CTFL_Syll2018 Exam Dumps : ISTQB Certified Tester Foundation Level (Syllabus 2018)

Integration testing is the process of testing the interactions between different components or subsystems of a system. It has the following characteristics:

• It can be done in an incremental manner, meaning that components or subsystems are integrated and tested one by one until the whole system is integrated and tested.
• It is usually done before system testing, which is the process of testing the system as a whole against its requirements and specifications.
• It includes functional tests, which are tests that verify the functionality and behavior of the system or its components.
• It includes non-functional tests, which are tests that verify the quality attributes of the system or its components, such as performance, reliability, security, etc.

Therefore, statements I, III, and IV are correct.

References: Certified Tester Foundation Level Syllabus, Section 5.1.2 and 5.2.2

A requirements management tool may be considered as a test support tool because it can help support or enhance some aspects of testing activities or processes. A requirements management tool is a tool that allows users to manage and trace the requirements of a software system. A requirements management tool can help support or enhance testing activities or processes by:

• Providing a clear and consistent definition of what needs to be tested based on user needs and expectations
• Enabling traceability between requirements and test cases to ensure adequate and complete test coverage
• Supporting change management and impact analysis by identifying and tracking changes in requirements and their effects on testing activities and results

Multiple condition coverage is a structure-based test technique that aims to achieve a high level of coverage by testing all possible combinations of conditions and outcomes in each decision point of the code or design of the system under test. Multiple condition coverage verifies that each condition in a decision point has an effect on the outcome and that there are no hidden defects or logical errors in the code or design. Multiple condition coverage requires some knowledge of the internal structure or implementation of the system under test; it focuses on how the system does what it does rather than what it does. Multiple condition coverage is one of the most rigorous and complex structure-based test techniques because it can generate a large number of test cases for each decision point, especially if there are many conditions involved. You can find more information about multiple condition coverage in [A Study Guide to the ISTQB® Foundation Level 2018 Syllabus], Chapter 4, Section 4.3.