MuleSoft Certified Architect Exam MCIA-Level 1 Dumps Questions 2020 | DumpsBase
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What Skills Are Need To Prepare For MuleSoft Certified Architect Exam MCIA-Level 1 Exam?
MCIA-Level 1 MuleSoft Certified Integration Architect - Level 1 Certification Exam is one of the MuleSoft Certified Architect exams. We know that MuleSoft certification program enables you to demonstrate your proficiency and showcase your achievement. There are five MuleSoft Developer exams and two MuleSoft Architect exams currently. The MuleSoft Certified Architect Exam 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.
Pass MuleSoft Certified Architect Exam MCIA-Level 1 to be a MuleSoft Certified Integration Architect should be able to drive and be responsible for an organization’s Anypoint Platform implementation and the technical quality, governance (ensuring compliance), and operationalization of the integration solutions. When preparing for MuleSoft Certified Architect Exam MCIA-Level 1 exam, you 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.
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MuleSoft Certified Architect Exam MCIA-Level 1 Exam is available in English. Real MCIA-Level 1 MuleSoft Certified Integration Architect - Level 1 exam contains 58 questions in formats of multiple-choice, closed book, proctored online or in a testing center. You will be required to answer MCIA-Level 1 exam in 120 munites and get 70% passing scores or more.
MCIA-Level 1 MuleSoft Certified Integration Architect - Level 1 mainly validates that the candidate can perform the following tasks:
MCIA-Level 1 certification exam is administered via the Kryterion Webassessor testing platform. The registration fee of MCIA-Level 1 certification exam is $375, and it can be taken a maximum of 5 times, with a 24 hour wait between each attempt. The most important thing is MCIA-Level 1 MuleSoft Certified Integration Architect - Level 1 certification expires two years from the date of passing.
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A global organization operates datacenters in many countries. There are private network links between these datacenters because all business data (but NOT metadata) must be exchanged over these private network connections.
The organization does not currently use AWS in any way.
The strategic decision has just been made to rigorously minimize IT operations effort and investment going forward.
What combination of deployment options of the Anypoint Platform control plane and runtime plane(s) best serves this organization at the start of this strategic journey?
A. MuleSoft-hosted Anypoint Platform control plane
CloudHub Shared Worker Cloud in multiple AWS regions
B. MuleSoft-hosted Anypoint Platform control plane
Customer-hosted runtime plane in multiple AWS regions
C. MuleSoft-hosted Anypoint Platform control plane
Customer-hosted runtime plane in each datacenter
D. Anypoint Platform - Private Cloud Edition
Customer-hosted runtime plane in each datacenter
Anypoint Exchange is required to maintain the source code of some of the assets committed to it, such as Connectors, Templates, and API specifications.
What is the best way to use an organization's source-code management (SCM) system in this context?
A. Organizations need to point Anypoint Exchange to their SCM system so Anypoint Exchange can pull source code when requested by developers and provide it to Anypoint Studio
B. Organizations need to use Anypoint Exchange as the main SCM system to centralize versioning and avoid code duplication
C. Organizations can continue to use an SCM system of their choice for branching and merging, as long as they follow the branching and merging strategy enforced by Anypoint Exchange
D. Organizations should continue to use an SCM system of their choice, in addition to keeping source code for these asset types in Anypoint Exchange, thereby enabling parallel development, branching, and merging
An organization is designing an integration solution to replicate financial transaction data from a legacy system into a data warehouse (DWH).
The DWH must contain a daily snapshot of financial transactions, to be delivered as a CSV file. Daily transaction volume exceeds tens of millions of records, with significant spikes in volume during popular shopping periods.
What is the most appropriate integration style for an integration solution that meets the organization's current requirements?
A. API-led connectivity
B. Batch-triggered ETL
C. Event-driven architecture
D. Microservice architecture
A set of integration Mule applications, some of which expose APIs, are being created to enable a new business process. Various stakeholders may be impacted by this. These stakeholders are a combination of semi-technical users (who understand basic integration terminology and concepts such as JSON and XML) and technically skilled potential consumers of the Mule applications and APIs.
What is an effective way for the project team responsible for the Mule applications and APIs being built to communicate with these stakeholders using Anypoint Platform and its supplied toolset?
A. Create Anypoint Exchange entries with pages elaborating the integration design, including API notebooks (where applicable) to help the stakeholders understand and interact with the Mule applications and APIs at various levels of technical depth
B. Capture documentation about the Mule applications and APIs inline within the Mule integration flows and use Anypoint Studio's Export Documentation feature to provide an HTML version of this documentation to the stakeholders
C. Use Anypoint Design Center to implement the Mule applications and APIs and give the various stakeholders access to these Design Center projects, so they can collaborate and provide feedback
D. Use Anypoint Exchange to register the various Mule applications and APIs and share the RAML definitions with the stakeholders, so they can be discovered
A Mule application is being designed to do the following:
Step 1: Read a SalesOrder message from a JMS queue, where each SalesOrder consists of a header and a list of SalesOrderLineltems.
