IBM Power Virtual Server and Microsoft Azure Multi-cloud Integration Patterns

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IBM Power Virtual Server and Microsoft Azure Multi-cloud Integration Patterns

Pradip Roychowdhury (praro379@in.ibm.com)

Charbak Roy (charbak.roy@in.ibm.com)

Ashwin Srinivas ( ashwin.srinivas@in.ibm.com)

Subrata Ghosh (subrata.s.ghosh@in.ibm.com)

Ricardo Galvan (ricardo.galvan@microsoft.com)

Poom Nupong (poomnupong@microsoft.com)

Bhaskar Bandam (bhaskar.bandam@microsoft.com)

Introduction:

As enterprises further embrace a hybrid cloud strategy, it’s critically important that applications have the flexibility to be deployed anywhere across this landscape to reap the full benefits. This flexibility allows enterprises to use the continuous innovation that’s happening across public cloud providers along with the security, data privacy and reliability of enterprise’s own data center.



IBM® Power® Virtual Server (IBM PowerVS) is a leading, enterprise scale, Infrastructure as Service (IaaS) offering from IBM that is used by hundreds of enterprises to run mission critical IBM Power workloads together with IBM Cloud. Many enterprises would like to combine the enterprise scale of IBM PowerVS and cloud native workloads running in a hyperscale cloud such as Microsoft Azure.



This article will cover two potential patterns of application modernization and hybrid multi-cloud deployment. This hybrid multi-cloud connectivity model can offer clients the option to optimize (or eliminate) on-premises data center spend while at the same time extend application value by enabling the flexibility to locate workloads (or parts of workloads) on the best infrastructure based upon the specific needs of the application. For example, consider a distributed order management system application where data is exchanged between a front-end mobile or web tier running on cloud native infrastructure in Microsoft Azure with the core back-end system running on IBM i on Power servers in IBM PowerVS.



With IBM PowerVS, clients will benefit from the ability to run core mission critical workloads off premises without the need to re-platform coupled with the security, resiliency, and enterprise scale provided by IBM Power Virtual Server. In addition, clients gain access to 200+ IBM Cloud services available on the IBM Cloud catalog including AI, ML, analytics, and container platforms. With Microsoft Azure, clients have access to a rich set of cloud native x86 infrastructure from a leading hyperscale cloud provider. A vital component in connecting such multi-cloud environments are services from a network exchange provider such as Megaport. With Megaport, clients can access fast, flexible, on-demand secure network connections with wide global coverage.

See the following links to learn more about:

- 8 steps to build a successful multi-cloud strategy

- Multicloud connectivity for regulated industry workloads on IBM Cloud

- Planning a multi-cloud connectivity model for Connecting IBM Power Virtual Server to Microsoft Azure using Megaport

The following two patterns describe an architectural view of integrating these workloads running on two different cloud platforms to realize end to end business use case.



Patterns:

  1. API Based Integration
  2. Event Driven Integration Pattern

1. Pattern: API Based Integration

Use Case: Front-end applications running on Microsoft Azure (monolithic or cloud-native) connecting to System of Record (SoR) applications running on IBM PowerVS via API-integration.

Benefits:

  1. Security and Compliance: IBM PowerVS provides a secure and compliant environment for the SoR and superior IaaS when compared to other clouds with Power Servers. Microsoft Azure customers needing to connect Microsoft Azure resources to IBM Power resources can leverage multi-cloud connectivity to connect directly to IBM PowerVS.
  1. Scalability and Flexibility: IBM PowerVS provides flexible and scalable compute capacity for Power server enterprise workloads on both IBM PowerVS (Off-premises and On-premises). Microsoft Azure provides a scalable and flexible infrastructure for the front-end applications, allowing you to quickly respond to changing business demands and user traffic.
  1. Decoupling and Modernization: By separating the front-end applications from the SoR applications such as core banking system, insurance policy administration system, you can modernize and refactor the front-end without affecting the underlying SoR, reducing the risk of disrupting critical business operations.
  1. Improved User Experience: By hosting the front-end applications in Microsoft Azure, you can leverage Microsoft Azure's global presence and edge computing capabilities to reduce latency and improve the overall user experience.
  1. Data Consistency and Integrity: The SoR applications on IBM PowerVS remain the single source of truth for critical business data, ensuring data consistency and integrity.

