Microsoft Azure Specialist – SAP Workloads (AZ-120)

Microsoft Azure provides a robust cloud infrastructure that supports a wide range of enterprise workloads, including SAP systems. By integrating SAP solutions into Azure, businesses can leverage the cloud’s scalability, flexibility, and performance to support mission-critical applications. SAP workloads on Azure benefit from a secure and compliant environment, global reach, and integrated tools for monitoring, automation, and management.

SAP systems such as SAP HANA, S/4HANA, SAP NetWeaver, and SAP BW require high-performance computing resources and reliable infrastructure, which Azure offers through its comprehensive cloud platform. These services include virtual machines optimized for SAP, storage solutions, advanced networking capabilities, and integration with Azure Active Directory. Azure ensures a seamless transition for organizations migrating their on-premises SAP systems to the cloud, providing tools and services designed to simplify deployment and operation.

Benefits of Running SAP on Azure

Deploying SAP on Azure provides several business and technical advantages. First, Azure’s global infrastructure ensures high availability and disaster recovery options across multiple geographic regions. This is crucial for maintaining business continuity and reducing downtime. Azure also offers elastic scaling, allowing organizations to adjust computing resources based on changing workloads, thus optimizing costs and improving performance.

Another key benefit is the integration with existing Microsoft tools such as Power BI for analytics, Microsoft 365 for productivity, and Azure DevOps for continuous integration and deployment. These integrations streamline operations and enable more efficient business processes. Additionally, Azure supports hybrid cloud configurations, allowing organizations to maintain certain workloads on-premises while migrating others to the cloud, providing flexibility and risk mitigation.

Security is also a critical advantage. Azure adheres to a wide range of industry standards and compliance certifications, ensuring that SAP workloads are protected against threats. With features like Azure Security Center, role-based access control, and network security groups, organizations can manage their SAP environments securely and efficiently.

Microsoft Solutions Partner for Infrastructure Recognition

Achieving the Microsoft Solutions Partner for Infrastructure badge demonstrates a provider’s ability to deliver high-quality cloud solutions, particularly within the Azure ecosystem. This recognition is awarded to partners who exhibit deep technical expertise and a proven track record of implementing infrastructure solutions in Azure.

For training providers, this badge signifies their capability to equip IT professionals with the necessary skills to plan, deploy, and manage complex workloads, including SAP systems. It also reflects a commitment to maintaining high standards in curriculum delivery, trainer certification, and student success rates. The partner’s alignment with Microsoft best practices ensures that learners receive up-to-date and relevant training aligned with industry demands.

This recognition also benefits learners by assuring them of the training provider’s credibility and the value of the certification. It enhances the provider’s ability to offer advanced training modules, access exclusive Microsoft resources, and deliver courses that meet the evolving needs of enterprises adopting cloud-first strategies.

Accelerated Course Format and Learning Methodology

The accelerated course format is designed to deliver comprehensive knowledge and practical skills in a condensed timeframe. Over three intensive days, participants cover all critical aspects of planning and administering SAP workloads on Azure. The course structure includes a balanced mix of lectures, hands-on labs, and review sessions, ensuring thorough understanding and retention of the material.

Each day of the course follows a structured learning path that begins with conceptual overviews, progresses through practical application exercises, and concludes with review activities that reinforce key learnings. This methodology allows participants to immediately apply theoretical knowledge in a practical context, enhancing the learning experience.

Participants also benefit from 24-hour lab access, enabling them to explore topics further and reinforce their understanding outside of scheduled training hours. This immersion model accelerates skill acquisition and prepares learners for the certification exam in a short period.

Lecture | Lab | Review Methodology

This unique instructional approach combines three integrated elements: Lecture, Lab, and Review. The lecture component involves instructor-led sessions where key concepts and technologies are explained. These sessions are delivered by certified Microsoft trainers who bring real-world experience and practical insights into the classroom.

Following each lecture, participants engage in lab exercises that allow them to apply the concepts in simulated environments. These hands-on labs are critical for developing practical skills and understanding the intricacies of deploying and managing SAP workloads on Azure.

The review sessions serve to consolidate learning by revisiting core topics, addressing knowledge gaps, and preparing students for the certification exam. This cyclical approach reinforces understanding and boosts confidence in applying the skills in professional scenarios.

