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IR-drop induced by launch switching activity (LSA) in capture mode during at-speed scan testing increases delay along not only logic paths (LPs) but also clock paths (Cps). Excessive extra delay along LPs compromises test yields due to false capture failures, while excessive extra delay along CPs compromises test quality due to test clock stretch. This paper is the first to mitigate the impact of...
At-speed scan testing may suffer from severe yield loss due to the launch safety problem, where test responses are invalidated by excessive launch switching activity (LSA) caused by test stimulus launching in the at-speed test cycle. However, previous low-power test generation techniques can only reduce LSA to some extent but cannot guarantee launch safety. This paper proposes a novel & practical...
Fault simulation of digital circuits must correctly compute fault coverage to assess test and product quality. In case of unknown values (X-values), fault simulation is pessimistic and underestimates actual fault coverage, resulting in increased test time and data volume, as well as higher overhead for design-for-test. This work proposes a novel algorithm to determine fault coverage with significantly...
In recent technology nodes, reliability is considered a part of the standard design ¿ow at all levels of embedded system design. While techniques that use only low-level models at gate- and register transfer-level offer high accuracy, they are too inefficient to consider the overall application of the embedded system. Multi-level models with high abstraction are essential to efficiently evaluate the...
Embedded testing, built-in self-test and methods for test compression rely on efficient test response compaction. Often, a circuit under test contains sources of unknown values (X), uninitialized memories for instance. These X values propagate through the circuit and may spoil the response signatures. The standard way to overcome this problem is X-masking. Outputs which carry an X value are usually...
This paper provides a methodology that leverages state-of-the-art techniques for efficient fault simulation of structural faults together with transaction level modeling. This way it is possible to accurately evaluate the impact of the faults on the entire hardware/software system.
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