Step 2: Insert the SalesOrder header and each SalesOrderLineItem into different tables in an RDBMS.
Step 3: Insert the SalesOrder header and the sum of the prices of all its SalesOrderLineltems into a table in a different RDBMS.
No SalesOrder message can be lost and the consistency of all SalesOrder-related information in both RDBMSs must be ensured at all times.
What design choice (including choice of transactions) and order of steps addresses these requirements?
A. 1. Read the JMS message (NOT in an XA transaction)
2. Perform EACH DB insert in a SEPARATE DB transaction
3. Acknowledge the JMS message
B. 1. Read and acknowledge the JMS message (NOT in an XA transaction)
2. In a NEW XA transaction, perform BOTH DB inserts
C. 1. Read the JMS message in an XA transaction
2. In the SAME XA transaction, perform BOTH DB inserts but do NOT acknowledge the JMS message
D. 1. Read the JMS message (NOT in an XA transaction)
2. Perform BOTH DB inserts in ONE DB transaction
3. Acknowledge the JMS message
Mule application A receives a request Anypoint MQ message REQU with a payload containing a variable-length list of request objects. Application A uses the For Each scope to split the list into individual objects and sends each object as a message to an Anypoint MQ queue.
Service S listens on that queue, processes each message independently of all other messages, and sends a response message to a response queue.
Application A listens on that response queue and must in turn create and publish a response Anypoint MQ message RESP with a payload containing the list of responses sent by service S in the same order as the request objects originally sent in REQU.
Assume successful response messages are returned by service S for all request messages.
What is required so that application A can ensure that the length and order of the list of objects in RESP and REQU match, while at the same time maximizing message throughput?
A. Perform all communication involving service S synchronously from within the For Each scope, so objects in RESP are in the exact same order as request objects in REQU
B. Use a Scatter-Gather within the For Each scope to ensure response message order Configure the Scatter-Gather with a persistent object store
C. Keep track of the list length and all object indices in REQU, both in the For Each scope and in all communication involving service. Use persistent storage when creating RESP
D. Use an Async scope within the For Each scope and collect response messages in a second For Each scope in the order in which they arrive, then send RESP using this list of responses
What aspects of a CI/CD pipeline for Mule applications can be automated using MuleSoft-provided Maven plugins?
A. Import from API designer, compile, package, unit test, deploy, publish to Anypoint Exchange
B. Compile, package, unit test, validate unit test coverage, deploy
C. Compile, package, unit test, deploy, integration test
D. Compile, package, unit test, deploy, create associated API instances in API Manager
An integration Mule application is deployed to a customer-hosted multi-node Mule 4 runtime cluster. The Mule application uses a Listener operation of a JMS connector to receive incoming messages from a JMS queue.
How are the messages consumed by the Mule application?
A. Regardless of the Listener operation configuration, all messages are consumed by ONLY the primary cluster node
B. Depending on the JMS provider's configuration, either all messages are consumed by ONLY the primary cluster node or else ALL messages are consumed by ALL cluster nodes
C. Regardless of the Listener operation configuration, all messages are consumed by ALL cluster nodes
D. Depending on the Listener operation configuration, either all messages are consumed by ONLY the primary cluster node or else EACH message is consumed by ANY ONE cluster node
Additional nodes are being added to an existing customer-hosted Mule runtime cluster to improve performance. Mule applications deployed to this cluster are invoked by API clients through a load balancer.
What is also required to carry out this change?
A. API implementations using an object store must be adjusted to recognize the new nodes and persist to them
B. A new load balancer must be provisioned to allow traffic to the new nodes in a round-robin fashion
C. External monitoring tools or log aggregators must be configured to recognize the new nodes
D. New firewall rules must be configured to accommodate communication between API clients and the new nodes
An integration Mule application is being designed to process orders by submitting them to a backend system for offline processing. Each order will be received by the Mule application through an HTTPS POST and must be acknowledged immediately. Once acknowledged, the order will be submitted to a backend system. Orders that cannot be successfully submitted due to rejections from the backend system will need to be processed manually (outside the backend system).
The Mule application will be deployed to a customer-hosted runtime and is able to use an existing ActiveMQ broker if needed.
The backend system has a track record of unreliability both due to minor network connectivity issues and longer outages.
What idiomatic (used for their intended purposes) combination of Mule application components and ActiveMQ queues are required to ensure automatic submission of orders to the backend system, while minimizing manual order processing?
A. An On Error scope MuleSoft Object Store ActiveMQ Dead Letter Queue for manual processing
B. Until Successful component ActiveMQ long retry Queue ActiveMQ Dead Letter Queue for manual processing
C. Until Successful component MuleSoft Object Store ActiveMQ is NOT needed or used
D. An On Error scope Non-persistent VM ActiveMQ Dead Letter Queue for manual processing