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Title How to Measure the Impact of Specific Development Practices on Fielded Defect Density Author: Feride Padgett Last modified by: Lingard – PowerPoint PPT presentation

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1
How to Measure the Impact of Specific
Development Practices on Fielded Defect Density
  • by Ann Marie Neufelder
  • Presented by Feride Padgett

2
Outline
  • Introduction
  • Results
  • Conclusion

3
Introduction
  • The author evaluated 17 organizations based on a
    questionnaire of 177 parameters
  • The 17 organizations were
  • Defense systems(5)
  • Process control manufacturing equipment(11)
  • Mathematical software(1)

4
The Questionnaire
  • It had 5 sections
  • Organization commitment
  • Life cycle practices
  • Product characteristics
  • Change control practices
  • Informational questions

5
Scoring
  • Mathematical correlation of observed practices
    vs. observed defect density in terms of KSLOC of
    assembler
  • A correlation of -1 means the practice perfectly
    correlates to LOWER defect density

6
High Scorers
  • The common features of organizations with the
    lowest defect densities
  • Software engineering is a part of the process,
    not an art form
  • A well-rounded sound set of development practices
    vs. a single bullet
  • Formal and informal reviews of requirements prior
    to design and code
  • Testers are involved in requirements phase

7
Low Scorers
  • The common features of organizations with the
    highest defect densities
  • Lack of software management
  • Misconception of programmer knows what customer
    needs better than the customer
  • Complete void of requirements definition phase
  • Insufficient testing methods

8
Ten Parameters with the Highest Correlation
  • Consistent and documented formal and informal
    reviews of the software and system requirements
    prior to design and code -.87
  • The language and operating system is well
    supported by industry -.86
  • Existence and use of test beds -.85

9
Ten Parameters with the Highest Correlation
  • Incremental testing (as opposed to big bang
    testing.) -.84
  • Scheduled regression testing consistently
    performed by independent testers -.83
  • Defect and failure tracking systems that are used
    by testers for test plan development -.81

10
Ten Parameters with the Highest Correlation
  • There is a defined life cycle model that best
    suits the application, market, ad
    organization -.81
  • Testers involved during requirements and design.
    Test plans are started during the requirements
    phase -.76

11
Ten Parameters with the Highest Correlation
  • Automated unit testing tools -.76
  • Explicit test cases for user documentation
  • -.76

12
Reviews
  • Requirements reviews -.87
  • Design reviews -.65
  • Coding reviews -.12

13
Results
  • Software managers and engineers often assume
    engineering practices that decrease defects will
    also increase development time
  • Her study shows that this assumption is not true
  • Organizations with the best practices had the
    highest probability of making their schedules

14
Results
  • Some companies were striving for more releases
    while their customer surveys showed that their
    customer wanted fewer releases with higher
    quality
  • More corrective action releases mean more
    downtime for customers

15
Results
  • This correlation can and is used to
  • Predict defect density
  • Improve software development practices for the
    best return on investment

16
Conclusion
  • This is an ongoing work. New data is added on a
    yearly basis
  • The study shows that making software engineering
    principles a part of the process decreases the
    defect density and increases the probability of
    on time delivery
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