1. Home
  2. Salesforce
  3. Salesforce-Hyperautomation-Specialist Exam Syllabus

Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202) Exam Syllabus

Start Free Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202) Exam Practice After Reviewing the Topics

Before starting your Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202) exam preparation, it is recommended to review the complete Salesforce Certified MuleSoft Hyperautomation Developer exam syllabus and carefully go through the exam objectives listed below. Once you understand the exam structure and objectives, you should practice using our free Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202) questions. We also provide premium Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202) practice test, fully updated according to the latest exam objectives, to help you accurately assess your preparedness for the actual exam.

Salesforce
Vendor
Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202)
Exam Code
60
Total Questions
9
Total Exam Domains

START FREE Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202) EXAM PRACTICE

NO SIGNUP REQUIRED  •  100% FREE TO START

Salesforce-Hyperautomation-Specialist EXAM QUESTIONS

Salesforce Certified MuleSoft Hyperautomation Developer (Mule-Dev-202) Exam Objectives

Section 1: Employ best practices when using hyperautomation:
Weight:
20%
  • Given a scenario, identify the correct tools to use for a hyperautomation solution.
  • Model suitable tests and create data to test an end-to-end hyperautomation solution.
  • Implement key common design patterns for communicating between Salesforce, Anypoint, Composer, and RPA.
  • Employ typical fault handling approaches for each tool involved in the hyperautomation process.
  • Identify scenarios and techniques for reuse.
  • Identify velocity of development based on hyperautomation tools and use case complexity.
Section 2: Use Composer to automate data integrations in a hyperautomation project
Weight:
12%
  • Given a scenario, connect systems using a Composer flow and connectors, and map and retrieve data in action steps.
  • Given a hyperautomation scenario, implement the appropriate flow controls including If/Else blocks and For Each loops.
  • Given a hyperautomation scenario, transform data using number, string, and date functions and formulas.
  • Test Composer flows to ensure they work as expected.
Section 3: Design, build, and manage MuleSoft RPA processes used for hyperautomation:
Weight:
17%
This area covers the lifecycle of RPA processes within MuleSoft RPA Manager, including assessment, creation, deployment, initiation, performance tracking, and issue resolution.
Section 4: Design, build, and manage MuleSoft RPA processes used in hyperautomation:
Weight:
17%
  • Evaluate an RPA process in MuleSoft RPA Manager.
  • Perform general RPA process development tasks including designing, building, and testing RPA processes.
  • Deploy RPA processes.
  • Monitor and troubleshoot RPA processes.
Section 5: Use Salesforce Flow to build hyperautomation workflows:
Weight:
13%
  • Given a hyperautomation scenario, build the appropriate flow using Salesforce Flow.
  • Work with Einstein Bots to automate customer service.
  • Create tests for record-triggered flows with Flow Testing.
  • Given a scenario, connect Salesforce flows with other APIs.
  • Identify the basics of Salesforce flows that are applicable to hyperautomation implementation.
Section 6: Use Anypoint platform to deliver, and manage APIs in a hyperautomation project:
Weight:
15%
  • Describe composable building blocks (that is, APIs/Specs) and how to consume them in a hyperautomation implementation.
  • Summarize Anypoint Platform hyperautomation capabilities and high-level components.
  • Describe Mule application deployment options.
Section 7: Use Anypoint Platform to monitor hyperautomation API endpoints:
Weight:
7%
  • Using hyperautomation best practices to determine how to manage APIs using basic endpoint configurations, proxy endpoint configurations, and policies.
  • Describe Anypoint Monitoring for applications and APIs.
Section 8: Use Anypoint Exchange to catalog (publish), share, discover, and reuse assets:
Weight:
8%
  • Publish assets to private and public Anypoint Exchanges.
  • Test APIs using the Anypoint Exchange mocking service.
  • Given a hyperautomation scenario, employ Anypoint Exchange best practices.
Section 9: Use Salesforce Flow Orchestrator to build parallel, multi-user, multi-step workstreams:
Weight:
8%
  • Combine multiple automated workflows into a coordinated process.
  • Customize entry and exit conditions for evaluation flows.
  • Assign interactive steps to groups or queues.
  • Debug, deploy, and manage Flow Orchestration.
Info