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Monday, May 09, 2011

Hyper-V 'n' its Key Feature.

Microsoft Windows Server 2008 R2 Hyper-V builds on the architecture and functions of Windows Server 2008 Hyper-V by adding multiple new features that enhance product flexibility. The adoption of virtualization in the enterprise has increased flexibility in deployment and life cycle management of applications. IT professionals deploy and use virtualization to consolidate workloads and reduce server sprawl. Additionally, they deploy virtualization with clustering technologies to provide a robust IT infrastructure with high availability and quick disaster recovery. Even so, customers are looking for more flexibility.

Live Migration

 Windows Server 2008 R2 Hyper-V provides greater flexibility with live migration. Live migration is integrated with Windows Server 2008 R2 Hyper-V and Microsoft Hyper-V Server 2008 R2. With Hyper-V live migration, you can move running virtual machines (VMs) from one Hyper-V physical host to another, without any disruption or perceived loss of service. IT professionals increasingly look to live migration to create a dynamic and flexible IT environment that responds to emerging business needs. Live migration provides the core technology required for dynamic load balancing, VM placement, high availability for virtualized workloads during physical computer maintenance, and reduced data center power consumption.

Dynamic Memory

New in Windows Server 2008 R2 with SP1, Dynamic Memory enables customers to better utilize the memory resources of Hyper-V hosts by balancing how memory is distributed between running virtual machines. Memory can be dynamically reallocated between different virtual machines in response to the changing workloads of these machines. Dynamic Memory thus enables more efficient use of memory while maintaining consistent workload performance and scalability. Implementing Dynamic Memory means that higher levels of server consolidation can be achieved with minimal impact on performance. Dynamic Memory also means larger numbers of virtual desktops per Hyper-V host for VDI scenarios. The net result for both scenarios is more efficient use of expensive server hardware resources, which can translate into easier management and lower costs. Historically, different methods have been used to deploy operating systems and applications to physical and virtual computers. For virtual computers, the .vhd file format has become a de facto standard for deploying and interchanging preconfigured operating systems and applications. Hyper-V in Windows Server 2008 R2 supports two important updates concerning .vhd files.

Core Scenarios for Hyper-V
Hyper-V provides a dynamic, reliable, and scalable virtualization platform combined with a single set of integrated management tools to manage both physical and virtual resources, enabling you to create an agile and dynamic data center. Hyper-V enables:


Server Consolidation


Businesses are under pressure to ease management and reduce costs while retaining and enhancing competitive advantages, such as flexibility, reliability, scalability, and security. The fundamental use of virtualization to help consolidate many servers on a single system while maintaining isolation helps address these demands. One of the main benefits of server consolidation is a lower total cost of ownership (TCO), not just from lowering hardware requirements but also from lower power, cooling, and management costs.
Businesses also benefit from server virtualization through infrastructure optimization, both from an asset utilization standpoint as well as the ability to balance workloads across different resources. Improved flexibility of the overall environment and the ability to freely integrate 32-bit and 64-bit workloads in the same environment is another benefit.


Business Continuity and Disaster Recovery


Business continuity is the ability to minimize both scheduled and unscheduled downtime. That includes time lost to routine functions, such as maintenance and backup, as well as unanticipated outages. Hyper-V includes powerful business continuity features, such as live backup and quick migration, enabling businesses to meet stringent uptime and response metrics.
Disaster recovery is a key component of business continuity. Natural disasters, malicious attacks, and even simple configuration problems like software conflicts can cripple services and applications until administrators resolve the problems and restore any backed up data. Leveraging the clustering capabilities of Windows Server 2008, Hyper-V now provides support for disaster recovery (DR) within IT environments and across data centers, using geographically dispersed clustering capabilities. Rapid and reliable disaster and business recovery helps ensure minimal data loss and powerful remote management capabilities.


Testing and Development


Testing and development are frequently the first business functions to take advantage of virtualization technology. Using virtual machines, development staffs can create and test a wide variety of scenarios in a safe, self-contained environment that accurately approximates the operation of physical servers and clients. Hyper-V maximizes utilization of test hardware which can help reduce costs, improve life cycle management, and improve test coverage. With extensive guest OS support and checkpoint features, Hyper-V provides a great platform for your test and development environments.


