Integration Solutions Course

Integration Solutions Training

This instructor-led course teaches experienced solution and technical architects or lead/senior developers how to design integration solutions using Anypoint Platform that meet functional and non-functional requirements.

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Integration Solutions Training UpComing Batches

Nov-04 - Dec-16

Weekend
SOLD OUT

Timings: 07:00 AM To 10:00 AM (IST)

350.00     Enroll Now

Oct-28 - Dec-09

Weekday
SOLD OUT

Timings: 20:30 PM To 23:30 PM (IST)

350.00     Enroll Now

Nov-16 - Dec-28

Weekend
FILLING FAST

Timings: 07:00 AM To 10:00 AM (IST)

350.00     Enroll Now

Nov-23 - Jan-04

Weekday
FILLING FAST

Timings: 20:30 PM To 23:30 PM (IST)

350.00     Enroll Now

Nov-30 - Jan-11

Weekend

Timings: 07:00 AM To 10:00 AM (IST)

350.00     Enroll Now

Dec-07 - Jan-18

Weekday

Timings: 20:30 PM To 23:30 PM (IST)

350.00     Enroll Now
Be future ready. Start learning
Structure your learning and get a certificate to prove it.
Start Learning

Course Curriculum

Integration Solutions Training

SELF PACED

This instructor-led course teaches experienced solution and technical architects or lead/senior developers how to design integration solutions using Anypoint Platform that meet functional and non-functional requirements.

  • WEEK 5-6
  • 10 Modules
  • 6 Hours
Course Content


Topics:
  • Describe the objectives of enterprise integration solution.
  • Summarize how to architect for success with Anypoint Platform.
  • Describe how integration solutions using Anypoint Platform are documented.
  • Start using an architecture template for the course case study.


Topics:
  • Identify and document the overall design intentions of Anypoint Platform.
  • Summarize Anypoint Platform capabilities and high-level components.
  • Identify and distinguish between Anypoint Platform infrastructure and deployment options.
  • Choose Anypoint Platform components to be used to meet the functional and non-functional requirements of an integration use case.


Topics:
  • Explain the typical uses of Mule components (including connectors, transformers, routers and error handlers) in Mule applications.
  • Describe the differences between Mule 4 and Mule 3 applications.
  • Choose appropriate Mule application components to design an integration use case.
  • Summarize how class loading isolation is implemented in Mule runtimes.


Topics:
  • Distinguish between Mule 4 blocking, non-blocking, parallel and reactive event processing options.
  • Identify the event processing models used in various Mule 4 scopes and components.
  • Describe Mule 4 streaming options and behaviors.
  • Describe the event processing options for JMS and VM connectors.
  • Select appropriate event processing for an integration use case.
  • Design batch, near real-time and real-time data synchronization integration use cases.


Topics:
  • Describe reusable ways to transform and process events.
  • Explain how to simplify and decouple complex data mappings using common data models.
  • Design transformations between data models.
  • Choose the best event transformation, data validation and event routing patterns to an integration use case.


Topics:
  • Describe possible testing strategies for Mule applications.
  • Document a testing strategy for an integration use case.
  • Define the types of MUnit tests required for an integration use case and document the code coverage.
  • Design integration and performance tests for Mule applications.


Topics:
  • Distinguish between various Anypoint Platform runtime service models.
  • Distinguish between various Anypoint Platform deployment models.
  • Select the best deployment and runtime service options for an integration use case.


Topics:
  • Decide the best way to store Mule application state in persistent or non-persistent storage.
  • Explain how to store Mule application state using Object Store v2.
  • Decide when to manage storage of Mule application state using persistent VM queues.
  • Decide when to use Mule application provided caches to store Mule application state.
  • Design an integration solution to avoid duplicate processing of previous records using Mule connector watermarks.
  • Design the best storage and state management options for an integration use case.


Topics:
  • Describe auditing and logging options for Mule applications.
  • Design logging strategies for Mule applications.
  • Choose logging policies for Mule application log files.
  • Describe integration options with third-party log management systems.
  • Specify Anypoint Platform monitoring, alerting, notification, visualization and reporting options for APIs and integration solutions.
  • Choose the best monitoring, alerting and notification options for an integration use case.


Topics:
  • Design to manage property files for Mule applications across different environments.
  • Design to manage Anypoint Platform environments for Mule application deployments.
  • Describe how to implement continuous integration and continuous delivery (CI/CD) for an organization.
  • Describe how to automate deployment and management with Anypoint Platform.


Topics:
  • Identify why and when transactions are supported in Mule applications.
  • Identify resources that participate in transactions in Mule applications.
  • Describe how to manage a transaction using a transaction manager or the Saga pattern.
  • Describe how to demarcate transaction boundaries in Mule applications.
  • Choose the correct transaction type based on the participating resources.


Topics:
  • Identify and distinguish between reliability patterns for Mule application and their deployments.
  • Design to effectively balance competing non-functional requirements.
  • Clarify and validate reliability goals for an integration use case.
  • Design Mule applications and their deployments to meet reliability goals.
  • Design to effectively balance reliability goals with other project goals and requirements.


Topics:
  • Identify various types of high availability (HA) goals for Mule applications.
  • Identify ways to achieve HA in CloudHub and on-premises deployments.
  • Identify HA aware connectors and their design tradeoffs.
  • Describe how clustering and load balancing work in CloudHub and on-premises deployments.
  • Design to effectively balance HA goals with other project goals and requirements.


Topics:
  • Clarify performance goals for Mule applications.
  • Identify the need for performance optimization and associated tradeoffs.
  • Describe ways to search for and locate performance bottlenecks.
  • Describe how to design, architect, design and implement for performance.
  • Describe ways to measure performance.
  • Describe methods and best practices to performance tune Mule applications and Mule runtimes.
  • Design to effectively balance performance goals with reliability and HA goals.


Topics:
  • Describe Anypoint Platform security concepts and options.
  • Explain how to secure APIs on Anypoint Platform.
  • Differentiate between MuleSoft and customer responsibilities related to Anypoint Platform security.
  • Evaluate security risks for Mule applications.
  • Describe how to secure Mule application properties and data in transit.


Topics:
  • Describe Anypoint Platform network security options and architectures.
  • Identify MuleSoft-owned and customer-owned roles and responsibilities related to Anypoint Platform network security.
  • Describe how to secure Mule applications using Java key stores.
  • Design TLS communication and other network security options for an integration use case.
  • Properly size an Anypoint VPC to support deployment of all expected Mule applications.


Topics:
  • Review the essential steps for designing an integration solution using Anypoint Platform and Mule applications.
  • Carry out all the steps to design an integration solution for an integration use case.

Program Syllabus

Curriculum

You can also view the program syllabus by downloading this program Curriculum.

Course Description

Course Certification

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Features

Explore step by step paths to get started on your journey to Jobs of Today and Tomorrow.

Instructor-led Sessions

30 Hours of Online Live Instructor-Led Classes.
Weekend Class : 10 sessions of 3 hours each.

Real Life Case Studies

Real-life Case Studies

Live project based on any of the selected use cases, involving implementation of the various real life solutions / services.

Assignments

Assignments

Each class will be followed by practical assignments.

24 x 7 Expert Support

24 x 7 Expert Support

We have 24x7 online support team to resolve all your technical queries, through ticket based tracking system, for the lifetime.

Certification

Certification

Towards the end of the course, OL Tech Edu certifies you for the course you had enrolled for based on the project you submit.

Course FAQ's

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