Prise en charge et limites pour les machines virtuelles avec Hyper-V et Windows Server 2008 R2
C’est une question récurente que l’on me pose très souvent concernant Windows Server 2008 R2, : combien de machines virtuelles sont hébergeables sur un serveur Hyper-V.
Bien sur la réponse est dépendante des ressources disponibles sur le hôte et des besoins de chaque machine virtuelle mais il y a cependant des limitations à connaitre et notamment sur la prise en charge des environnements cluster avec le support à présent de 1000 VMs par cluster (annonce faite lors de TechEd US 2010)
Une page technet à connaitre : https://technet.microsoft.com/en-us/library/ee405267(WS.10).aspx
Published: August 19, 2009
Updated: June 9, 2010
Applies To: Windows Server 2008 R2
To effectively plan for and deploy Hyper-V in Windows Server 2008 R2, you should understand the requirements and maximum configurations for the physical and virtual hardware that will comprise the virtualized server computing environment. You will need to consider the maximums that apply to each virtual machine as well as those that apply to the physical computer that runs the Hyper-V role.
Note |
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For information about system requirements for System Center Virtual Machine Manager (VMM), see Supported Configurations for VMM (https://go.microsoft.com/fwlink/?LinkId=161174). VMM is a Microsoft product for managing a virtualized data center that is sold separately—it is not a component of Windows Server 2008. |
Virtual Machines
The following table lists the maximums that apply to each virtual machine.
Component | Maximum | Notes |
---|---|---|
Virtual processors |
4 |
The number of virtual processors supported by a guest operating system might be lower. For more information, see About Virtual Machines and Guest Operating Systems. |
Memory |
64 GB |
Review the requirements for the specific operating system to determine the minimum and recommended amounts. |
Virtual IDE disks |
4 |
The startup disk (sometimes referred to as the boot disk) must be attached to one of the IDE devices. The startup disk can be either a virtual hard disk or a physical disk attached directly to a virtual machine. |
Virtual SCSI controllers |
4 |
Use of virtual SCSI devices requires integration services to be installed in the guest operating system. For a list of the guest operating systems for which integration services are available, see About Virtual Machines and Guest Operating Systems |
Virtual SCSI disks |
256 |
Each SCSI controller supports up to 64 disks, which means that each virtual machine can be configured with as many as 256 virtual SCSI disks. (4 controllers x 64 disks per controller) |
Virtual hard disk capacity |
2040 GB |
Each virtual hard disk is stored as a .vhd file on physical media. |
Size of physical disks attached directly to a virtual machine |
Varies |
Maximum size is determined by the guest operating system. |
Snapshots |
50 |
The actual number may be lower, depending on the available storage. Each snapshot is stored as an .avhd file that consumes physical storage. |
Virtual network adapters |
12 |
|
Virtual floppy devices |
1 virtual floppy drive |
None. |
Serial (COM) ports |
2 |
None. |
Server running Hyper-V
The following table lists the requirements and maximums that apply to the server running Hyper-V. In addition, we recommend that you review the Windows Catalog to identify servers that are qualified for use with Hyper-V. You can identify systems that support the x64 architecture and Hyper-V by searching the Windows Server catalog. For Windows Server 2008 you can select Hyper-V as an additional qualification (see https://go.microsoft.com/fwlink/?LinkId=111228). For Windows Server 2008 R2, all systems that have a "Certified for Windows® Server 2008 R2" logo support Hyper-V.
Component | Maximum | Notes |
---|---|---|
Logical processors |
64 |
Both of the following must be available and enabled in the BIOS:
|
Virtual processors per logical processor |
8 |
None. |
Virtual machines per server |
384 running virtual machines |
None. |
Virtual processors per server |
512 |
None. |
Memory |
1 TB |
None. |
Storage |
Limited by what is supported by the management operating system. No limits imposed by Hyper-V. |
For more information about the storage options for Hyper-V, see Planning for Disks and Storage. For general information about storage for Windows Server, see Reviewing Storage Limits (https://go.microsoft.com/fwlink/?LinkID=161361). |
Physical network adapters |
No limits imposed by Hyper-V. |
None. |
Virtual networks (switches) |
Varies; no limits imposed by Hyper-V. |
The practical limit depends on the available computing resources. |
Virtual network switch ports per server |
Varies; no limits imposed by Hyper-V. |
The practical limit depends on the available computing resources. |
Failover Clusters and Hyper-V
The following table lists the maximums that apply to highly available servers running Hyper-V. It is important to do capacity planning to ensure that there will be enough hardware resources to run all the virtual machines in a clustered environment. For more information about requirements for failover clusters and Hyper-V, see Hyper-V: Using Hyper-V and Failover Clustering (https://go.microsoft.com/fwlink/?LinkID=129063).
Component | Maximum | Notes |
---|---|---|
Nodes per cluster |
16 |
Consider the number of nodes you want to reserve for failover, as well as maintenance tasks such as applying updates. We recommend that you plan for enough resources to allow for 1 node to be reserved for failover, which means it remains idle until another node is failed over to it. (This is sometimes referred to as a passive node.) You can increase this number if you want to reserve additional nodes. There is no recommended ratio or multiplier of reserved nodes to active nodes; the only specific requirement is that the total number of nodes in a cluster cannot exceed the maximum of 16. |
Running virtual machines per cluster and per node |
1,000 per cluster, with a maximum of 384 on any one node |
Several factors can affect the real number of virtual machines that can be run at the same time on one node, such as:
|