Dynamic Data Center


Hyper-V, together with your existing system management solutions, such as Microsoft System Center, can help you realize the dynamic data center vision of providing self-managing dynamic systems and operational agility. With features like automated virtual machine reconfiguration, flexible resource control, and quick migration, you can create a dynamic IT environment that uses virtualization to not only respond to problems, but also to anticipate increased demands.

Expand Desktop Deployment Options with VDI

Much of the interest in virtualization solutions is in the server world. However, equally exciting advances are being made in server-based desktop virtualization, where processing happens on a server optimized for capacity and availability while graphics, keyboard, mouse, and other user I/O functions are handled at the user’s desktop.
Windows Server 2008 R2 Remote Desktop Services extends the functionality of Session Virtualization from delivering session-based desktops and applications to also enabling the delivery of virtual desktops in a virtual desktop infrastructure (VDI). With Remote Desktop Services, both virtual and session-based desktops and applications are now available on the Windows 7 Start menu right alongside programs that are installed locally.
VDI with Windows Server 2008 R2 with SP1 benefits from a rich end user experience with support for rich media and USB devices with Microsoft RemoteFX as well as a great better together story with Windows 7 as the guest OS due to increased VM density with Dynamic Memory and near-invisible integration of virtualized desktops in Windows 7.

Key Features of Hyper-V

Windows Server 2008 R2 Hyper-V adds new features to the first version of Hyper-V. For example, by using live migration in Windows Server 2008 R2 Hyper-V, you can migrate running VMs from one physical computer to another, and add or remove storage from a VM while it is running. In addition, Windows Server 2008 R2 Hyper-V takes better advantage of physical computer hardware with greater processor support and deeper support for physical computer hardware.


Live Migration


Hyper-V in Windows Server 2008 R2 includes the much-anticipated live migration feature, which allows you to move a virtual machine between two virtualization host servers without any interruption of service. Hyper-V live migration is integrated with Windows Server 2008 R2 Hyper-V and Microsoft Hyper-V Server 2008 R2. With it you can move running VMs from one Hyper-V physical host to another without any disruption of service or perceived downtime. Moving running VMs without downtime using Hyper-V live migration:
  • Provides better agility. Data centers with multiple Hyper-V physical hosts can move running VMs to the best physical computer for performance, scaling, or optimal consolidation without affecting users.
  • Reduces costs and increases productivity. Data centers with multiple Hyper-V physical hosts can service those systems in a controlled fashion, scheduling maintenance during regular business hours. Live migration makes it possible to keep VMs online, even during maintenance, increasing productivity for users and server administrators. Data centers can now also reduce power consumption by dynamically increasing consolidation ratios and powering off un-used physical hosts during lower demand times.

Increased Hardware Support for Hyper-V Virtual Machines


Hyper-V in Windows Server 2008 R2 now supports up to 64 logical processors in the host processor pool. This is a significant upgrade from previous versions and allows not only greater VM density per host, but also gives IT administrators more flexibility in assigning CPU resources to VMs. Also new, Hyper-V processor compatibility mode for live migration allows lmigration across different CPU versions within the same processor family (for example, ”Intel Core 2-to-Intel Pentium 4” or “AMD Opteron-to-AMD Athlon”), enabling migration across a broader range of server host hardware.


Cluster Shared Volumes


With Windows Server 2008 R2, Hyper-V uses Cluster Shared Volumes (CSV) storage to simplify and enhance shared storage usage. CSV enables multiple Windows Servers to access SAN storage using a single consistent namespace for all volumes on all hosts. Multiple hosts can access the same Logical Unit Number (LUN) on SAN storage. CSV enables faster live migration and easier storage management for Hyper-V when used in a cluster configuration. Cluster Shared Volumes are available as part of the Windows Failover Clustering feature of Windows Server 2008 R2.


Improved Cluster Node Connectivity Fault Tolerance


Because of the architecture of CSV, there is improved cluster node connectivity fault tolerance that directly affects VMs running on the cluster. The CSV architecture implements a mechanism, known as dynamic I/O redirection, where I/O can be rerouted within the failover cluster based on connection availability.


Enhanced Cluster Validation Tool


Windows Server 2008 R2 includes a Best Practices Analyzer (BPA) for all major server roles, including Failover Clustering. This analyzer examines the best practices configuration settings for a cluster and cluster nodes.