Advantages of Accelerated Learning

Accelerated learning offers several benefits compared to traditional training models. By concentrating the learning process into a short time frame, it reduces the overall time commitment required while maintaining the depth and quality of the training. This format is ideal for busy professionals who need to acquire new skills quickly without disrupting their work schedules.

It also enhances knowledge retention by keeping learners fully engaged and immersed in the subject matter. The intensive schedule ensures continuous exposure to the content, minimizing distractions and promoting deeper cognitive processing. Furthermore, the availability of experienced instructors and support resources throughout the course ensures that learners receive timely guidance and clarification.

The accelerated model also fosters a focused learning environment, particularly in residential settings, where participants can dedicate their full attention to the training without external interruptions. This leads to more effective learning outcomes and higher success rates on certification exams.

Technical Skills and Knowledge Areas

The course covers a broad spectrum of technical topics relevant to SAP workloads on Azure. These include infrastructure planning, virtual network configuration, storage implementation, identity management, and disaster recovery strategies. Each topic is explored in detail through theoretical instruction and practical labs.

Participants learn to leverage various Azure tools and services, such as the Azure Portal, Azure Resource Manager, PowerShell, and CLI, to deploy and manage SAP workloads. They also gain expertise in using intersite connectivity features like VNet Peering and VNet-to-VNet connections to enable seamless communication between virtual networks.

The course emphasizes the importance of business continuity and guides on implementing backup and disaster recovery solutions. Learners understand how to ensure high availability for critical SAP applications and how to design resilient architectures using Azure capabilities.

Implementation and Migration of SAP Solutions

A significant portion of the training is dedicated to implementing and migrating SAP workloads to Azure. This includes deploying SAP HANA, S/4HANA, SAP NetWeaver, and other SAP systems using Azure’s infrastructure-as-a-service (IaaS) offerings. Participants learn how to configure virtual machines, storage accounts, and networking components to support these workloads.

Migration strategies are discussed in detail, with a focus on minimizing downtime and ensuring data integrity. The course covers various migration tools and services, including Azure Migrate, Database Migration Service, and specialized SAP migration utilities. Participants are guided through the entire migration process, from initial planning and assessment to execution and post-migration validation.

By the end of this section, learners will be able to design and implement migration strategies tailored to specific organizational requirements, ensuring a smooth transition to the Azure environment.

Identity and Governance for SAP on Azure

Managing identity and access control is a crucial aspect of running SAP workloads on Azure. The course provides in-depth training on configuring Azure Active Directory (AAD) and integrating it with on-premises directories using Azure AD Connect. Participants learn to set up single sign-on (SSO), enforce multi-factor authentication (MFA), and implement role-based access control (RBAC) to enhance security.

Governance frameworks are also covered, including the use of Azure Policy, Management Groups, and Resource Locks to enforce compliance and prevent accidental resource modifications. These tools help organizations maintain control over their cloud environments and ensure that SAP workloads operate within defined policies and standards.

Understanding these governance mechanisms is essential for maintaining a secure, compliant, and well-managed SAP deployment in Azure. Participants gain the skills needed to implement these controls effectively and align their environments with organizational and regulatory requirements.

Advanced Implementation and Optimization Techniques

Ensuring continuous availability and rapid recovery from disruptions is essential for SAP workloads. Azure provides multiple tools and services for designing high availability (HA) and disaster recovery (DR) architectures. Learners explore how to deploy SAP systems across availability zones and regions to increase fault tolerance and geographic redundancy.

The course covers configuration of Azure Site Recovery for automated failover and failback processes, as well as backup strategies using Azure Backup. Participants also learn how to configure database replication for SAP HANA and design application-layer failover mechanisms. Real-world scenarios are used to practice building end-to-end DR solutions that meet business continuity requirements.

Properly implemented HA/DR strategies reduce the risk of data loss and downtime, which is particularly critical for enterprise applications that support core business functions. The training equips learners to evaluate business needs and apply the right mix of Azure technologies to ensure resilience and reliability.

Performance Tuning and Cost Optimization

Optimizing performance and controlling costs are essential aspects of managing SAP on Azure. The course includes performance tuning techniques for virtual machines, storage solutions, and network configurations. Participants analyze performance metrics using Azure Monitor and Log Analytics, learning how to identify bottlenecks and implement improvements.

