PEGACPRSAV22 Exam Information and Guideline
Certified Pega Robotics System Architect
Below are complete topics detail with latest syllabus and course outline, that will help you good knowledge about exam objectives and topics that you have to prepare. These contents are covered in questions and answers pool of exam.
Exam Name: PEGACPRSAV22 (Certified Pega Robotics System Architect)
The PEGACPRSAV22 exam is designed to assess the knowledge and skills of individuals aspiring to become Certified Pega Robotics System Architects. The exam format may vary, but typically it consists of the following components:
Exam Type: The exam is typically computer-based and delivered online. It may be a proctored exam, meaning that a proctor monitors the exam session remotely or in-person to ensure integrity.
Question Format: The exam questions are generally multiple-choice, where you will be presented with a question and multiple answer options. You must select the most appropriate answer(s) from the given choices.
Number of Questions: The exact number of questions may vary, but you can expect a range of 60 to 80 questions.
Time Limit: The exam typically has a time limit ranging from 90 to 120 minutes (1.5 to 2 hours). The specific time allotted will be mentioned in the exam instructions.
Passing Score: The passing score for the exam is typically set by the certification provider. You need to achieve a score equal to or higher than the passing score to earn the certification.
Exam Content: The exam content covers the topics mentioned in the exam objectives and syllabus. Questions will assess your understanding of RPA basics, Pega Robotics System Architect overview, Pega Robotics Studio usage, application analysis and robotics design, automation development, exception handling, error management, deployment, and maintenance.
Preparation: To prepare for the exam, it is recommended to study the official exam resources, including documentation, guides, and any recommended training courses. Hands-on experience with Pega Robotics System Architect and practice with sample questions can also be beneficial.
Exam Objectives:
Robotic Process Automation (RPA) Basics:
Understand the fundamental concepts and principles of Robotic Process Automation.
Demonstrate knowledge of RPA tools and technologies.
Explain the benefits and limitations of RPA.
Pega Robotics System Architect Overview:
Understand the role and responsibilities of a Pega Robotics System Architect.
Explain the features and capabilities of Pega Robotics System Architect.
Describe the integration possibilities with other Pega platforms.
Pega Robotics Studio:
Demonstrate proficiency in using Pega Robotics Studio.
Create and manage projects within Pega Robotics Studio.
Understand the various components and tools available in Pega Robotics Studio.
Application Analysis and Robotics Design:
Analyze and understand target applications for automation.
Identify automation opportunities and prioritize them.
Design efficient and effective robotic solutions using Pega Robotics System Architect.
Robotics Automation Development:
Develop automation solutions using Pega Robotics System Architect.
Use Pega Robotics Studio to create and configure robotic automations.
Implement best practices for building scalable and maintainable automation solutions.
Exception Handling and Error Management:
Handle exceptions and errors in robotic automations.
Implement error handling mechanisms to ensure robustness and reliability.
Troubleshoot and debug issues in robotic automations.
Deployment and Maintenance:
Understand the deployment process of robotic automations.
Configure and manage robotic runtime environments.
Monitor and maintain deployed robotic solutions.
Exam Syllabus:
Introduction to Robotic Process Automation (RPA)
RPA Concepts and Principles
RPA Tools and Technologies
Benefits and Limitations of RPA
Pega Robotics System Architect Overview
Role and Responsibilities of a Pega Robotics System Architect
Features and Capabilities of Pega Robotics System Architect
Integration Possibilities with Other Pega Platforms
Pega Robotics Studio
Pega Robotics Studio Interface
Project Creation and Management
Components and Tools in Pega Robotics Studio
Application Analysis and Robotics Design
Application Analysis for Automation
Automation Opportunity Identification and Prioritization
Designing Robust Robotic Solutions
Robotics Automation Development
Development Process in Pega Robotics System Architect
Creating and Configuring Robotic Automations
Best Practices for Automation Development
Exception Handling and Error Management
Handling Exceptions in Robotic Automations
Error Management and Recovery Mechanisms
Troubleshooting and Debugging Techniques
Deployment and Maintenance
Deployment Process of Robotic Automations
Configuring Robotic Runtime Environments
Monitoring and Maintaining Robotic Solutions