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MuleSoft MCIA-Level-1 Exam Topics, Blueprint and Syllabus

MuleSoft Certified Integration Architect - Level 1

Last Update May 17, 2024
Total Questions : 244

Our MuleSoft Certified Architect MCIA-Level-1 exam questions and answers cover all the topics of the latest MuleSoft Certified Integration Architect - Level 1 exam, See the topics listed below. We also provide MuleSoft MCIA-Level-1 exam dumps with accurate exam content to help you prepare for the exam quickly and easily. Additionally, we offer a range of MuleSoft MCIA-Level-1 resources to help you understand the topics covered in the exam, such as MuleSoft Certified Architect video tutorials, MCIA-Level-1 study guides, and MCIA-Level-1 practice exams. With these resources, you can develop a better understanding of the topics covered in the exam and be better prepared for success.

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MuleSoft MCIA-Level-1 Exam Overview :

Exam Name MuleSoft Certified Integration Architect - Level 1
Exam Code MCIA-Level-1
Actual Exam Duration The duration of the MuleSoft MCIA-Level-1 exam is 120 minutes (2 hours).
Expected no. of Questions in Actual Exam 58
What exam is all about MuleSoft Certified Integration Architect - Level 1 (MCIA-Level-1) exam is designed to test the knowledge and skills of integration architects who are responsible for designing and implementing MuleSoft solutions. The exam covers topics such as MuleSoft architecture, integration patterns, API design, data transformation, security, and deployment. The exam consists of multiple-choice questions and requires a passing score of 70%. Passing the MCIA-Level-1 exam demonstrates that the candidate has the knowledge and skills required to design and implement MuleSoft solutions that meet the needs of their organization.
Passing Score required The passing score required in the MuleSoft MCIA-Level-1 exam is 70%.
Competency Level required Based on the official MuleSoft website, the MCIA-Level-1 exam is designed for MuleSoft Certified Integration Architect - Level 1 certification, which validates the candidate's ability to design, build, test, deploy, and manage basic Mule 4 integrations and APIs. To pass the exam, candidates must have a good understanding of MuleSoft Anypoint Platform, Mule 4, API-led connectivity, and integration patterns. They should also have hands-on experience with MuleSoft tools and technologies, including Anypoint Studio, DataWeave, and CloudHub. Therefore, the competency level required for the MCIA-Level-1 exam is intermediate to advanced, depending on the candidate's experience and knowledge of MuleSoft.
Questions Format The MuleSoft MCIA-Level-1 exam consists of multiple-choice questions.
Delivery of Exam The MuleSoft MCIA-Level-1 exam is a computer-based exam that is delivered online through the MuleSoft certification portal. It is a multiple-choice exam that consists of 60 questions and has a time limit of 120 minutes. The exam is designed to test the candidate's knowledge and skills in MuleSoft Anypoint Platform fundamentals, including API design, integration, and deployment.
Language offered The MuleSoft MCIA-Level-1 exam is offered in English language only.
Cost of exam You can visit the official MuleSoft website or contact their customer support team to get the latest pricing information.
Target Audience The MuleSoft MCIA-Level-1 certification is designed for professionals who are interested in becoming MuleSoft Certified Integration Architects. The target audience for this certification includes: 1. Integration Architects: Integration architects who are responsible for designing and implementing integration solutions using MuleSoft Anypoint Platform. 2. Developers: Developers who are interested in learning how to design and develop integration solutions using MuleSoft Anypoint Platform. 3. Technical Leads: Technical leads who are responsible for leading integration projects and managing integration teams. 4. Solution Architects: Solution architects who are responsible for designing end-to-end solutions that involve integration with other systems. 5. System Administrators: System administrators who are responsible for managing MuleSoft Anypoint Platform and ensuring its availability and performance. 6. Business Analysts: Business analysts who are interested in understanding how MuleSoft Anypoint Platform can be used to integrate different systems and applications. 7. Project Managers: Project managers who are responsible for managing integration projects and ensuring their successful completion. Overall, the MuleSoft MCIA-Level-1 certification is suitable for anyone who wants to gain expertise in designing and implementing integration solutions using MuleSoft Anypoint Platform.
Average Salary in Market The average salary for a MuleSoft developer is around $95,000 per year. Having a MuleSoft MCIA-Level-1 certification can potentially increase your earning potential. However, the actual salary may vary depending on factors such as location, experience, and industry.
Testing Provider You can visit the MuleSoft website to register for the exam and find authorized training partners who can provide you with the necessary resources and guidance to prepare for the exam.
Recommended Experience I can provide you with the recommended experience for MuleSoft MCIA-Level-1 exam. MuleSoft recommends the following experience for candidates taking the MCIA-Level-1 exam: 1. At least six months of experience working with MuleSoft Anypoint Platform. 2. Familiarity with MuleSoft Anypoint Studio and the MuleSoft Anypoint Platform. 3. Knowledge of integration patterns and best practices. 4. Understanding of RESTful APIs and web services. 5. Familiarity with Java programming language and object-oriented programming concepts. 6. Knowledge of XML, JSON, and other data formats. 7. Understanding of message queues and message brokers. 8. Experience with version control systems such as Git. 9. Familiarity with cloud computing platforms such as AWS, Azure, or Google Cloud. 10. Understanding of security concepts and best practices for API development. It is important to note that these are only recommended experiences, and candidates may still be able to pass the exam without meeting all of these requirements. However, having a strong understanding of these concepts will increase the likelihood of success on the exam.
Prerequisite The prerequisites for the MuleSoft MCIA-Level-1 exam are: 1. Basic knowledge of Java programming language 2. Understanding of RESTful web services and APIs 3. Familiarity with MuleSoft Anypoint Platform and its components 4. Experience in designing and developing MuleSoft integrations 5. Knowledge of integration patterns and best practices 6. Understanding of data transformation and mapping techniques 7. Experience in deploying and managing MuleSoft applications 8. Familiarity with DevOps practices and tools.
Retirement (If Applicable) It is recommended to check with MuleSoft or their official website for the latest updates on the exam.
Certification Track (RoadMap): The MuleSoft Certified Integration Architect - Level 1 (MCIA-Level-1) certification track/roadmap is a comprehensive program designed to validate the skills and knowledge of integration architects who work with MuleSoft's Anypoint Platform. The certification exam tests the candidate's ability to design, build, and manage integration solutions using MuleSoft's Anypoint Platform. The certification track/roadmap includes the following steps: 1. Prerequisites: Before taking the MCIA-Level-1 exam, candidates must have completed the MuleSoft Certified Developer - Level 1 (MCD-Level-1) certification. 2. Training: Candidates are recommended to attend the MuleSoft Integration Architect - Essentials (MIA) training course, which covers the key concepts and skills required to pass the MCIA-Level-1 exam. 3. Exam: The MCIA-Level-1 exam is a multiple-choice exam that tests the candidate's knowledge of MuleSoft's Anypoint Platform, including design patterns, integration best practices, and API management. 4. Certification: Candidates who pass the MCIA-Level-1 exam are awarded the MuleSoft Certified Integration Architect - Level 1 certification, which demonstrates their expertise in designing and managing integration solutions using MuleSoft's Anypoint Platform. 5. Continuing Education: To maintain their certification, MCIA-Level-1 certified professionals must complete continuing education requirements, which include attending MuleSoft training courses and passing additional certification exams.
Official Information https://training.mulesoft.com/exam/mcia-level1
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MuleSoft MCIA-Level-1 Exam Topics :

