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Verification and Validation: A Quick Introduction

Verification and Validation: A Quick Introduction. Authors Massood Towhidnejad Mike Rowe David Dampier Sponsored In Part by NSF Grant EEC-0080502 And published on www.swenet.org. Learning Objectives.

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Verification and Validation: A Quick Introduction

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  1. Verification and Validation: A Quick Introduction Authors MassoodTowhidnejad Mike Rowe David Dampier Sponsored In Part by NSF Grant EEC-0080502 And published on www.swenet.org

  2. Learning Objectives • The student will be able to define both verification and validation, and to know the difference between them. • The student will be able to identify the appropriate activities and their classification as either verification or validation. • The student will be able to distinguish between verification and validation, given a set of activities. • Given a set of software artifacts, the student will understand the appropriate verification or validation activity to that artifact. • Given a set of projects in different categories, the student will be able to determine which category of projects would require more V&V activity, and which would require less. • Given a set of defects and the phases of development in which they were found, the student will be able to estimate the relative cost of correcting errors early or late in the lifecycle.

  3. Why Invest in Quality? • Cost effective • Provides competitive edge • Essential for business survival • Essential for international marketing • Helps to retain customers, and increase profits • Hallmark of world class business

  4. Ways to Improve Quality • Prevention of Defects • Process Improvement • Complexity Reduction • Risk Management • Causal Analysis • Detection and Correction of Defects • Verification • Validation • Rework • Causal Analysis

  5. Verification • Verification – Are we building the product right? • Verification is any checking process conducted on software artifacts in an attempt to determine if they work as specified by the designers of the system. • Includes reviews, inspections, walkthroughs, unit testing and integration testing.

  6. Validation • Validation – Are we building the right product? • Validation is the process of evaluating software artifacts during the software development process in an attempt to determine if the system works as required by the customers. Any evaluation activity that involves the customer can be used for validation purposes. • Includes program reviews, system testing, customer acceptance testing.

  7. Verification vs. Validation • Verification • Main purpose is to detect defects in the artifacts of the system under development. • Validation • Main purpose is to show that the system under development meets user needs, requirements, and expectations.

  8. Verification & Validation Techniques • Static Methods • Techniques applied to artifacts without execution. • Dynamic Methods • Techniques applied to artifacts through execution. • Mathematically Based Methods

  9. Static: Reviews • Walkthroughs • Code verification • Document • ConOps, SRS validation • STEP, SAD, SDD verification • Inspections • Code verification • Document Audits verification • Program Reviews • Customer involved validation • No customer verification

  10. Effectiveness of Static Verification • More than 60% of program defects can be detected by program inspections. • More than 90% of program defects may be detectable using more rigorous mathematical program verification. • The defect detection process is not confused by the existence of previous defects.

  11. Dynamic: Testing (Verification) • Unit Test (Detailed Design): • Testing the individual software modules, components, or units. • Integration Testing (Architectural Design): • After unit test, the system is put together in increments. Integration testing focuses on the interfaces between software components (OO thread-based, cluster-based testing) • System Testing (Requirements Spec): • One goal of system testing is to ensure that the system functions as specified in the specification.

  12. Dynamic: Testing (Validation) • System Testing (Requirements Spec): • Another goal of system testing is to ensure that the system functions as the client expected in a controlled environment. • User Acceptance Test (ConOps): • A set of formal tests run for the client, and specified by the client. When the system passes these tests, the software has been accepted by the client as meeting the requirements.

  13. Verification and Validation in the Development Lifecycle Validate the System Black-Box Testing Requirements Analysis Execute System Tests Execute Integration Tests Verify Design Design Reviews Verify Implementation White-Box & Black-Box Testing Execute Unit Tests Code

  14. Mathematics-Based Verification • Verification is based on mathematical arguments which demonstrate that a program is consistent with its specification. • Programming language semantics must be formally defined. • The program must be formally specified.

  15. Why Inspection is important? • Relative cost to fix a defect • Phase in which found Cost ratio (hours) – Requirement 1 – Design 3-6 – Coding 10 – Testing 15-70 – Operation 40-1000 Data derived from Capers Jones.

  16. Costs of Finding and Fixing Late $1000 Delays in identifying and fixing defects gets geometrically more expensive as the lifecycle progresses! Defects $100 Cost of Fixing a Defect $10 $1 Time in (Phase of) Development

  17. Cost of Quality • Includes all costs of quality-related activities. • Quality costs = • Prevention costs • Detection and Appraisal costs • Failure costs • Internal failure costs • External failure costs • Cost of Quality (COQ) – refers to the cost of correcting defects once found.

  18. Direct Cost – Reviews/inspections – Unit testing – System testing – Acceptance testing – Test planning and design – Computer time – Resources (terminals, staffs, etc.) Indirect Cost – Rework – Recovery – Corrective action cost – Failures – Analysis meeting – Debugging – Retesting – Legal fees Quality Cost Components

  19. Verification or… Validation? • Reviews • Unit Testing • Integration Testing • System Testing • Acceptance Testing

  20. Verification or… Validation? • Reviews Either • Unit Testing • Integration Testing • System Testing • Acceptance Testing

  21. Verification or… Validation? • Reviews Either • Unit Testing Verification • Integration Testing • System Testing • Acceptance Testing

  22. Verification or… Validation? • Reviews Either • Unit Testing Verification • Integration Testing Verification • System Testing • Acceptance Testing

  23. Verification or… Validation? • Reviews Either • Unit Testing Verification • Integration Testing Verification • System Testing Validation • Acceptance Testing

  24. Verification or… Validation? • Reviews Either • Unit Testing Verification • Integration Testing Verification • System Testing Validation • Acceptance Testing Validation

  25. Balancing Trade-Offs • What is the real requirement? • What are the expected benefits of V & V vs. – cost of increasing V&V activity – additional time required – technical feasibility – risk of not finding defects » delivery » operation “When is it good enough?” (Bach, 1997)

  26. Summary • Verification and Validation are both important to the quality of software. • Each is different: • Verification determines that what we are doing is done correctly. • Validation determines whether we are doing the right thing. • Sometimes, less quality is okay. Some software systems require less V&V, as the cost is not supportable. Some require more no matter what it costs. • The earlier defects are discovered, the less it will cost to correct them.

  27. Backup Slides

  28. Independent Verification and Validation (IV&V) Subs • Design • Coding • Testing Project Manager • System Requirements • Contractor Management Tested Products Discrepancies • Monitor Tests • Integration • Evaluate Requirements • Evaluate Design IV&V

  29. Static and Dynamic Verification & Validation Sommerville, p. 421

  30. Test Case Development in the V Model Validate Requirements Requirements Analysis Execute System Tests Test cases designedand executed byindependent testers Execute Integration Tests Verify Design Design Verify Implementation Test cases designed and executed by developers Execute Unit Tests Code

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