Cost optimization strategies are also discussed, such as selecting the appropriate VM sizes, leveraging reserved instances, and automating scaling based on usage patterns. Azure Cost Management tools help track spending and identify areas where efficiencies can be gained. Participants learn to align performance requirements with budget constraints to deliver balanced, cost-effective solutions.

Performance tuning and cost optimization go hand-in-hand in ensuring that SAP workloads operate efficiently without overspending. By mastering these skills, learners can support their organizations in achieving better return on investment from their cloud infrastructure.

Monitoring and Troubleshooting Azure for SAP Workloads

Effective monitoring is crucial for maintaining the health, performance, and security of SAP workloads hosted on Microsoft Azure. Azure offers a comprehensive suite of tools and services designed to provide real-time insights into system performance, identify bottlenecks, and detect issues before they impact business operations. Monitoring also ensures compliance with service-level agreements and internal performance benchmarks, helping organizations to deliver consistent and reliable service.

Azure Monitor serves as the cornerstone of monitoring services in Azure. It collects and analyzes telemetry data from various Azure resources, providing actionable insights through dashboards, alerts, and visualizations. For SAP environments, Azure Monitor can be customized to track key performance indicators relevant to SAP HANA, S/4HANA, and other SAP systems, including database usage, CPU load, memory consumption, disk I/O, and network throughput.

Azure Monitor and Log Analytics

Azure Monitor integrates seamlessly with Log Analytics, a service that enables deep data analysis and visualization. Log Analytics aggregates logs and metrics from multiple sources, allowing administrators to perform complex queries and create custom dashboards tailored to SAP workloads. This integration provides a unified monitoring experience that helps identify patterns, anomalies, and potential problems.

In a typical SAP deployment, Log Analytics can be configured to collect data from virtual machines, storage accounts, networking components, and application services. This holistic view enables IT teams to correlate performance data across layers and understand the root cause of issues quickly. The use of Kusto Query Language (KQL) in Log Analytics allows for powerful and flexible data exploration, making it easier to pinpoint performance problems and optimize resource usage.

Alerts and automation rules can also be defined within Azure Monitor and Log Analytics. For example, administrators can set up alerts that notify them when CPU usage exceeds a certain threshold or when disk space falls below a specified limit. Automated actions, such as scaling resources or restarting services, can be triggered in response to these alerts, ensuring the timely and effective resolution of issues.

Application Insights and Dependency Tracking

Application Insights is another tool within the Azure monitoring ecosystem that provides application-level telemetry. Although it is commonly used for custom applications, it can also be applied to monitor SAP-related services that interact with other applications and APIs. By tracking request flows, response times, and error rates, Application Insights helps developers and administrators understand the behavior of integrated systems and identify potential performance bottlenecks.

Dependency tracking within Application Insights enables the visualization of relationships between various components in a distributed architecture. This is particularly useful for SAP landscapes that rely on multiple interconnected services, including databases, web services, and third-party applications. By mapping these dependencies, administrators can gain a clearer picture of system health and quickly isolate issues affecting overall performance.

Network Watcher and Traffic Analytics

Network performance is a critical aspect of SAP workload management, especially when dealing with high transaction volumes and distributed deployments. Azure Network Watcher provides tools for monitoring, diagnosing, and visualizing network activity across virtual networks. It includes features such as connection monitoring, packet capture, and IP flow verification, which help identify latency issues and troubleshoot connectivity problems.

Traffic Analytics, an extension of Network Watcher, offers advanced analytics capabilities for analyzing network traffic patterns and identifying anomalies. For SAP workloads, this can reveal issues such as unexpected spikes in traffic, unauthorized access attempts, or inefficient routing configurations. Visualizations generated by Traffic Analytics can be used to optimize network design and improve the overall performance and security of the SAP environment.

Diagnostic Settings and Custom Logs

Diagnostic settings in Azure allow administrators to configure the collection of diagnostic data from various resources, including virtual machines, storage accounts, and application services. This data can be directed to Log Analytics, Event Hubs, or Azure Storage for further analysis. Custom logs can also be created to capture specific SAP-related metrics not available through default configurations.

Custom logging enables more granular visibility into SAP workloads by capturing application-specific events, errors, and performance metrics. For example, logs from SAP HANA can be ingested into Log Analytics to monitor query performance, memory usage, and disk activity. By combining this data with infrastructure-level metrics, administrators can perform comprehensive health assessments and optimize system performance.

