Cena Netto:
9 935.35 PLN
2 160.00 EUR
Brutto: 12 220.48 PLN
Kurs przyjęty do powyższej kalkulacji 1 EUR = 4,5997 PLN -
tabela nr. 002/C/NBP/2021, z dnia 2021-01-04.

Cena w PLN jest orientacyjna (wyliczana z EUR/USD wg kursu sprzedaży NBP z dnia wystawienia faktury). UWAGA - Czas trwania szkolenia wirtualnego (Virtual training) może różnić się od czasu trwania szkolenia stacjonarnego (Classroom)!
Terminy:
Virtual training
01.11.2021-05.11.2021 [PL]
13.12.2021-17.12.2021 [PL]
24.01.2022-28.01.2022 [PL]

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Opis

Develop microservice-based applications with Quarkus and OpenShift.

Many enterprises are looking for a way to take advantage of cloud-native architectures, but many do not know the best approach. Quarkus is an exciting new technology that brings the reliability, familiarity, and maturity of Java Enterprise with a container-ready lightning fast deployment time. Red Hat Cloud-native Microservices Development with Quarkus (DO378) emphasizes learning architectural principles and implementing microservices based on Quarkus and OpenShift. You will build on application development fundamentals and focus on how to develop, monitor, test, and deploy modern microservices applications..

This course is based on OpenShift 4.5 and Quarkus 1.7

Course content summary:

  • Deploy microservice applications on Red Hat® OpenShift Container Platform.
  • Build a microservice application with Quarkus.
  • Implement unit and integration tests for microservices.
  • Use the config specification to inject data into a microservice.
  • Secure a microservice using OAuth.
  • Build and deploy native Quarkus applications.

Cel

Impact on the organization:

  • Many organizations are striving to make the move from monolithic applications to applications based on microservices, as well as how to reorganize their development paradigm to reap the benefits of microservice development in a DevOps economy. With Quarkus, developers can more quickly build, test, and deploy their applications, improving application time to market.

  • Organizations are also invested in the familiarity of Java™ programming frameworks as well as the stability and benefits Red Hat OpenShift Container Platform. This course teaches developers how to leverage microservice application development with Quarkus for streamlined deployment on OpenShift clusters.

Impact on the individual - As a result of attending this course, you will understand how to develop, monitor, test, and deploy microservice-based applications using Quarkus and Red Hat OpenShift.

You should be able to demonstrate these skills:

  • Design a microservices-based architecture for an enterprise application.
  • Quickly build and test microservices with Quarkus and deploy on to OpenShift Container Platform.
  • Implement fault tolerance and health checks for microservices.
  • Secure microservices to prevent unauthorized access.

Grupa docelowa:

This course is designed for application developers.

Uwagi:

Duration

  • Classroom: 4 days + exam
  • Virtual training: 5 days + exam

Recommended next exam or course

Technology considerations

  • Internet access required

Wymagania:

Konspekt

  1. Describe microservice architectures
    • Describe components and patterns of microservice-based application architectures.
  2. Implement a microservice with Quarkus
    • Describe the specifications in Quarkus, implement a microservice with some of the specifications, and deploy it to an OpenShift Cluster.
  3. Build microservice applications with Quarkus
    • Build a persistent and configurable distributed quarkus microservices application.
  4. Implement fault tolerance
    • Implement fault tolerance in a microservice architecture.
  5. Build and deploy native Quarkus applications
    • Describe Quarkus in native mode and describe its deployment on OpenShift Container Platform.
  6. Test microservices
    • Implement unit and integration tests for microservices.
  7. Create application health checks
    • Create a health check for a microservice.
  8. Secure microservices
    • Secure microservice endpoints and communication.
  9. Monitor microservices
    • Monitor the operation of a microservice using metrics and distributed tracing.