract—The test set size is a highly important factor in the post-production test of circuits. A h...
Snehal Udar, for the Doctor of Philosophy degree in Electrical and Computer Engineering, presented o...
Minimal test sets have the property that each input vector simultaneously tests several faults in a ...
Applications of reversible circuits can be found in the fields of low-power computation, cryptograph...