Use this quick start guide to collect all the information about MuleSoft MCIA Level 1 Certification exam. This study guide provides a list of objectives and resources that will help you prepare for items on the MuleSoft Integration Architect Level 1 (MCIA) exam. The Sample Questions will help you identify the type and difficulty level of the questions and the Practice Exams will make you familiar with the format and environment of an exam. You should refer this guide carefully before attempting your actual MuleSoft Certified Integration Architect - Level 1 certification exam.
The MuleSoft MCIA Level 1 certification is mainly targeted to those candidates who want to build their career in Architect domain. The MuleSoft Certified Integration Architect - Level 1 exam verifies that the candidate possesses the fundamental knowledge and proven skills in the area of MuleSoft Integration Architect Level 1.
MuleSoft MCIA Level 1 Exam Summary:
Exam Name | MuleSoft Certified Integration Architect - Level 1 |
Exam Code | MCIA Level 1 |
Exam Price | $400 (USD) |
Duration | 120 mins |
Number of Questions | 60 |
Passing Score | 70% |
Books / Training | Anypoint Platform Architecture: Integration Solutions |
Schedule Exam | Purchase Exam |
Sample Questions | MuleSoft MCIA Level 1 Sample Questions |
Practice Exam | MuleSoft MCIA Level 1 Certification Practice Exam |
MuleSoft Integration Architect Level 1 Exam Syllabus Topics:
Topic | Details |
---|---|
Initiating integration solutions on Anypoint Platform |
- Summarize the fundamental value proposition of MuleSoft Catalyst and Catalyst Knowledge Hub - Differentiate between functional and non-functional requirements for integration solutions - Select features of Anypoint Platform for designing and managing web and event-driven APIs - Select deployment options of the Anypoint Platform control plane and runtime plane |
Designing for the runtime plane technology architecture |
- Analyze the mode of operation of a Mule runtime cluster that differentiates it from other deployment options - Design integration solutions deployed to CloudHub to address specific requirements using CloudHub's network features - Choose Mule runtime domains and domain-shared configuration only for those requirements that clearly benefit from their capabilities - Design Mule applications making effective use of the implications of the Mule 4 class loader isolation of Mule modules - Describe the characteristics and implications of the Mule 4 reactive event processing model |
Designing architecture using integration paradigms |
- Create high-level integration architectures using API-led Connectivity - Create high-level integration architectures using web APIs and HTTP - Create high-level integration architectures using event-driven APIs and message brokers - Design Mule applications and integration solutions using common messaging patterns and technologies |
Designing and developing Mule applications |
- Select among available options for setting Mule application properties - Select and use fundamental features available to all Mule applications - Design Mule applications using core routers available to all Mule applications - Describe the fundamental features of the Salesforce connector - Design Mule applications using common features of core connectors - Select and use the available sources of metadata in the Transform Message component - Design Mule applications and integration solutions using a Common/Canonical Data Model - Correctly apply methods for validating data in Mule applications |
Designing automated tests for Mule applications |
- Design unit test suites using MUnit and Studio's related features - Identify test requirements and scenarios that are best addressed using integration testing or performance testing |
Designing integration solutions to meet persistence requirements |
- Design Mule applications using VM queues and the Anypoint VM connector in all deployment options - Design Mule applications using Object Stores, the OS connector and OS services in all deployment options - Design Mule applications and integration solutions using stateful components that may be configured with an Object Store |
Designing integration solutions to meet reliability requirements |
- Select alternatives to traditional transactions (local or XA) where appropriate and beneficial - Recognize the purpose and characteristics of Until Successful scope, reconnection strategies, and redelivery policies - Differentiate between disaster recovery and high availability and the basic approaches to achieving either in all deployment options - Design Mule applications and integration solutions using local and XA transactions for all Mule connectors that support them |
Designing integration solutions to meet performance requirements |
- Design Mule applications and integration solutions to meet performance and capacity goals - Design Mule applications using available streaming features in Mule - Design Mule applications to process large sequences/streams of messages |
Designing integration solutions to meet security requirements |
- Design secure access to the Anypoint Platform control plane and APIs - Design secure edge access using Anypoint Security - Analyze and counteract potential security vulnerabilities of Mule applications - Recognize the audit logging capabilities of Anypoint Platform |
Applying DevOps practices and operating integration solutions |
- Create the high-level design of CI/CD pipelines for Mule applications using MuleSoft-provided Maven plugins - Identify the features and characteristics for automating interactions with Anypoint Platform - Design the logging configurations and options of Mule applications in all deployment options - Identify the features and characteristics of Anypoint Monitoring in all deployment options |
To ensure success in MuleSoft Integration Architect Level 1 certification exam, we recommend authorized training course, practice test and hands-on experience to prepare for MuleSoft Integration Architect Level 1 (MCIA) exam.