Hyper-V is a virtualization platform that lets
you virtualize operating systems and hardware components, such as hard drives and network switches. Hyper-V can be used to enable virtualization on end-user devices, and also for server virtualization. There are three versions of Hyper-V: Hyper-V for Windows 10 is provided for free with most versions of Windows 10. It is also easy to use, letting you quickly spin up virtualized operating systems on any Windows 10 machine. Hyper-V for Windows Server comes at additional cost, and allows you to leverage Windows Server capabilities like failover clustering. This is part of our series of articles on
Windows virtual desktop infrastructure [VDI]. Related content: read our guide to virtualization for windows 10 Hyper-V is a hypervisor that lets you run several, isolated guest operating systems
on a hardware platform. Hyper-V is a Type 1 hypervisor which is installed on bare-metal servers, or on the Windows 10 operating system, but then boots up before the operating system does and runs it as a guest OS. In both cases, Hyper-V interacts directly with the CPU, without going through the host operating system.VDI Windows
What is Hyper-V on Windows 10?
Microsoft Hyper-V Architecture
Hyper-V creates isolated partitions in which operating systems can operate. There are two types of partitions:
- A root partition that runs Windows and the hypervisor
- Child partitions that can run additional guest operating systems, which do not have direct hardware access. Hyper-V provides the hypercall API, which is used to create child partitions.
Here is how Hyper-V partitions get access to resources on the host machine:
- CPU access—each partition has partial access to the CPU. The hypervisor handles interrupts to the processor, rerouting them to the relevant partition. Hyper-V uses the concept of virtual CPUs [vCPUs], which represent the maximum number of threads each VM can run at a given time.
- Memory access—each partition runs in its own, private virtual memory address space. Hyper-V provides an Input Output Memory Management Unit [IOMMU] that is used to map physical memory to the addresses used by partitions. Since Windows Server 2012, Hyper-V supports Dynamic Memory, which makes it possible to allocate more memory to VMs during startup, then reclaim the memory for use by other VMs.
- Devices—Child partitions do not have direct access to hardware, and view all devices on the machine as virtual devices [VDev]. A VMBus routes requests to devices to child partitions.
All routing processes that distribute hardware resources between partitions are completely transparent to guest operating systems.
Source: Microsoft
Hyper-V Virtualization Features and Hyper-V Editions
The following features are provided in all editions of Hyper-V:
Default switch—Microsoft provides default virtual switches so you can easily provide connectivity to a VM without having to manually create virtual switches.
- Virtual fiber channel—lets VMs directly connect to a physical host bus adapter, for better performance.
- Discrete Device Assignments—allows VMs to directly access a physical PCIe device. This feature can be made available to Windows 10 guest operating systems running on a Windows Server host.
Only available in Windows 10:
- Quick create—allows Windows 10 users to select an operating system image from the “Quick Create” library and rapidly spin up a virtual machine.
Only available in Windows Server:
- SR-IOV networking—Hyper-V provides a single root I/O virtualization [SR-IOV] interface, which lets you access physical network adapters as a virtual function [VF] directly within a virtual machine.
- Hyper-V Replica—lets you perform synchronous replication of individual VMs and virtual hard disks with other Hyper-V hosts.
- Shared VHDX—makes it easier to create guest operating system clusters, by providing a shared operating system image.
Hyper-V on Windows 10 Q&A
Is Hyper-V Free with Windows 10?
Yes, Hyper-V is free on 64-bit versions of Windows 10 Pro, Enterprise and Education. However it is not available in the home version of Windows 10.
When running virtualized operating systems, Hyper-V supports multiple versions of Windows, Linux, FreeBSD, and more. If you run a commercial operating system, you must provide a valid license.
How Do I Enable Hyper-V in Windows 10?
You can enable Hyper-V in Windows 10 using the Windows 10 Control Panel, PowerShell commands, or the Deployment Imaging Servicing and Management Tool [DISM].
Enable a Hyper-V role in the Windows 10 Control Panel:
- Right-click on the Windows button and select Applications and Features.
- Click Programs and Features.
- Click Turn Windows Features On or Off, ensure Hyper-V is set to on, and click OK.
This will trigger an installation of Hyper-V. When it is complete, you will be asked to restart the machine.
Windows Virtualization with Hysolate
Hysolate leverages the latest Microsoft Hyper-V virtualization technology to build Workspace, then combines this virtualization based isolation technology with our patented IP and domain expertise for making virtualization practical to users, IT, and security teams.
Hysolate doesn’t just isolate Windows applications, it isolates your entire OS, so you can separate any risky application, website, document or peripheral like USBs or printer applications from your sensitive corporate data. Hysolate sits on user endpoints and looks like a regular Windows desktop, but is fully managed from the cloud via the Hysolate Management Console. This means administrators can set granular policies, and deploy, scale and wipe devices in minutes.
Want to try out Hysolate for yourself? Click here to get started with Hysolate Free.