Improved Management of Virtual Data Centers


Even with all the efficiency gained from virtualization, VMs still need to be managed. The number of VMs tends to proliferate much faster than physical computers because machines typically do not require a hardware acquisition. Therefore, management of virtual data centers is even more imperative than ever before.


Improved Virtual Networking Performance


The new Hyper-V leverages several new networking technologies contained in Windows Server 2008 R2 to improve overall VM networking performance.


Increased Performance and Reduce Power Consumption


Hyper-V in Windows Server 2008 R2 adds enhancements that reduce virtual machine power consumption. Hyper-V now supports Second Level Address Translation (SLAT), which uses new features on today’s CPUs to improve VM performance while reducing processing load on the Windows Hypervisor. New Hyper-V VMs also consume less power by virtue of the new Core Parking feature implemented in Windows Server 2008 R2.


Enhanced Networking Support


In Windows Server 2008 R2 there are three new networking features that improve the performance of virtual networks. Support for Jumbo frames, previously available in non-virtual environments, has been extended to work with VMs. This feature enables VMs to use Jumbo Frames up to 9014 bytes if the underlying physical network supports it. Supporting Jumbo frames reduces the network stack overhead incurred per byte and increases throughput. In addition, there is a significant reduction of CPU utilization due to the fewer number of calls from the network stack to the network driver.
TCP Chimney, which allows the offloading of TCP/IP processing to the network hardware, has been extended to the virtual environment. It improves VM performance by allowing the VM to offload network processing to hardware, especially on networks with bandwidth over 1 GB. This feature is especially beneficial for roles involving large amounts of data transfer, such as the file server role.
The Virtual Machine Queue (VMQ) feature allows physical computer network interface cards (NICs) to use direct memory access (DMA) to place the contents of packets directly into VM memory, increasing I/O performance.


Dynamic VM storage


Windows Server 2008 R2 Hyper-V supports hot plug-in and hot removal of storage. By supporting the addition or removal of Virtual Hard Drive (VHD) files and pass-through disks while a VM is running, Windows Server 2008 R2 Hyper-V makes it possible to reconfigure VMs quickly to meet changing workload requirements. This feature allows the addition and removal of both VHD files and pass-through disks to existing SCSI controllers for VMs.


Broad OS Support


Broad support for simultaneously running different types of operating systems, including 32-bit and 64-bit systems across different server platforms, such as Windows, Linux, and others.


Network Load Balancing


Hyper-V includes new virtual switch capabilities. This means virtual machines can be easily configured to run with Windows Network Load Balancing (NLB) Service to balance load across virtual machines on different servers.


New Hardware Sharing Architecture

With the new virtual service provider/virtual service client (VSP/VSC) architecture, Hyper-V provides improved access and utilization of core resources, such as disk, networking, and video.


Virtual Machine Snapshot

Hyper-V provides the ability to take snapshots of a running virtual machine so you can easily revert to a previous state, and improve the overall backup and recoverability solution. 


Extensible

Standards-based Windows Management Instrumentation (WMI) interfaces and APIs in Hyper-V enable independent software vendors and developers to quickly build custom tools, utilities, and enhancements for the virtualization platform.




Hyper-V provides a reliable virtualization platform that enables customers to virtualize their infrastructure and reduce costs. It has thin microkernelized hypervisor architecture with minimal attack surface and is available as a Server Core role. With System Center integrated management tools, customers can use a single set of tools to manage both their physical and virtual resources. It easily plugs into customers’ IT infrastructure, as they can leverage their existing patching, provisioning, management and support tools, and processes. It provides great value, as it is available as a feature of Windows Server 2008 R2, and customers can leverage the breadth of solutions from Microsoft partners, existing IT Pro skill sets, and comprehensive support from Microsoft.


