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This article is the Azure Site Recovery Deployment Planner user guide for VMware to Azure production deployments.

VMware Capacity Planning Quickly understand capacity planning and management by getting a handle on: When you'll run out of resources; How many more VMs you can fit.

Overview

Before you begin to protect any VMware virtual machines (VMs) by using Azure Site Recovery, allocate sufficient bandwidth, based on your daily section. To learn more about percentile value, see the 'Percentile value used for the calculation' section.

Support matrix

*The tool is primarily for the Hyper-V to Azure disaster recovery scenario. For Hyper-V to secondary site disaster recovery, it can be used only to understand source-side recommendations like required network bandwidth, required free storage space on each of the source Hyper-V servers, and initial replication batching numbers and batch definitions. Ignore the Azure recommendations and costs from the report. Also, the Get Throughput operation is not applicable for the Hyper-V-to-secondary-site disaster recovery scenario.

Prerequisites

The tool has two main phases: profiling and report generation. There is also a third option to calculate throughput only. The requirements for the server from which the profiling and throughput measurement is initiated are presented in the following table.

Note

The tool can profile only VMs with VMDK and RDM disks. It can't profile VMs with iSCSI or NFS disks. Site Recovery does support iSCSI and NFS disks for VMware servers. Because the deployment planner isn't inside the guest and it profiles only by using vCenter performance counters, the tool doesn't have visibility into these disk types.

Download and extract the deployment planner tool

1. Download the latest version of Site Recovery Deployment Planner.The tool is packaged in a .zip folder. The current version of the tool supports only the VMware to Azure scenario.

2. Copy the .zip folder to the Windows server from which you want to run the tool.You can run the tool from Windows Server 2012 R2 if the server has network access to connect to the vCenter server/vSphere ESXi host that holds the VMs to be profiled. However, we recommend that you run the tool on a server whose hardware configuration meets the configuration server sizing guidelines. If you already deployed Site Recovery components on-premises, run the tool from the configuration server.

   We recommend that you have the same hardware configuration as the configuration server (which has an in-built process server) on the server where you run the tool. Such a configuration ensures that the achieved throughput that the tool reports matches the actual throughput that Site Recovery can achieve during replication. The throughput calculation depends on available network bandwidth on the server and hardware configuration (such as CPU and storage) of the server. If you run the tool from any other server, the throughput is calculated from that server to Azure. Also, because the hardware configuration of the server might differ from that of the configuration server, the achieved throughput that the tool reports might be inaccurate.

3. Extract the .zip folder.The folder contains multiple files and subfolders. The executable file is ASRDeploymentPlanner.exe in the parent folder.

   Example:Copy the .zip file to E: drive and extract it.E:ASR Deployment Planner_v2.3.zip

   E:ASR Deployment Planner_v2.3ASRDeploymentPlanner.exe

Update to the latest version of Deployment Planner

The latest updates are summarized in the Deployment Planner version history.

If you have a previous version of Deployment Planner, do either of the following:

• If the latest version doesn't contain a profiling fix and profiling is already in progress on your current version of the planner, continue the profiling.
• If the latest version does contain a profiling fix, we recommend that you stop profiling on your current version and restart the profiling with the new version.

Note

When you start profiling with the new version, pass the same output directory path so that the tool appends profile data on the existing files. A complete set of profiled data is used to generate the report. If you pass a different output directory, new files are created and old profiled data isn't used to generate the report.

Each new Deployment Planner version is a cumulative update of the .zip file. You don't need to copy the newest files to the previous folder. You can create and use a new folder.

Version history

The latest Site Recovery Deployment Planner tool version is 2.5.See the Site Recovery Deployment Planner version history page for the fixes that are added in each update.

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Next steps

The[Azure Site Recovery Deployment Planner] (site-recovery-hyper-v-deployment-planner.md) for Hyper-V to Azure deployment provides the following:

• VM eligibility assessment, based on the number of disks, disk size, IOPS, churn, and a few VM characteristics
• Network bandwidth need versus RPO assessment
• Azure infrastructure requirements
• On-premises infrastructure requirements
• Initial replication batching guidance
• Estimated total disaster recovery cost to Azure

Azure Site Recovery Capacity Planner helps you determine your capacity requirements when you replicate Hyper-V VMs with Azure Site Recovery.

Vmware Capacity Planner Downloads

Use Site Recovery Capacity Planner to analyze your source environment and workloads. It helps you estimate bandwidth needs, the server resources you need for the source location, and the resources (such as VMs and storage) you need in the target location.

You can run the tool in two modes:

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• Quick planning: Provides network and server projections based on an average number of VMs, disks, storage, and change rate.
• Detailed planning: Provides details of each workload at the VM level. Analyze VM compatibility and get network and server projections.

Before you start

• Gather information about your environment, including VMs, disks per VM, storage per disk.
• Identify your daily change (churn) rate for replicated data. Download the Hyper-V capacity planning tool to get the change rate. Learn more about this tool. We recommend that you run this tool over a week to capture averages.

Run the Quick Planner

1. Download and open Site Recovery Capacity Planner. You need to run macros. When you're prompted, make selections to enable editing and content.

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2. In the Select a planner type list box, select Quick Planner.

3. On the Capacity Planner worksheet, enter the required information. Fill in all the fields circled in red in the following screenshot:

   a. In Select your scenario, choose Hyper-V to Azure or VMware/Physical to Azure.

   b. In Average daily data change rate (%), enter the information you gather by using the Hyper-V capacity planning tool or Site Recovery Deployment Planner.

   c. The Compression setting isn't used when you replicate Hyper-V VMs to Azure. For compression, use a third-party appliance, such as Riverbed.

   d. In Retention in days, specify in days how long to retain replicas.

   e. In Number of hours in which initial replication for the batch of virtual machines should complete and Number of virtual machines per initial replication batch, enter settings that are used to compute initial replication requirements. When Site Recovery is deployed, the entire initial data set is uploaded.

