Date Published: October 2012
Author(s)
Richard Kuhn (NIST), Raghu Kacker (NIST), Yu Lei (UTA)
Combinatorial testing applies factor covering arrays to test all t-way combinations of input or configuration state space. In some testing situations, it is not practical to use covering arrays, but any set of tests covers at least some portion of t-way combinations up to t [less than or equal to] n. This report describes measures of combinatorial coverage that can be used in evaluating the degree of t-way coverage of any test suite, regardless of whether it was initially constructed for combinatorial coverage.
Combinatorial testing applies factor covering arrays to test all t-way combinations of input or configuration state space. In some testing situations, it is not practical to use covering arrays, but any set of tests covers at least some portion of t-way combinations up to t [less than or equal to...
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Combinatorial testing applies factor covering arrays to test all t-way combinations of input or configuration state space. In some testing situations, it is not practical to use covering arrays, but any set of tests covers at least some portion of t-way combinations up to t [less than or equal to] n. This report describes measures of combinatorial coverage that can be used in evaluating the degree of t-way coverage of any test suite, regardless of whether it was initially constructed for combinatorial coverage.
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Keywords
combinatorial testing; factor covering array; state-space coverage; verification and validation (V& V); t-way testing; configuration model; component interaction failure
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