Hyper-V Architecture

 

Key Features of Hyper-V


Hyper-V as a part of Windows Server 2008 R2 (Standard, Enterprise, and Datacenter) adds new features to the first version of Hyper-V. For example, by using live migration in Windows Server 2008 R2 Hyper-V, you can migrate running virtual machines (VMs) from one physical computer to another and add or remove storage from a VM while it is running. In addition, Windows Server 2008 R2 Hyper-V takes better advantage of physical computer hardware with greater processor support and deeper support for physical computer hardware.
Hyper-V in Windows Server 2008 R2 includes five core areas of improvement for creating dynamic virtual data centers:
  • Increased availability for virtualized data centers
  • Improved management of virtualized data centers
  • Increased performance and hardware support for Hyper-V virtual machines
  • Improved virtual networking performance
  • Simplified method for physical and virtual computer deployments by using .vhd files

Increased Availability for Virtual Data Centers

One of the most important aspects of any data center is providing the highest possible availability for systems and applications. Virtual data centers are no exception to the need for consolidation, high availability, and, most of all, sophisticated management tools.
Hyper-V in Windows Server 2008 R2 includes the live migration feature, which allows you to move a virtual machine between two virtualization host servers without any interruption of service. The users connected to the virtual machine being moved might notice only a slight slowing in performance for a few moments. Otherwise, they will be unaware that the virtual machine was moved from one physical computer to another.



  • Cluster Shared Volumes (CSV)
    With Windows Server 2008 R2, Hyper-V uses Cluster Shared Volumes (CSV) storage to simplify and enhance shared storage usage. CSV enables multiple Windows Servers to access SAN storage using a single consistent namespace for all volumes on all hosts. Multiple hosts can access the same Logical Unit Number (LUN) on SAN storage. CSV enables faster live migration and easier storage management for Hyper-V when used in a cluster configuration. Cluster Shared Volumes are available as part of the Windows Failover Clustering feature of Windows Server 2008 R2.
  • Improved Cluster Node Connectivity Fault Tolerance
    Because of the architecture of CSV, there is improved cluster node connectivity fault tolerance that directly affects VMs running on the cluster. The CSV architecture implements a mechanism, known as dynamic I/O redirection, where I/O can be rerouted within the failover cluster based on connection availability.
  • Enhanced Cluster Validation Tool
    Windows Server 2008 R2 includes a Best Practices Analyzer (BPA) for all major server roles, including Failover Clustering. This analyzer examines the best practices configuration settings for a cluster and cluster nodes.
  • Dynamic VM storage
    Windows Server 2008 R2 Hyper-V supports hot plug-in and hot removal of storage. By supporting the addition or removal of Virtual Hard Drive (VHD) files and pass-through disks while a VM is running, Windows Server 2008 R2 Hyper-V makes it possible to reconfigure VMs quickly to meet changing workload requirements. This feature allows the addition and removal of both VHD files and pass-through disks to existing SCSI controllers for VMs. 

Improved Management of Virtual Data Centers

Even with all the efficiency gained from virtualization, virtual machines still need to be managed. The number of virtual machines tends to proliferate much faster than physical computers because machines typically do not require a hardware acquisition. Therefore, management of virtual data centers is even more imperative than ever before.



Windows Server 2008 R2 includes the following improvements that will help you manage your virtual data center:
  • Reduced effort for performing day-to-day Hyper-V administrative tasks by using the Hyper-V Management Console.
  • Enhanced command-line interface and automated management of Hyper-V administrative tasks by using PowerShell cmdlets.
  • Improved management of multiple Hyper-V servers in a virtual data center environment by using System Center Virtual Machine Manager 2008.

Increased Performance and Hardware Support for Hyper-V Virtual Machines

  • Hyper-V in Windows Server 2008 R2 now supports up to 64 logical processors in the host processor pool. This is a significant upgrade from previous versions and allows not only greater VM density per host, but also gives IT administrators more flexibility in assigning CPU resources to VMs.
  • Also new, Hyper-V processor compatibility mode for live migration allows lmigration across different CPU versions within the same processor family, (for example, ”Intel Core 2-to-Intel Pentium 4” or “AMD Opteron-to-AMD Athlon”) enabling migration across a broader range of server host hardware.
  • The new Hyper-V also adds performance enhancements that increase virtual machine performance and power consumption. Hyper-V now supports Second Level Address Translation (SLAT), which uses new features on today’s CPUs to improve VM performance while reducing processing load on the Windows Hypervisor and new Hyper-V VMs will also consume less power by virtue of the new Core Parking feature implemented into Windows Server 2008 R2.

Improved Virtual Networking Performance

The new Hyper-V leverages several new networking technologies contained in Windows Server 2008 R2 to improve overall VM networking performance. Two key examples are the new VM Chimney (also called TCP Offload) and the use of Jumbo Frames.