4. After you enter the values for the source environment, the displayed output includes:

   • Bandwidth required for delta replication (in Megabits/sec): Network bandwidth for delta replication is calculated on the average daily data change rate.

   • Bandwidth required for initial replication (in Megabits/sec): Network bandwidth for initial replication is calculated on the initial replication values you enter.

   • Storage required (in GBs): The total Azure storage required.

   • Total IOPS on Standard Storage: The number is calculated based on the 8K IOPS unit size on the total standard storage accounts. For the Quick Planner, the number is calculated based on all the source VM disks and the daily data change rate. For the Detailed Planner, the number is calculated based on the total number of VMs that are mapped to standard Azure VMs and the data change rate on those VMs.

   • Number of Standard storage accounts required: The total number of standard storage accounts needed to protect the VMs. A standard storage account can hold up to 20,000 IOPS across all the VMs in standard storage. A maximum of 500 IOPS is supported per disk.

   • Number of Blob disks required: The number of disks that are created on Azure storage.

   • Number of premium accounts required: The total number of premium storage accounts needed to protect the VMs. A source VM with high IOPS (greater than 20,000) needs a premium storage account. A premium storage account can hold up to 80,000 IOPS.

   • Total IOPS on Premium Storage: The number is calculated based on the 256K IOPS unit size on the total premium storage accounts. For the Quick Planner, the number is calculated based on all the source VM disks and the daily data change rate. For the Detailed Planner, the number is calculated based on the total number of VMs that are mapped to premium Azure VMs (DS and GS series) and the data change rate on those VMs.

   • Number of Configuration Servers required: Shows how many configuration servers are required for the deployment.

   • Number of additional Process Servers required: Shows whether additional process servers are required, in addition to the process server that's running on the configuration server by default.

   • 100% additional storage on the Source: Shows whether additional storage is required in the source location.

Run the Detailed Planner

1. Download and open Site Recovery Capacity Planner. You need to run macros. When you're prompted, make selections to enable editing and content.

2. In Select a planner type, select Detailed Planner from the list box.

3. On the Workload Qualification worksheet, enter the required information. You must fill in all the marked fields.

   a. In Processor Cores, specify the total number of cores on a source server.

   b. In Memory allocation (in MBs), specify the RAM size of a source server.

   c. In Number of NICs, specify the number of network adapters on a source server.

   d. In Total Storage (in GB), specify the total size of the VM storage. For example, if the source server has three disks with 500 GB each, total storage size is 1,500 GB.

   e. In Number of disks attached, specify the total number of disks of a source server.

   f. In Disk capacity utilization (%), specify the average utilization.

   g. In Daily data change rate (%), specify the daily data change rate of a source server.

   h. In Mapping Azure VM size, enter the Azure VM size that you want to map. If you don't want to do this manually, select Compute IaaS VMs. If you input a manual setting and then select Compute IaaS VMs, the manual setting might be overwritten. The compute process automatically identifies the best match on Azure VM size.

4. If you select Compute IaaS VMs, here's what it does:

   • Validates the mandatory inputs.
   • Calculates IOPS and suggests the best Azure VM size match for each VM that's eligible for replication to Azure. If an appropriate size Azure VM can't be detected, an error displays. For example, if the number of disks attached is 65, an error displays because the highest size for an Azure VM is 64.
   • Suggests a storage account that can be used for an Azure VM.
   • Calculates the total number of standard storage accounts and premium storage accounts required for the workload. Scroll down to view the Azure storage type and the storage account that can be used for a source server.
   • Completes and sorts the rest of the table based on the required storage type (standard or premium) assigned for a VM and the number of disks attached. For all VMs that meet the requirements for Azure, the column Is VM qualified? shows Yes. If a VM can't be backed up to Azure, an error displays.

Columns AA to AE are output and provide information for each VM.

Example

As an example, for six VMs with the values shown in the table, the tool calculates and assigns the best Azure VM match and the Azure storage requirements.

• In the example output, note the following:

  • The first column is a validation column for the VMs, disks, and churn.

  • Two standard storage accounts and one premium storage account are needed for five VMs.

  • VM3 doesn't qualify for protection because one or more disks are more than 1 TB.

  • VM1 and VM2 can use the first standard storage account

  • VM4 can use the second standard storage account.

  • VM5 and VM6 need a premium storage account, and both can use a single account.

    Note

    IOPS on standard and premium storage are calculated at the VM level and not at disk level. A standard VM can handle up to 500 IOPS per disk. If IOPS for a disk are greater than 500, you need premium storage. If IOPS for a disk are more than 500 but IOPS for the total VM disks are within the support standard Azure VM limits, the planner picks a standard VM and not the DS or GS series. (The Azure VM limits are VM size, number of disks, number of adapters, CPU, and memory.) You need to manually update the mapping Azure size cell with the appropriate DS or GS series VM.

After all the information is entered, select Submit data to the planner tool to open Capacity Planner. Workloads are highlighted to show whether they're eligible for protection.

Vmware Capacity Planner Downloader

Submit data in Capacity Planner

1. When you open the Capacity Planner worksheet, it's populated based on the settings you specified. The word 'Workload' appears in the Infra inputs source cell to show that the input is the Workload Qualification worksheet.

2. If you want to make changes, you need to modify the Workload Qualification worksheet. Then select Submit data to the planner tool again.

Next steps

Learn how to run the capacity planning tool.