Salesforce MuleSoft-Integration-Architect-I Exam With Confidence Using Practice Dumps

Exam Code:

MuleSoft-Integration-Architect-I

Exam Name:

Salesforce Certified MuleSoft Platform Integration Architect (Mule-Arch-202)

Certification:

Salesforce MuleSoft

Vendor:

Salesforce

Questions:

273

Last Updated:

Mar 9, 2026

Exam Status:

Stable

MuleSoft-Integration-Architect-I: Salesforce MuleSoft Exam 2025 Study Guide Pdf and Test Engine

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Salesforce Certified MuleSoft Platform Integration Architect (Mule-Arch-202) Questions and Answers

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Question 1

The AnyAirline organization's passenger reservations center is designing an integration solution that combines invocations of three different System APIs (bookFlight, bookHotel, and bookCar) in a business transaction. Each System API makes calls to a single database.

The entire business transaction must be rolled back when at least one of the APIs fails.

What is the most idiomatic (used for its intended purpose) way to integrate these APIs in near real-time that provides the best balance of consistency, performance, and reliability?

Options:

Implement eXtended Architecture (XA) transactions between the API implementationsCoordinate between the API implementations using a Saga patternImplement caching in each API implementation to improve performance

Implement local transactions within each API implementationConfigure each API implementation to also participate in the same eXtended Architecture (XA) transactionImplement caching in each API implementation to improve performance

Implement local transactions in each API implementationCoordinate between the API implementations using a Saga patternApply various compensating actions depending on where a failure occurs

Implement an eXtended Architecture (XA) transaction manager in a Mule application using a Saga patternConnect each API implementation with the Mule application using XA transactionsApply various compensating actions depending on where a failure occurs

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Question 2

An organization is designing Mule application which connects to a legacy backend. It has been reported that backend services are not highly available and experience downtime quite often. As an integration architect which of the below approach you would propose to achieve high reliability goals?

Options:

Alerts can be configured in Mule runtime so that backend team can be communicated when services are down

Until Successful scope can be implemented while calling backend API's

On Error Continue scope to be used to call in case of error again

Create a batch job with all requests being sent to backend using that job as per the availability of backend API's

Question 3

An organization designing a hybrid, load balanced, single cluster production environment. Due to performance service level agreement goals, it is looking into running the Mule applications in an active-active multi node cluster configuration.

What should be considered when running its Mule applications in this type of environment?

Options:

All event sources, regardless of time , can be configured as the target source by the primary node in the cluster

An external load balancer is required to distribute incoming requests throughout the cluster nodes

A Mule application deployed to multiple nodes runs in an isolation from the other nodes in the cluster

Although the cluster environment is fully installed configured and running, it will not process any requests until an outage condition is detected by the primary node in the cluster.

Answer:

Explanation:

In a hybrid, load-balanced, single cluster production environment running Mule applications in an active-active multi-node configuration, several considerations are critical for ensuring performance and reliability. The key consideration is the use of an external load balancer:

Active-Active Multi-Node Cluster Configuration:

An active-active cluster means that all nodes are actively handling traffic, providing high availability and better resource utilization.

External Load Balancer Requirement:

Distribution of Requests: An external load balancer is essential to evenly distribute incoming requests across all active nodes in the cluster. This prevents any single node from becoming a bottleneck and ensures balanced load distribution.

Scalability and Failover: The load balancer provides scalability by allowing more nodes to be added seamlessly. It also handles failover, rerouting traffic to healthy nodes if one node goes down.

Load Balancer Configuration:

Setup: Configure the load balancer to include all the nodes of the Mule cluster.

Health Checks: Implement health checks to monitor the status of each node and ensure traffic is only directed to healthy nodes.

Session Persistence: If required, enable session persistence (sticky sessions) to ensure that user sessions remain consistent across requests.

Mule Application Isolation:

Each Mule application instance runs in isolation but shares the same configuration and state. This isolation ensures that the failure of one node does not impact others.

Handling Requests:

In an active-active configuration, all nodes handle incoming requests simultaneously. The load balancer's role is to manage the distribution of these requests efficiently.

Benefits:

High Availability: Ensures that the system remains available even if some nodes fail.

Improved Performance: Balances the load, preventing any single node from being overwhelmed.

Scalability: Makes it easy to scale horizontally by adding more nodes.

MuleSoft Documentation on Mule Clustering

Best Practices for Load Balancing

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Salesforce MuleSoft-Integration-Architect-I Exam With Confidence Using Practice Dumps

MuleSoft-Integration-Architect-I: Salesforce MuleSoft Exam 2025 Study Guide Pdf and Test Engine

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Salesforce Certified MuleSoft Platform Integration Architect (Mule-Arch-202) Questions and Answers

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