11.11 Special 70% Discount Offer - Ends in 0d 00h 00m 00s - Coupon code: save70

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

Exam Code:
MuleSoft-Integration-Architect-I
Exam Name:
Salesforce Certified MuleSoft Integration Architect 1 (SU24) Exam
Certification:
Vendor:
Questions:
270
Last Updated:
Nov 14, 2024
Exam Status:
Stable
Salesforce MuleSoft-Integration-Architect-I

MuleSoft-Integration-Architect-I: Salesforce MuleSoft Exam 2024 Study Guide Pdf and Test Engine

Are you worried about passing the Salesforce MuleSoft-Integration-Architect-I (Salesforce Certified MuleSoft Integration Architect 1 (SU24) Exam) exam? Download the most recent Salesforce MuleSoft-Integration-Architect-I braindumps with answers that are 100% real. After downloading the Salesforce MuleSoft-Integration-Architect-I exam dumps training , you can receive 99 days of free updates, making this website one of the best options to save additional money. In order to help you prepare for the Salesforce MuleSoft-Integration-Architect-I exam questions and verified answers by IT certified experts, CertsTopics has put together a complete collection of dumps questions and answers. To help you prepare and pass the Salesforce MuleSoft-Integration-Architect-I exam on your first attempt, we have compiled actual exam questions and their answers. 

Our (Salesforce Certified MuleSoft Integration Architect 1 (SU24) Exam) Study Materials are designed to meet the needs of thousands of candidates globally. A free sample of the CompTIA MuleSoft-Integration-Architect-I test is available at CertsTopics. Before purchasing it, you can also see the Salesforce MuleSoft-Integration-Architect-I practice exam demo.

Salesforce Certified MuleSoft Integration Architect 1 (SU24) Exam Questions and Answers

Question 1

An Order microservice and a Fulfillment microservice are being designed to communicate with their dients through message-based integration (and NOT through API invocations).

The Order microservice publishes an Order message (a kind of command message) containing the details of an order to be fulfilled. The intention is that Order messages are only consumed by one Mute application, the Fulfillment microservice.

The Fulfilment microservice consumes Order messages, fulfills the order described therein, and then publishes an OrderFulfilted message (a kind of event message). Each OrderFulfilted message can be consumed by any interested Mule application, and the Order microservice is one such Mute application.

What is the most appropriate choice of message broker(s) and message destination(s) in this scenario?

Options:

A.

Order messages are sent to an Anypoint MQ exchange OrderFulfilled messages are sent to an Anypoint MQ queue Both microservices interact with Anypoint MQ as the message broker, which must therefore scale to support the load of both microservices

B.

Order messages are sent to a JMS queue. OrderFulfilled messages are sent to a JMS topic Both microservices interact with the same JMS provider (message broker) instance, which must therefore scale to support the load of both microservices

C.

Order messages are sent directly to the Fulfillment microservices. OrderFulfilled messages are sent directly to the Order microservice The Order microservice interacts with one AMQP-compatible message broker and the Fulfillment microservice interacts with a different AMQP-compatible message broker, so that both message brokers can be chosen and scaled to best support the load of each microservice

D.

Order messages are sent to a JMS queue. OrderFulfilled messages are sent to a JMS topic The Order microservice interacts with one JMS provider (message broker) and the Fulfillment microservice interacts with a different JMS provider, so that both message brokers can be chosen and scaled to best support the load of each microservice

Buy Now
Question 2

An organization currently uses a multi-node Mule runtime deployment model within their datacenter, so each Mule runtime hosts several Mule applications. The organization is planning to transition to a deployment model based on Docker containers in a Kubernetes cluster. The organization has already created a standard Docker image containing a Mule runtime and all required dependencies (including a JVM), but excluding the Mule application itself.

What is an expected outcome of this transition to container-based Mule application deployments?

Options:

A.

Required redesign of Mule applications to follow microservice architecture principles

B.

Required migration to the Docker and Kubernetes-based Anypoint Platform - Private Cloud Edition

C.

Required change to the URL endpoints used by clients to send requests to the Mule applications

D.

Guaranteed consistency of execution environments across all deployments of a Mule application

Question 3

An organization plans to migrate its deployment environment from an onpremises cluster to a Runtime Fabric (RTF) cluster. The on-premises Mule applications are currently configured with persistent object stores.

There is a requirement to enable Mule applications deployed to the RTF cluster to store and share data across application replicas and through restarts of the entire RTF cluster,

How can these reliability requirements be met?

Options:

A.

Replace persistent object stores with persistent VM queues in each Mule application deployment

B.

Install the Object Store pod on one of the cluster nodes

C.

Configure Anypoint Object Store v2 to share data between replicas in the RTF cluster

D.

Configure the Persistence Gateway in the RTF installation