Best Practices for Monitoring SAP on Azure

To ensure effective monitoring of SAP workloads on Azure, several best practices should be followed. These include:

• Establishing baseline performance metrics to identify deviations and trends.
• Implementing role-based access control to secure monitoring data and tools.
• Using tags and resource groups to organize monitoring data logically.
• Regularly reviewing and tuning alert thresholds to minimize false positives.
• Automating responses to common issues using Azure Automation and Logic Apps.

By adhering to these practices, organizations can enhance visibility into their SAP environments, reduce operational risks, and support proactive system management. Monitoring becomes a strategic function that not only detects problems but also drives continuous improvement in system performance and reliability.

Governance and Compliance for SAP Workloads on Azure

Governance in Azure refers to the policies, processes, and tools that help organizations manage and control their cloud environments. Effective governance ensures that resources are used efficiently, security and compliance requirements are met, and operational risks are minimized. For SAP workloads, governance is particularly important due to the critical nature of these systems and the sensitivity of the data they handle.

Azure provides a robust governance framework that includes tools such as Azure Policy, Management Groups, Blueprints, and Resource Locks. These tools enable organizations to define and enforce rules for resource deployment, configuration, and management. By applying governance controls, organizations can ensure that SAP workloads are deployed according to best practices and organizational standards.

Implementing Azure Policy for SAP Environments

Azure Policy allows administrators to define and enforce policies across their Azure resources. These policies can control a wide range of behaviors, such as restricting the types of virtual machines that can be deployed, enforcing tag usage, or requiring encryption for storage accounts. For SAP environments, policies can be used to enforce compliance with security standards, ensure consistent configurations, and prevent unauthorized changes.

Policies can be assigned at the subscription, resource group, or individual resource level, providing flexibility in governance implementation. Built-in policies are available for common scenarios, and custom policies can be created to meet specific requirements. Compliance data is presented in dashboards, allowing administrators to track policy adherence and identify non-compliant resources.

Role-Based Access Control and Identity Management

Managing access to resources is a fundamental aspect of governance. Azure Role-Based Access Control (RBAC) enables granular access management by assigning roles to users, groups, or applications. Each role defines a set of permissions that determine what actions can be performed on specific resources.

For SAP workloads, RBAC can be used to control who can deploy, configure, and manage the infrastructure. For example, database administrators may be granted access to SAP HANA virtual machines, while network administrators are limited to virtual network configurations. This separation of duties reduces the risk of unauthorized changes and supports audit and compliance requirements.

Integration with Azure Active Directory further enhances identity management capabilities. Organizations can implement single sign-on, multi-factor authentication, and conditional access policies to secure user access. These features are critical for protecting sensitive SAP data and ensuring that only authorized personnel can perform high-impact operations.

Management Groups and Subscription Organization

Management Groups in Azure allow organizations to group subscriptions into a hierarchy for unified governance and policy management. This is particularly useful for large enterprises with multiple departments, business units, or geographic regions. Policies and RBAC assignments can be applied at the management group level, ensuring consistent governance across all underlying subscriptions.

For SAP deployments, management groups can be used to segregate environments such as development, testing, and production. This separation helps enforce different policies and access controls based on the criticality and sensitivity of the workloads. It also simplifies reporting and compliance tracking by providing a clear organizational structure for resource management.

Compliance and Audit Reporting

Compliance with industry standards and regulatory requirements is a key consideration for organizations running SAP workloads. Azure provides a range of compliance tools and certifications that help organizations meet their obligations. The Azure Compliance Manager offers assessments and recommendations based on frameworks such as GDPR, ISO 27001, HIPAA, and others.

Audit logs and activity logs in Azure provide detailed records of actions taken within the environment. These logs can be used to monitor user activity, detect unauthorized access, and support forensic investigations. Logs can be integrated with Security Information and Event Management (SIEM) systems for centralized analysis and reporting.

For SAP-specific compliance, organizations may need to demonstrate controls around data integrity, access management, and system availability. Azure tools support these requirements by enabling comprehensive monitoring, access control, and policy enforcement. Regular audits and reviews help ensure that compliance is maintained over time.

Blueprinting and Resource Templates

Azure Blueprints enable the deployment of repeatable, governed environments by combining artifacts such as role assignments, policy definitions, ARM templates, and resource groups. Blueprints are ideal for SAP workloads because they ensure that each deployment adheres to a predefined configuration that meets organizational standards.

