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<p>Various fault models such as stuck-at, transition, bridging have been developed to better
model possible defects in manufactured chips. However, over the years as device sizes have
shrunk, the probability of systematic defects occurring in chips has increased. To predict the
sites of occurrence of such defects, Design-for-Manufacturability (DFM) guidelines have been
established, the violations of which are modelled into DFM faults. Nonetheless, some faults
corresponding to DFM as well as other fault models are undetectable, i.e., tests cannot
be generated to detect their presence. It has been seen that undetectable faults usually
tend to cluster together, leaving large areas in a circuit uncovered. As a result, defects
occurring there, even if detectable, go undetected because there are no tests covering those
areas. Hence, this becomes an important issue to address, and to resolve it, we utilize gate-
exhaustive faults to cover these areas. Gate-exhaustive faults provide exhaustive coverage
to gates. They can detect any defect which is not modelled by any other fault model.
However, the total number of gate-exhaustive faults in a circuit can be quite large and may
require many test patterns for detection. Therefore, we use procedures to select only those
faults which can provide additional coverage to the sites of undetectable faults. We de ne
parameters that determine whether a gate associated with one or more undetectable faults
is covered or not, depending on the number of detectable and useful gate-exhaustive faults
present around the gate. Bridging faults are also added for extra coverage. These procedures
applied to benchmark circuits are used for obtaining the experimental results. The results
show that the sizes of clusters of undetectable faults are reduced, upon the addition of
gate-exhaustive faults to the fault set, both in the case of single-cycle and two-cycle faults.
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Identifer | oai:union.ndltd.org:purdue.edu/oai:figshare.com:article/14832876 |
Date | 23 July 2021 |
Creators | Oindree Basu (11016006) |
Source Sets | Purdue University |
Detected Language | English |
Type | Text, Thesis |
Rights | CC BY 4.0 |
Relation | https://figshare.com/articles/thesis/IMPROVING_COVERAGE_OF_CIRCUITS_BY_USING_DIFFERENT_FAULT_MODELS_COMPLEMENTING_EACH_OTHER/14832876 |
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