An ordinal-time reliability model applied to "Big-Bang" suite-based testing

Author

Davidson, Neil J.

Author_Institution

Motorola Australia Software Centre, Adelaide, SA, Australia

fYear

2001

fDate

2001

Firstpage

50

Lastpage

56

Abstract

System testing is often performed by means of a comprehensive test suite that spans the functional requirements of a software product ("Big Bang" testing). This suite is then run repeatedly after each modification or fix until a satisfactory pass rate is achieved. Such testing does not lend itself to treatment with traditional reliability models which, in keeping with their origins in hardware, assume that each fault is fixed upon discovery and that the relevant temporal variable is calendar or execution time. In this paper, a model using ordinal time, measured by baselined development configurations, is presented. The use of this model in combination with an empirical mapping of test case failures to product code faults allows for rapid tracking of testing progress. The use of the model as an aid to project management in the testing phase of a project is illustrated

Keywords

program testing; software reliability; baselined development configurations; big-bang suite-based testing; functional requirements; ordinal time; ordinal-time reliability model; product code faults; project management; software product; system testing; Australia; Calendars; Hardware; Predictive models; Project management; Reliability engineering; Software reliability; Software testing; System testing; Time measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Quality Software, 2001. Proceedings.Second Asia-Pacific Conference on

Conference_Location

Hong Kong

Print_ISBN

0-7695-1287-9

Type

conf

DOI

10.1109/APAQS.2001.990001

Filename

990001