By using Blueprints, administrators can automate the deployment of compliant SAP environments, reducing manual effort and minimizing configuration drift. Templates can include infrastructure components such as virtual machines, storage accounts, and networking settings, as well as governance controls like policies and locks. This approach streamlines the provisioning process and ensures consistency across environments.

High Availability and Disaster Recovery for SAP Workloads on Azure

Ensuring high availability (HA) and implementing effective disaster recovery (DR) strategies are fundamental for mission-critical SAP workloads on Azure. These strategies protect against data loss, minimize downtime, and maintain business continuity during unexpected failures or disasters. Azure provides a range of native services and architectures that support robust HA and DR configurations tailored for SAP environments.

High availability refers to the system’s ability to remain operational with minimal downtime. It typically involves redundancy and failover mechanisms within a single region. Disaster recovery, on the other hand, focuses on recovering services after a significant failure, often involving geo-redundant resources across multiple regions.

Implementing HA and DR for SAP workloads requires careful planning and an understanding of SAP application architecture, Azure infrastructure capabilities, and business continuity requirements. Choosing the right approach depends on factors such as Recovery Point Objective (RPO), Recovery Time Objective (RTO), cost, and regulatory compliance.

High Availability Architecture for SAP on Azure

Azure offers several architectural patterns to ensure high availability for SAP systems. The core components of SAP applications, including SAP NetWeaver, SAP HANA, and S/4HANA, can be deployed using redundant virtual machines (VMs), availability sets, and availability zones.

Availability Sets ensure that VMs are distributed across multiple fault domains and update domains within a data center, protecting against hardware failures and maintenance events. Availability Zones provide even higher resilience by placing VMs in physically separate data centers within a region. Deploying SAP systems across availability zones mitigates the risk of regional failures.

Load balancers are used to distribute traffic between redundant application servers, ensuring uninterrupted service. For SAP HANA databases, HA is achieved using features such as System Replication and Pacemaker cluster configurations. System Replication maintains a real-time replica of the primary database, while Pacemaker provides automatic failover between nodes.

In addition to infrastructure-level HA, application-level HA configurations such as enqueue replication for SAP NetWeaver and HANA scale-out clusters further enhance resilience. These configurations ensure that critical services remain available during component failures.

Disaster Recovery Strategies for SAP

Disaster recovery involves replicating SAP workloads to a secondary Azure region to ensure service continuity during major outages. Azure Site Recovery (ASR) is a primary tool for enabling DR for SAP systems. ASR replicates VMs to a different region and orchestrates failover and failback processes.

SAP HANA System Replication is commonly used for DR by maintaining a synchronous or asynchronous replica of the primary database in a secondary region. Combined with ASR for application servers, this approach provides a comprehensive DR solution. The failover process includes promoting the secondary HANA instance, redirecting application traffic, and validating data integrity.

DR strategies should be tested regularly through planned failover drills. Azure supports non-disruptive DR testing, allowing organizations to validate their recovery plans without impacting production environments. Testing ensures that recovery procedures are documented, automated, and effective in meeting RTO and RPO targets.

For organizations with stringent compliance requirements, DR plans should include data encryption, secure access controls, and audit logging. Azure Backup can be integrated into DR strategies to provide point-in-time recovery for SAP-related data and configurations.

Backup Solutions for SAP on Azure

Backing up SAP systems is a critical component of DR. Azure Backup provides a scalable and secure solution for protecting SAP data. It supports VM-level backups as well as workload-specific backups for SAP HANA databases using the Azure Backup for SAP HANA feature.

Azure Backup for SAP HANA is certified by SAP and supports full, incremental, and differential backups. It integrates with the SAP HANA native backup tools and offers policy-based backup management. Backups are stored in geo-redundant storage (GRS) to ensure data durability and availability across regions.

Backup retention policies can be configured to meet business and compliance requirements. Backup data is encrypted in transit and at rest, and role-based access control (RBAC) ensures secure management. Backup alerts and reports are available through the Azure portal and Azure Monitor.

For non-HANA SAP workloads, Azure supports custom backup solutions using scripts and third-party tools. These solutions can be integrated with Azure Storage, Azure Files, or third-party backup services, depending on the architecture and operational requirements.

Automation and Orchestration of HA/DR Processes

Automation is key to ensuring consistent and reliable HA and DR processes. Azure provides tools such as Azure Automation, Azure Resource Manager (ARM) templates, and Azure Site Recovery to automate deployment, monitoring, and failover operations.

