Tip: 6 Best Practices for Physical Servers Hosting Hyper-V Roles
Before setting up a physical server to host the Hyper-V role, download, read, and understand information included in the white paper “Performance Tuning Guidelines for Windows Server 2008”. Three sections in this white paper that can have a significant impact on the performance of the physical server discuss tuning the server hardware and setting up the networking and storage subsystems. These are especially critical for Hyper-V because the hypervisor itself sits on top of the hardware layer as described earlier and controls all hardware in Windows Server 2008. The operating system itself essentially runs in a virtual machine, better known as the Parent Partition.
Here are six best practices for physical servers hosting the Hyper-V role.
Avoid Overloading the Server
Determining the number of virtual machines that will be hosted on the Hyper-V server and the workloads they will be handling is critical. The version of the operating system that will be installed on the physical server can help in this regard, so the first “best practice” is to consider using Windows Server 2008 Datacenter x64 with Hyper-V. The Datacenter x64 edition supports up to 64 processors, 2 terabytes of physical memory, and 16 failover cluster nodes for Quick Migration scenarios and allows unlimited virtual machines to be run in Hyper-V. Selecting a Server Core installation provides added benefits, including enhanced security and lower maintenance.
Ensure High-Speed Access to Storage
For storage, consider using a storage area network (SAN) that is configured with highspeed (10,000 rpms or greater) drives (SATA or SAS) that support queued I/O and Raid 0 +1 configurations. You can use either Fibre Channel or iSCSI SAN hardware.
Install Multiple Network Interface Cards
For networking, be sure to have more than one network card installed on the physical server and dedicate one network interface to Hyper-V server administration. This means no virtual networks in Hyper-V will be configured to use this NIC. For high-workload virtual machines, you might want to dedicate a physical network adapter on the server to the virtual network the virtual machine is using. Ensure virtual machines that share a physical adapter do not oversubscribe to the physical network. Use the Reliability And Performance Monitor to establish a performance baseline for the load and then adjust NIC configurations and loads accordingly.
Configure Antivirus Software to Bypass Hyper-V Processes and Directories
If you are running antivirus software on the physical server, you might want to consider excluding the Vmms.exe and Vmswp.exe processes. Also, exclude the directories that contain the virtual machine configuration files and virtual hard disks from active scanning. An added benefit of using pass-through disks in your virtual machines is that you can use the antivirus software running on the physical server to protect that virtual machine.
Avoid Storing System Files on Drives Used for Hyper-V Storage
Do not store any system files (Pagefile.sys) on drives dedicated to storing virtual machine data.
Monitor Performance to Optimize and Manage Server Loading
When running multiple high-workload virtual machines on a Hyper-V server, ensure a proper aggregate performance baseline is obtained over a specified period of time (say, five days during normal working hours) to ensure the hardware configuration for the physical server is optimal to support the load being placed on it by the virtual machines. If adding more memory, processors, or higher performing storage is not possible, you might need to migrate the virtual machines to other Hyper-V servers.
From the Microsoft Press ebook Understanding Microsoft Virtualization Solutions: From the Desktop to the Datacenter by Mitch Tulloch.
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