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

Test metrics are quantitative measures that are used to monitor, control, and improve the test process and its outcomes. Test metrics can be collected at different levels of testing (test case, test suite, test project, etc.) and can be used for different purposes (planning, estimation, execution, evaluation, etc.). Some examples of common test metrics are:

• Percentage of work done in test environment creation: This metric indicates how much effort has been spent on setting up and maintaining the test environment, which includes hardware, software, network, data, tools, etc., that are required for conducting the test activities.
• Number of test cases run: This metric indicates how many test cases have been executed during a given period or phase of testing.
• Deviation from test milestone dates: This metric indicates how much delay or ahead of schedule the test activities are compared to the planned dates.
• Defect density: This metric indicates how many defects have been found per unit of size or functionality of the system under test.

Average number of expected defects per requirement is not a common test metric because it is not easy to estimate or measure how many defects are likely to be found for each requirement. Moreover, this metric does not provide useful information for improving the test process or evaluating the test results. You can find more information about test metrics in A Study Guide to the ISTQB® Foundation Level 2018 Syllabus, Chapter 5, Section 5.41.

Testing tools can be used by both developers and testers for different purposes and at different stages of the software development life cycle. For example, developers can use tools such as unit testing frameworks, code coverage tools, debugging tools, static analysis tools, etc., to improve the quality of their code and find defects early. Testers can use tools such as test management tools, test design tools, test execution tools, test data preparation tools, performance testing tools, etc., to support their testing activities and increase their efficiency and effectiveness. The use of testing tools does not necessarily imply test automation, which is the use of software to perform or support test activities that would otherwise require manual intervention. Test automation is a complex and costly process that requires careful planning, design, implementation, maintenance, and evaluation. The use of testing tools also does not change the role of the test team, which is still responsible for defining the test strategy, designing the test cases, analyzing the test results, reporting the defects, etc. You can find more information about testing tools and test automation in A Study Guide to the ISTQB® Foundation Level 2018 Syllabus, Chapter 61.

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