To achieve the professional designation of ISTQB Certified Tester Test Automation Engineer from the ISTQB, candidates must clear the CT-TAE Exam with the minimum cut-off score. For those who wish to pass the ISTQB Test Automation Engineer certification exam with good percentage, please take a look at the following reference document detailing what should be included in ISTQB CTAL - Test Automation Engineer Exam preparation.
The ISTQB CT-TAE Exam Summary, Body of Knowledge (BOK), Sample Question Bank and Practice Exam provide the basis for the real ISTQB Certified Tester Advanced Level - Test Automation Engineer (CT-TAE) exam. We have designed these resources to help you get ready to take ISTQB Certified Tester Test Automation Engineer (CT-TAE) exam. If you have made the decision to become a certified professional, we suggest you take authorized training and prepare with our online premium ISTQB Test Automation Engineer Practice Exam to achieve the best result.
ISTQB CT-TAE Exam Summary:
| Exam Name | ISTQB Certified Tester Test Automation Engineer |
| Exam Code | CT-TAE |
| Exam Fee | USD $199 |
| Exam Duration | 90 Minutes |
| Number of Questions | 40 |
| Passing Score | 49/75 |
| Format | Multiple Choice Questions |
| Schedule Exam | Pearson VUE |
| Sample Questions | ISTQB CTAL - Test Automation Engineer Exam Sample Questions and Answers |
| Practice Exam | ISTQB Certified Tester Advanced Level - Test Automation Engineer (CT-TAE) Practice Test |
ISTQB Test Automation Engineer Syllabus Topics:
| Topic | Details |
|---|---|
Introduction and Objectives for Test Automation - 30 mins. |
|
| Purpose of Test Automation | - Explain the objectives, advantages, disadvantages and limitations of test automation |
| Success Factors in Test Automation | - Identify technical success factors of a test automation project |
Preparing for Test Automation - 165 mins. |
|
| SUT Factors Influencing Test Automation | - Analyze a system under test to determine the appropriate automation solution |
| Tool Evaluation and Selection | - Analyze test automation tools for a given project and report technical findings and recommendations |
| Design for Testability and Automation | - Understand "design for testability" and "design for test automation" methods applicable to the SUT |
The Generic Test Automation Architecture - 270 mins. |
|
| Introduction to gTAA | - Explain the structure of the gTAA |
| TAA Design |
- Design the appropriate TAA for a given project - Explain the role that layers play within a TAA - Understand design considerations for a TAA - Analyze factors of implementation, use, and maintenance requirements for a given TAS |
| TAS Development |
- Apply components of the generic TAA (gTAA) to construct a purpose-built TAA - Explain the factors to be considered when identifying reusability of components |
Deployment Risks and Contingencies - 150 mins. |
|
| Selection of Test Automation Approach and Planning of Deployment/Rollout | - Apply guidelines that support effective test tool pilot and deployment activities |
| Risk Assessment and Mitigation Strategies | - Analyze deployment risks and identify technical issues that could lead to failure of the test automation project, and plan mitigation strategies |
| Test Automation Maintenance | - Understand which factors support and affect TAS maintainability |
Test Automation Reporting and Metrics - 165 mins. |
|
| Selection of TAS Metrics | - Classify metrics that can be used to monitor the test automation strategy and effectiveness |
| Implementation of Measurement | - Implement metrics collection methods to support technical and management requirements. Explain how measurement of the test automation can be implemented. |
| Logging of the TAS and the SUT | - Analyze test logging of both TAS and SUT data |
| Test Automation Reporting | - Explain how a test execution report is constructed and published |
Transitioning Manual Testing to an Automated Environment - 120 mins. |
|
| Criteria for Automation |
- Apply criteria for determining the suitability of tests for automation - Understand the factors in transitioning from manual to automation testing |
| Identify Steps Needed to Implement Automation within Regression Testing | - Explain the factors to consider in implementing automated regression testing |
| Factors to Consider when Implementing Automation within New Feature Testing | - Explain the factors to consider in implementing automation within new feature testing |
| Factors to Consider when Implementing Automation of Confirmation Testing | - Explain the factors to consider in implementing automated confirmation testing |
Verifying the TAS - 120 mins. |
|
| Verifying Automated Test Environment Components | - Verify the correctness of an automated test environment including test tool setup |
| Verifying the Automated Test Suite | - Verify the correct behavior for a given automated test script and/or test suite |
Continuous Improvement - 150 mins. |
|
| Options for Improving Test Automation | - Analyze the technical aspects of a deployed test automation solution and provide recommendations for improvement |
| Adapting Test Automation to environment and SUT changes | - Analyze the automated testware, including test environment components, tools and supporting function libraries, in order to understand where consolidation and updates should be made following a given set of test environment or SUT changes |
Both ISTQB and veterans who’ve earned multiple certifications maintain that the best preparation for a ISTQB CT-TAE professional certification exam is practical experience, hands-on training and practice exam. This is the most effective way to gain in-depth understanding of ISTQB CTAL - Test Automation Engineer concepts. When you understand techniques, it helps you retain ISTQB Test Automation Engineer knowledge and recall that when needed.