Variations:

  1. Multi-cloud Front-end: In addition to Microsoft Azure, the front-end applications can be deployed across multiple cloud providers (e.g. IBM Cloud, AWS, Google Cloud, Oracle Cloud) as part of the multi-cloud architecture to take advantage of each cloud's strengths and avoid vendor lock-in.
  2. Containerized SoR: Containerize the SoR applications on IBM PowerVS using Docker and Red Hat OpenShift, allowing for greater portability and easier management of the SoR environment.
  1. API Gateway on IBM Cloud: Move the API gateway to IBM Cloud, closer to the SoR applications running on IBM PowerVS, to reduce latency and improve security by minimizing the exposure of the SoR to the public internet.
  1. Event-driven Architecture: Implement an event-driven architecture, where the front-end applications publish events to a message broker (e.g. Microsoft Azure Service Bus, IBM MQ) and the SoR.

bhbandam_0-1725553837017.png

Fig 1: API Based integration from Microsoft Azure API management to get SoRs from IBM PowerVS



Architecture Description:

  1. Front-end Applications: Monolithic or cloud-native applications running on Microsoft Azure, providing user interfaces and business logic.
  1. API Gateway: An API gateway (e.g. Microsoft Azure API Management) in Microsoft Azure, responsible for managing API requests, authentication, and rate limiting.
  1. API Integration: RESTful APIs or other integration mechanisms (e.g., messaging queues) connecting the front-end applications to the SoR applications on IBM PowerVS.
  1. SoR Applications: AIX-based and IBM i-based applications running on IBM PowerVS, serving as the single source of truth for critical business data.
  1. Multi-cloud Network Connectivity: Secure, dedicated connectivity between Microsoft Azure and IBM PowerVS, provided by Megaport, ensuring high-performance and low-latency data exchange.

2. Pattern: Event Driven Integration Pattern

Use Case: Microservice applications on Microsoft Azure pulling data from IBM PowerVS asynchronously via event-driven architecture using Microsoft Azure Event Bus at Microsoft Azure and Kafka at IBM cloud.

Benefits of Event-Driven Architecture:

  1. Decoupled Systems Integration:
  • By leveraging event-driven architecture, the integration between Microsoft Azure microservices and AIX/IBM i-based applications on IBM PowerVS becomes decoupled. This decoupling allows for independent evolution and scaling of each component without impacting the other, thereby minimizing the risk of disruption to critical business operations.
  1. Scalability and Elasticity:
  • IBM PowerVS provides flexible and scalable compute capacity for Power server enterprise workloads on both IBM PowerVS (Off-premises and On-premises). Microsoft Azure's event-driven services like Microsoft Azure Event Grid and Microsoft Azure Event Hubs provide scalable and elastic infrastructure for handling event streams. This capability enables seamless scaling of microservices in response to varying workloads and business demands, ensuring optimal performance and resource utilization.
  1. Real-Time Data Processing and Responsiveness:
  • Event-driven architecture facilitates real-time data processing by enabling immediate consumption of events as they occur. This responsiveness enhances the overall system agility, allowing Microsoft Azure microservices to react swiftly to changes in data from AIX-based and IBM i-based applications on IBM PowerVS.
  1. Fault Tolerance and Resilience:
  • By distributing events through durable event brokers such as Microsoft Azure Event Hubs and Kafka on IBM Cloud, the architecture enhances fault tolerance and resilience. It ensures that even if components fail temporarily, events are reliably delivered and processed once the system recovers, maintaining system availability and reliability.
  1. Enhanced Integration Capabilities:
  • Event-driven patterns promote seamless integration across diverse systems and platforms. Microsoft Azure's ecosystem supports a wide range of connectors and adapters for integrating with various data sources and services, facilitating smoother interactions between Microsoft Azure microservices and AIX/IBM i-based applications on IBM PowerVS.
  1. Operational Efficiency and Cost Optimization:
  • Event-driven architecture optimizes resource consumption by processing events asynchronously and on-demand. This operational efficiency reduces idle resource times and minimizes infrastructure costs, making the solution cost-effective and scalable as per business needs.
  1. Future-Proof and Extensible Design:
  • The modular and loosely coupled nature of event-driven architecture future-proofs the system by accommodating future changes and enhancements with minimal disruption. It supports evolving business requirements and technological advancements, ensuring long-term viability and adaptability of the integrated solution.

