50273a planning and designing microsoft virtualization solutions
But without the proper planning your virtualization project could be destined to fail. There are many virtualization hypervisors in the marketplace today, from the big players such as VMware and Microsoft, to the open source Linux built systems.
All these platforms were created to allow the end user to create and run virtual machines within the user's environment. The first step in any virtualization architectural project is to understand what the cost of downtime would mean to the business.
The higher the cost of downtime, the more robust the design should be. These tools will capture information such as server host names, operating systems, the number and type of CPUs, and storage devices deployed, as well as provide CPU, memory, and network load metrics.
Equally as important as this technical information, you need to determine what is the vision, or end goal, from the perspective of the company's leadership team. You need to discuss costs, interview users, and pinpoint the project requirements. Throughout this course, you will learn how to manage, monitor, support, and troubleshoot various Windows-based desktop virtualization solutions. This course is intended for the IT administrators, and implementers, of large and midsized organizations who want to understand and get hands on experience with the latest Microsoft desktop and application virtualization technologies and how to plan, implement, and manage virtual infrastructure solutions based on these technologies.
Preparation for exam: exam. Before attending this course, students must have a system administrator—level working knowledge of:. This module explains virtualization technologies that they can use to meet the needs of your organization. Which technologies are relevant to their organization will vary with their needs. To use these virtualization technologies properly in the student's organization, they will need to understand which technologies are available and when to use them.
This module explains user state virtualization, and which technologies are part of it and what are benefits of user state virtualization. They will also be able to plan and implement user state virtualization technologies. This module explains application virtualization and describes App-V components.
This module also describes App-V infrastructure, deployment scenarios, and procedures for installing and configuring Microsoft Server Application Virtualization agents App-V agents.
The module also covers the steps you must take to perform these administrative tasks and how to manage packages and connection groups.
This module explains the recommendations for deploying and managing the App-V Client. This module explains how to install and configure the App-V Sequencer to create application packages.
This module explains Client Hyper-V in Windows 8. You should be aware that all the features that are covered in this module are also available in Hyper-V on Windows Server R2.
They will also learn to perform session-based desktop deployment. This module explains how to monitor the performance of virtual desktop infrastructure to ensure performance. Skip to main content. This browser is no longer supported. Web Applications Software Development. Course Categories Certification Exams. Reviews Request more info. Code: Category: Cloud Virtualization Devices Azure.
Course duration: 5 days. Audience Profile This course is intended for Infrastructure Architects and Virtualization Specialists who are responsible for designing, deploying, and managing one or more data center or desktop virtualization environments. Envision a virtualization infrastructure strategy based on a set of basic business and technical requirements. Lessons Planning an Application Virtualization 4. Attend Online. With less physical servers to manage, IT Administrator are increasing their efficiency which is driving down the Operational Costs.
Because a virtual environment provides a common interface, they can easily provision services quickly to their Business Units. This increased efficiency enables Business Agility. Now they can truly provide the resources their Application Owners need, when they need them.
They can provide all of this through Microsoft Virtualization. Why are more and more customers everyday choosing Microsoft Virtualization? We provide a Familiar platform for Virtualization. We believe that Virtualization should be a skill, not a specialty. This means that more and more customers will be able to use Virtualization more easily which will allow them to gain the benefits we talked about earlier.
We also provide a breadth of Virtualization Solutions that range from the Desktop to the Datacenter. This means that whatever problem an Organization is trying to solve, we have the solutions that will get them there.
Not only that, we provide the Management capabilities that increases IT efficiency. When you can use the same set of tools to manage your physical, virtual and application environments, you can decrease the cost to the organization. This provides the lowest Total Cost of Ownership for the Organization, with a lower up front price as well as lower maintenance costs. When you put that together, you can see why Microsoft now provides a compelling foundation for getting to the Dynamic Datacenter.
So what is this Dynamic Datacenter? It is the ability for an IT Organization to provide to the Applications the resources they need, when they need them.
To do this, the Datacenter becomes a fluid pool of resources that can dynamically flow between applications as the needs of the business change. What makes up this fluid pool of resources?
It involves a solid foundation with good management capabilities. Microsoft provides this foundation with Hyper-V. This increases the amount of Server Consolidation as well as enabling the platform for the Dynamic Datacenter.
But what is Hyper-V and how does it work? If you take a traditional Operating System, you have your Operating System sitting directly on top of the Physical hardware. You can run your applications on top of this operating system.
When the Hyper-V role is enabled, we place the Windows Hypervisor between the hardware the Operating System enabling the system to be able to run virtual machines.
Now that the system is prepared for Virtualization, we can run different classes of Operating Systems as Guests in the Child Partitions. These guest operating systems have Integration Components installed which give them faster and more efficient access to drivers and resources. For them, we need to emulate access to devices which is not as efficient. Windows Server , and some Linux guests fall into this category. The last class of Guests are Linux guests that also have the Integrated Compenents built for them.
They gain the performance advantages that the first class does. To start, we have added Live Migration which allows me to move a running Virtual Machine from one host to another without loss of service. Live MigrationQuick Migration was a good feature to make virtual guests highly available through Windows Server Fail-over clustering. Good enough for a version 1. The way Quick Migration works however makes it unsuitable for certain implementations and presents a couple of challenges in updating your environment.
Live Migration is the successor to Quick Migration. Of course the Operating System OS in the virtual guest will need to support this.
Windows Server supports hot plugging of drives since Windows Server Remember you need to place one virtual guest per LUN on your shared storage? Cluster Shared Volume offers simultaneous access to files on LUNs on your shared storage devices through a filter driver. GeertBaeke has more information on this feature and how it works under the hood. Second Level Address TranslationIntel and AMD processors and motherboards that support them offer new technologies that allow better virtual management.
Your benefit as a virtual admin? Core parkingWhile new processors can certainly be useful when you want to improve your performance, they can also be used to reduce your power consumption. Simply speaking a multi core processor will balance virtual guests over its processing cores. When the processor is intelligent enough it can decide to balance the virtual guests over fewer cores when fewer processing power is needed. Intel and AMD make these kinds of processors. When Hyper-V R2 is implemented on a system with such a processor it understands what the processor is trying to do and not freak out.
When the NIC supports these features, Hyper-V will benefit from them, improving your network performance vastly. This allows virtual machines to be moved between failover cluster nodes without interruption of services provided by the virtual machines.
The users connected to the virtual machine being moved will notice only a slight drop in performance for a few moments. Otherwise, they will be unaware that the virtual machine was moved from one physical computer to another. In a typical live migration a user is connected to a VM on cluster node 1. It then takes an initial memory snapshot and moves that to node 2.
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