ARM templates can be used to deploy standardized SAP environments with built-in HA and DR configurations. These templates reduce manual effort and ensure compliance with architectural best practices. Azure Automation allows for the creation of runbooks that automate tasks such as backup, patching, and system health checks.

Site Recovery provides orchestration for DR failover and failback processes. Recovery plans can be defined to include scripts, manual steps, and sequence dependencies, ensuring orderly recovery of services. Integration with Azure Monitor and Log Analytics enables proactive monitoring and alerting.

PowerShell and Azure CLI offer scripting capabilities for advanced automation scenarios. Organizations can create custom scripts to manage replication settings, initiate failovers, and perform health checks. These scripts can be scheduled or triggered by events to support zero-touch operations.

Cost Considerations and Optimization

Implementing HA and DR involves additional infrastructure and operational costs. Organizations must balance the need for resilience with budget constraints. Azure offers tools and strategies to optimize costs while maintaining desired availability levels.

Reserved Instances can be used to reduce VM costs for standby environments. Spot VMs offer cost savings for non-critical workloads. Azure Hybrid Benefit allows the reuse of on-premises licenses for Windows Server and SQL Server, reducing licensing costs.

Autoscaling and right-sizing of VMs help optimize resource utilization. Monitoring tools can identify underutilized resources, enabling adjustments to instance sizes or shutdown schedules. Cost management tools in Azure provide visibility into spending and enable budget tracking.

Backup and DR policies should be reviewed regularly to align with business needs. Retention periods, replication settings, and storage tiers can be adjusted to reduce costs without compromising data protection. Using lifecycle policies for storage accounts helps manage backup data effectively.

Best Practices for HA and DR in SAP Environments

Successful implementation of HA and DR for SAP workloads on Azure involves adherence to best practices. These include:

• Designing redundant infrastructure using availability sets or zones.
• Implementing SAP HANA System Replication with automated failover.
• Using Azure Site Recovery for VM replication and orchestrated DR.
• Regularly testing DR plans through non-disruptive drills.
• Automating deployment and failover processes using Azure tools.
• Monitoring system health and backup status continuously.
• Documenting procedures and training staff on HA/DR operations.
• Aligning HA/DR strategies with business impact analyses.

Following these best practices enhances the reliability, security, and efficiency of SAP environments. It ensures that critical business functions remain operational under all circumstances, supporting organizational resilience and customer trust.

Final Thoughts

Deploying and managing SAP workloads on Microsoft Azure represents a strategic shift toward modern, agile, and scalable enterprise IT. Throughout this course, we have explored the key architectural, operational, and governance considerations involved in planning, migrating, optimizing, securing, and maintaining SAP systems in the Azure cloud.

From understanding Azure infrastructure fundamentals to designing high availability and disaster recovery strategies, each module has provided insights into best practices and practical tools tailored specifically for SAP environments. Leveraging Azure’s native capabilities, such as Azure Monitor, Azure Site Recovery, Azure Policy, and the integration with SAP HANA, enables enterprises to achieve both technical excellence and business agility.

A successful SAP on Azure deployment is not a one-time event but an ongoing journey. As technologies evolve and business needs change, organizations must continuously assess their cloud strategy, adapt to innovations, and refine their operations. Azure’s growing ecosystem of services, combined with SAP’s modernization through offerings like S/4HANA, supports this journey by providing the flexibility and power needed to run intelligent enterprise solutions at scale.

The key takeaways from this course include:

• Strategic Planning: A thorough assessment of current SAP workloads, performance requirements, and compliance needs is essential for designing an optimal Azure environment.
  
• High Availability and Resilience: Leveraging Azure’s availability zones, backup services, and automation tools ensures robust uptime and rapid recovery.
  
• Monitoring and Optimization: Proactive monitoring and continuous performance tuning are vital to maintaining a secure and efficient SAP system.
  
• Security and Compliance: With built-in services like Azure Active Directory, RBAC, and Azure Policy, organizations can enforce strict security and compliance controls.
  
• Cost Management: Azure offers tools and strategies to control costs without sacrificing performance or availability.
  

The cloud journey for SAP doesn’t end with migration, it begins there. The agility and power of Azure enable continuous transformation, whether through integrating AI and analytics, automating business processes, or enabling global scalability.