MuleSoft Integration Architect - Level 1 Certification Test

About MuleSoft Certified Integration Architect - Level 1 Practice ExamA MuleSoft Certified Integration Architect should be able to drive and be responsible for an organizations Anypoint Platform implementation and the technical quality, governance (ensuring compliance), and operationalization of the integration solutions. The MCIA - Level 1 exam validates that an architect has the required knowledge and skills to work with technical and non-technical stakeholders to translate functional and non-functional requirements into integration interfaces and implementations. Skills AcquiredCertified candidates should be able to: Create the high-level design of integration solutions and guide implementation teams on the choice of Mule components and patterns to use in the detailed design and implementation. Select the deployment approach and configuration of Anypoint Platform with any of the available deployment options (MuleSoft-hosted or customer-hosted control plane and runtime plane).Design Mule applications for any of the available deployment options of the Anypoint Platform runtime plane. Apply standard development methods covering the full development lifecycle (project preparation, analysis, design, development, testing, deployment, and support) to ensure solution quality. Advise technical teams on performance, scalability, reliability, monitoring and other operational concerns of integration solutions on Anypoint Platform. Design reusable assets, components, standards, frameworks, and processes to support and facilitate API and integration projects. Note: Approximately 10% of the exam is specific to Mule 4.Course OutlineThe MuleSoft Certified Integration Architect - Level 1 Exam covers the following topics -Configuring and provisioning Anypoint PlatformConfigure 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. Selecting integration stylesGiven 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. Designing and documenting enterprise integration architectureFor 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. Architecting resilient and performant integration solutionsRecognize 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. Handling events and messagesIdentify 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