Section Weight Objectives
Configuring and provisioning Anypoint Platform  
  • Configure business groups, roles, and permissions within an Anypoint Platform organization.
  • Select Anypoint Platform identity management vs client management for the correct purpose.
  • Identify common and distinguishing features and usage scenarios for CloudHub VPCs and public worker cloud.
  • Suggest the number of Mule runtimes needed for a Mule application given performance targets and HA requirements.
  • Define a performant and HA deployment architecture for Mule applications in on-prem deployments.
  • Select monitoring options for all available Anypoint Platform deployment options.

Resources

  • ARC: INT Module 5
  • ARC: INT Module 7
  • ARC: INT Module 9
  • ARC: INT Module 10
Selecting integration styles  
  • Given a description of an integration problem, identify the most appropriate integration style.
  • When designing an integration solution, select the most appropriate interface/data technology and interface definition language for all integration interfaces.
  • Design parts of an integration solution using general message-based integration or event-driven architecture (EDA) using message brokers or streaming technologies.
  • Recognize scenarios where message correlation is necessary.

Resources

  • ARC: INT Module 2
  • ARC: INT Module 3
  • ARC: INT Module 4
  • ARC: INT Module 5
  • ARC: INT Module 7
Designing and documenting enterprise integration architecture  
  • For a given organization and their preferences and constraints, select the most appropriate Anypoint Platform deployment option.
  • Design parts of an integration solution using any SOA-based integration approach.
  • Identify the information that should be included in any integration solution architecture document.
  • Simplify a large-scale enterprise-wide integration architecture so that it can be effectively communicated to semi-technical stakeholders.
  • Identify the persistence mechanism and durability used for watermarks in different Mule runtime deployment options.
  • Identify integrations scenarios when to use batch.
  • Design for short or long retries using reconnection strategies.
  • Identify common and distinguishing features and usage scenarios for CloudHub DLBs and public CloudHub LBs.

