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

 Frequency 0, 1, 5, 6; Duration 0, 1, 30, 60, 61 is the correct test set of valid and invalid boundary values applying 2-value boundary value analysis1 . Boundary value analysis is a technique that tests the values at and near the boundaries of an input domain or output range1 . A 2-value boundary value analysis tests two values for each boundary: one valid value and one invalid value1 . For Frequency, the valid boundaries are 1 and 5, so the test set should include one valid value (1 or 5) and one invalid value (0 or 6) for each boundary. For Duration, the valid boundaries are 1 and 60, so the test set should include one valid value (1 or 60) and one invalid value (0 or 61) for each boundary. The other options are incorrect test sets of valid and invalid boundary values applying 2-value boundary value analysis. Option A only includes valid values for each boundary, but not invalid values. Option B includes invalid values that are not adjacent to the boundaries (59 seconds and 60 minutes 1 second). Option D includes more than two values for each boundary (0, 1, 2 for Frequency; 0, 1, 30 for Duration).

Component testing is concerned with testing the smallest bodies of software, such as functions, classes, procedures, or modules. Component testing is also known as unit testing or module testing. Feature testing is a type of functional testing that focuses on verifying a specific feature or functionality of a system. Functional testing is a type of black-box testing that verifies that the system meets its functional requirements and specifications. Subsystem testing is a type of integration testing that verifies that a group of components work together as expected. References: ISTQB Certified Tester Foundation Level Syllabus 2018, Section 2.2

Static analysis is a technique to find defects in software source code and software models, performed without executing code. Static analysis can be done manually or automatically using tools that examine the code or design of a software system without running it. Static analysis can help identify and prevent defects, measure complexity, check compliance, or improve quality.

The other statements are not correct definitions of static analysis because they describe different concepts related to testing. For example:

• A. The decision between using white or black box test techniques: This statement describes a test strategy, which is an approach or method for designing and executing test cases based on various factors, such as scope, objectives, risks, resources, etc.
• B. Executing software to validate the most common path through the code: This statement describes dynamic testing, which is a technique to find defects in software by executing it under various conditions and inputs and comparing the actual results with the expected results.
• D. It is a testing technique used during system testing: This statement describes a test level, which is a group of test activities that are organized and managed together based on some criteria, such as objectives, scope, target audience, etc.

You can find more information about static analysis in [A Study Guide to the ISTQB® Foundation Level 2018 Syllabus], Chapter 6, Section 6.3.