VM Chimney allows a VM to dump its network processing load onto the network interface card (NIC) of the host computer. This works the same as in a physical TCP Offload scenario, Hyper-V now simply extends this functionality into the virtual world. This benefits both CPU and overall network throughput performance, and it’s fully supported by Live Migration.
VM Chimney is disabled by default in Windows Server 2008 R2, primarily for short-term hardware compatibility reasons. But combined with compatible hardware, currently including vendors like Intel, VM Chimney significantly reduces the host server’s CPU burden when dealing with VM network traffic. This translates into better host system performance and a simultaneous boost to VM network throughput.
Like TCP Offloading, support for Jumbo Frames was also introduced with Windows Server 2008. Hyper-V in Windows Server 2008 R2 simply extends this capability to VMs. So just like in physical network scenarios, Jumbo Frames add the same basic performance enhancements to virtual networking. That includes up to six times larger payloads per packet, which improves not only overall throughput but also reduces CPU utilization for large file transfers.

Simplified Method for Physical and Virtual Computer Deployments

Historically, different methods have been used to deploy operating systems and applications to physical and virtual computers. For virtual computers, the .vhd file format has become a de facto standard for deploying and interchanging preconfigured operating systems and applications. Hyper-V in Windows Server 2008 R2 supports two important updates concerning .vhd files.
First, administrators can now add and remove vhd files, and pass-through disks attached to a virtual SCSI controller on a running VM, without requiring a reboot. This offers more flexibility when it comes to handling storage growth needs without requiring additional downtime. It also provides more flexibility in data center backup scenarios and new scenarios in complex Microsoft Exchange and Microsoft SQL Server deployments.
Windows Server 2008 R2 also supports the ability to boot a computer from a .vhd file stored on a local hard disk. This allows you to use preconfigured .vhd files for deploying virtual and physical computers. This helps reduce the number of images you need to manage and provides an easier method for test deployment prior to deployment in your production environment.


Key Features of Hyper-V in Windows Server 2008 R2 and Windows Server 2008

Hyper-V as a part of Windows Server 2008 R2 (Standard, Enterprise, and Datacenter) and of x64 editions of Windows Server 2008 (Standard, Enterprise, and Datacenter) includes the following capabilities:


High availability


Hyper-V includes support for host-to-host connectivity and enables you to cluster all virtual machines running on a host.


Server Core role


Hyper-V is available as a role in a Server Core installation of Windows Server 2008 and Windows Server 2008 R2.


Integrated into Server Manager


Hyper-V is integrated into Server Manager by default and customers can now enable the role within Server Manager.


Live Backups with VSS


Hyper-V includes support for Volume Shadow Copy Services (VSS) to enable you to take Live Backups of running virtual machines in terms of snapshots.


VHD tools


Hyper-V also includes support for VHD tools to enable compaction, expansion, and inspection of VHDs created with Hyper-V.


Linux integration components


The Linux Integration Components for Hyper-V improve the performance of Linux Guests by providing driver support for synthetic devices and fastpath boot support for Hyper-V. The Linux Integration Components support SUSE Linux Enterprise Server 10 Service Pack 2 and above, as well as Red Hat Enterprise Linux 5.2 and above.

Download Linux Integration Components for Windows Server 2008 Hyper-V R2.


VM manageability


Enables customers to easily import or export virtual machine settings to take backups of configurations and to be able to clone the virtual machine characteristics across different hosts.


Improved performance


Hyper-V includes several fixes to improve performance. All new Windows Server 2008 and Windows Server 2008 R2 virtual machines will now automatically include the integration components.


Improved access control with AzMan


Hyper-V includes support for Authorization Manager (AzMan) to enable Role-Based Access Control models for better administration of the Hyper-V environment with increased security.


Remote management


Hyper-V supports remote management and also provides a Hyper-V MMC only installation option for a separate management node.


Increased virtual SCSI support


Hyper-V now includes support for up to four virtual SCSI controllers per virtual machine enabling broader disk support.


Increased memory support


Hyper-V supports up to 64 GB of memory per virtual machine.


Quick Reset


Hyper-V provides administrators the option to quickly Reset Checkboxes and Delete saved credentials that are used to connect to virtual machines.

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