Resources

  • ARC: INT Module 1
  • ARC: INT Module 3
  • ARC: INT Module 7
  • ARC: INT Module 8
Architecting resilient and performant integration solutions  
  • Recognize requirements that are best addressed using transactions (single-resource and XA).
  • Define transaction considerations where needed in a solution design including the requirement for an external transaction coordinator.
  • Specify the connectors that can participate in the different types of transactions.
  • Recognize the purpose of various fault-tolerance strategies for remote calls.
  • Design parts of an integration solution using general batch-oriented integration or ETL to/from files or databases.
  • Determine if horizontal scaling will help a Mule application meet its performance targets.

Resources

  • ARC: INT Module 5
  • ARC: INT Module 7
  • ARC: INT Module 8
  • ARC: INT Module 11
  • ARC: INT Module 12
  • ARC: INT Module 13
  • ARC: INT Module 14
Handling events and messages  
  • Identify scenarios in which to use different storage mechanisms including persistent and non-persistent ObjectStore, in-memory ObjectStore, cluster-replicated in-memory OS, hashtables, and disk-persisted OS.
  • Select suitable storage mechanisms for IDs (correlation IDs, message IDs, transaction IDs) in Mule applications deployed to CloudHub or on-premises.
  • Use Mule 4 constructs to make effective use of Enterprise Integration Patterns.
  • Use streaming to handle large payloads within Mule applications.
  • Predict the runtime behavior of messages queued internally for processing for load balancing or to achieve reliability.
  • Predict the runtime load-balancing behavior of messages sent to the public URL of a Mule application deployed to multiple CloudHub workers.

Resources

  • ARC: INT Module 8
  • ARC: INT Module 9
  • ARC: INT Module 12
  • ARC: INT Module 13
  • ARC: INT Module 14
Designing applications with Anypoint Connectors  
  • For a given Mule 4 connector (Premium, Select, and MuleSoft Certified), identify its purpose, the network protocol it uses, and whether it supports incoming or outgoing types of connections.
  • Specify the requirements that would require the use of domain-level connectors.
  • Specify when a Mule application would require persistence and select an appropriate persistence solution.
  • Identify possible failures when a component (such as an API client) invokes a remote component (such as an API implementation).

Resources

  • ARC: INT Module 2
  • ARC: INT Module 3
  • ARC: INT Module 4
  • ARC: INT Module 8
  • ARC: INT Module 10
  • ARC: INT Module 12
Designing networks for Anypoint Connectors  
  • For a given connector, recognize whether it will typically connect to/from an external system across organizational boundaries.
  • Use transport protocols and connectors correctly and coherently when and where applicable.
  • Match protocols with networking constraints and API layers.
  • When incoming and outgoing HTTPS connections with mutual authentication are used, identify what certificates are needed in what stores in different environment.

Resources

  • ARC: INT Module 3
  • ARC: INT Module 7
  • ARC: INT Module 8
  • ARC: INT Module 15
  • ARC: INT Module 16
Handling integration implementation lifecycles  
  • Identify the Anypoint Platform components where various types of API-related assets and artifacts are maintained or published.
  • Recognize the advantages and disadvantages of storing and managing properties in properties files in Mule applications.
  • For a given API or integration, identify the steps that need to be taken in order for testing to occur.

Resources

  • ARC: INT Module 6
  • ARC: INT Module 7
  • ARC: INT Module 10
Implementing DevOps  
  • Specify the purpose of various MuleSoft products in the area of DevOps and CI/CD.
  • Identify differences, advantages, and disadvantages of DevOps based on deployable Mule applications versus container images.
  • Formulate an effective source code management strategy including branching and merging.
  • Specify testing strategies that use both mocking and invoking of external dependencies.

Resources

  • ARC: INT Module 6
  • ARC: INT Module 7
  • ARC: INT Module 10
Operating and monitoring integration solutions  
  • Specify the type of metrics for API invocations and API implementations that can be monitored with Anypoint Platform.
  • Identify metrics and operations exposed by default via JMX.
  • Identify differences in monitoring and alerting between customer-hosted and MuleSoft-hosted Anypoint Platform.
  • Identify ways of transmitting IDs between components in remote interactions and capture this in the interface design of the remote interaction.

Resources

  • ARC: INT Module 7
  • ARC: INT Module 8
  • ARC: INT Module 9