Variations on Event-Driven Architecture:

  1. Multi-cloud Front-end:
  • Description: Deploy front-end applications across multiple cloud providers such as IBM Cloud, Microsoft Azure, AWS, Google Cloud, and Oracle Cloud as part of the multi-cloud architecture. Each cloud provider can host different components of the application stack, leveraging their respective strengths.
  • Benefits:
    • Vendor Flexibility: Avoid vendor lock-in by utilizing multiple cloud providers, choosing services that best fit specific application needs.
    • Geographical Reach: Distribute front-end components closer to users in different regions, improving latency and user experience.
    • High Availability: Ensure redundancy and failover across multiple cloud environments, enhancing application resilience.
  1. Containerized System of Record (SoR):
  • Description: Containerize SoR applications on IBM PowerVS using Docker and Red Hat OpenShift, allowing for greater portability and easier management of the SoR environment.
  • Benefits:
    • Portability: Easily move and deploy SoR applications across different environments, including on-premises and various cloud platforms.
    • Scalability: Red Hat OpenShift orchestrates containerized applications, automatically scaling based on workload demands.
    • Management Efficiency: Simplify deployment, management, and updates of SoR applications through containerization, enhancing operational efficiency.
  1. API Gateway on IBM Cloud:
  • Description: Host the API gateway (e.g. using Microsoft Azure API Management or similar) on IBM Cloud, closer to the SoR applications running on IBM PowerVS.
  • Benefits:
    • Latency Reduction: Minimize latency by keeping API requests and responses within the same cloud environment as the SoR applications.
    • Security Enhancement: Enhance security by reducing exposure of critical APIs to the public internet, leveraging IBM Cloud’s security features and network controls.
    • Compliance: Ensure compliance with data sovereignty regulations by keeping sensitive data and APIs within designated cloud regions.

Key Points of Integration:

  • Event-Driven Approach: Microservices on Microsoft Azure subscribe to events from Microsoft Azure Event Grid/Event Hubs, while Kafka on IBM Cloud facilitates event publication from AIX-based and IBM i-based applications.
  • API Gateway Consideration: If necessary, an API gateway (like Microsoft Azure API Management) can still be utilized for exposing APIs to external clients or other services.
  • Network Connectivity: Ensuring secure and performant connectivity between Microsoft Azure and IBM Cloud is crucial for seamless data flow.

bhbandam_1-1725553837025.png

Fig 2: Kafka based integration with Event Bus with Kafka extension running on Microsoft Azure



Architecture Description:

  1. Microservices on Microsoft Azure:
    • Cloud-native microservices deployed on Microsoft Azure, handling specific functionalities or services.
  2. Event Bus:
    • Microsoft Azure Event Grid or Microsoft Azure Event Hubs used as an event bus within Microsoft Azure.
    • Kafka deployed on IBM Cloud used as an event bus on the IBM Cloud side.
  3. Event-Driven Integration:
    • Microservices on Microsoft Azure subscribe to relevant topics or events on Microsoft Azure Event Grid/Event Hubs.
    • Kafka topics on IBM Cloud are used for publishing events from the AIX-based and IBM i-based applications on IBM PowerVS.
  4. SoR Applications:
    • AIX-based and IBM i-based applications running on IBM PowerVS continue to serve as the SoR for critical business data.
  5. Multi-cloud Network Connectivity:
    • Secure, dedicated connectivity between Microsoft Azure and IBM Cloud (where Kafka is hosted), ensuring high-performance and low-latency data exchange.
    • Megaport or similar services can be used to establish this connectivity.

Conclusion:

IBM Power systems house an enterprise’s mission-critical data. IBM PowerVS delivers scalability, performance, and flexibility for Power workloads in the cloud with both scale-up and scale-out servers, SAN attached storage, native connectivity to the cloud network backbone, SAP and Oracle certified support, consistent enterprise architecture as on-prem and consistent ISV support. For further flexibility and innovation, enterprises can connect IBM PowerVS and Microsoft Azure to extend application value with access to run modern cloud native applications on an enterprise scale Red Hat OpenShift platform and x86 virtual machines in Microsoft Azure, with application data exchange back and forth to and from AIX, IBM i or Linux virtual machines in IBM PowerVS. This combination provides low-latency secured communication to enterprise data hosted in IBM PowerVS. This method provides superior performance due to fewer network hops, and allows for highly secured communication between new cloud-native applications and enterprise data stores as network traffic never has to leave the dedicated network path.



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