- Module 1: Minimize the time and resources required to migrate your on-premises environment to Azure. Assess your current systems with Azure Migrate, and migrate them with Azure Migrate and Azure Database Migration Service.
- Discover how Azure Migrate can assess your existing workloads and plan your migration to Azure.
- Discover how Azure Migrate and Azure Database Migration Service can migrate your systems to Azure.
- Module 2: Provide disaster recovery for your on-premises infrastructure by managing and orchestrating replication, failover, and failback of VMware virtual machines, Hyper-V virtual machines, and physical servers with Azure Site Recovery.
- Identify the features and protection capabilities Azure Site Recovery provides to on-premises infrastructure
- Identify the requirements for enabling protection of on-premises infrastructure
- Module 3: Protect your applications and data from disasters with a well-designed site recovery solution.
- Define the site recovery requirements for your applications
- Select the proper solutions to provide site recovery for your applications
- Module 4: Provide disaster recovery for your Azure infrastructure by managing and orchestrating replication, failover, and failback of Azure virtual machines with Azure Site Recovery.
- Protect Azure virtual machines with Azure Site Recovery
- Run a disaster recovery drill to validate protection
- Failover and failback your virtual machines
- Module 5: Use Azure Backup to help protect the data for on-premises servers, virtual machines, virtualized workloads, SQL Server, Azure Files, and more.
- Identify the scenarios for which Azure Backup provides backup and restore capabilities
- Back up and restore an Azure virtual machine
- Module 6: Protect the data in your Azure SQL database and recover from data loss or corruption with backup and restore.
- Configure backup and retention of an Azure SQL database
- Restore an Azure SQL database
- Module 7: Enable your application to automatically adjust to changes in load while minimizing costs with virtual machine scale sets.
- Identify the features and capabilities of virtual machine scale sets.
- Identify the use cases for running applications on virtual machine scale sets.
- Deploy an application on a virtual machine scale set.
- Module 8: Respond to periods of high activity by incrementally adding resources, and then removing these resources when activity drops, to reduce costs.
- Identify scenarios for which autoscaling is an appropriate solution
- Create autoscaling rules for a web app
- Monitor the effects of autoscaling
- Module 9: Learn how to respond to periods of increased activity by incrementally increasing the resources available and then freeing these resources when activity drops.
- Scale a web app in and out manually.
- Scale a web app up and down.
- Module 10: Build an application that spans multiple geographic locations for high availability and resiliency.
- Design the networking architecture for a geographically distributed application
- Design the application architecture for a geographically distributed application
- Design the data architecture for a geographically distributed application
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