Windows 10 Installation Media Drivereverdownloads

To create installation media, go to the software download website, where you'll find step-by-step instructions. On that website, you can select a version of Windows and create your own installation media using either a USB flash drive or a DVD. That makes sense. The latest versions of Windows 10 install media allow installation of Windows 10 using a product key from a qualifying OS, and the upgrade has always been 'like to like', so a Win 8.1 home product key would install Win 10 home. I must admit that I had not realised how that would affect a UEFI install. Download Media Creation Tool. The media creation tool can be used to upgrade your current PC to Windows 10 or to create a USB or DVD and install Windows 10 on a different PC.

Ready to install Windows 10 on a PC using UEFI? Use these steps to create a compatible USB bootable media to perform this task.

When it comes the time to install a clean copy of Windows 10, you typically use a USB bootable media to start the computer and proceed with the 'Windows Setup' wizard. However, if you have a device that has a Unified Extensible Firmware Interface (UEFI), instead of the legacy Basic Input/Output System (BIOS), it's important to use the correct media that includes support for the motherboard firmware type.

You can use several methods to create a media to install Windows 10 from USB if you have a newer firmware type. For instance, you can use the Media Creation Tool to download the installation files onto a removable drive with support for both UEFI and legacy BIOS. Or, you can use third-party tools like Rufus that makes it easy to create an installation media with support for UEFI.

In this Windows 10 guide, we'll walk you through the steps to create a USB flash drive that includes UEFI support using the Microsoft Media Creation Tool and Rufus.

How to create a Windows 10 UEFI boot media using Media Creation Tool
How to create a Windows 10 UEFI boot media using Rufus tool

How to create a Windows 10 UEFI boot media using Media Creation Tool

If you have a machine using UEFI, you can use the Media Creation Tool to create a bootable USB media to perform a clean installation or in-place upgrade of the Microsoft OS.

To create a bootable media, connect a USB flash drive of at least 8GB of space, and use these steps:

Open Windows 10 download page.
Under the 'Create Windows 10 installation media' section, click the Download tool now button to save the file.
© Provided by Windows Central
Double-click the MediaCreationToolxxxx.exe file to open the tool.
Click the Accept button to agree to the Microsoft terms.
Select the Create installation media (USB flash drive, DVD, or ISO file) for another PC option.
© Provided by Windows Central
Click the Next button.
(Optional) Clear the Use the recommended options for this PC option.
Select the correct language, architecture, and edition of Windows 10.
© Provided by Windows Central
Quick tip: If you'll be installing Windows 10 on multiple computers running 32-bit and 64-bit architectures, then use the 'Architecture' drop-down menu and select the Both option.
Click the Next button.
Select the USB flash drive option.
© Provided by Windows Central
Click the Next button
Select the removable drive from the list. (If you don't see the drive, click the Refresh drive list option.)
© Provided by Windows Central
Click the Next button.
Click the Finish button.

Once you complete the steps, the tool will download the required files and create a bootable USB flash drive with the Windows 10 installation files with support for UEFI and BIOS.

How to create a Windows 10 UEFI boot media using Rufus tool

Alternatively, you can also use Rufus to create an installation media with UEFI support using an existing ISO file. Or you can also use the tool to download the Windows 10 files from the Microsoft servers and then create the bootable flash media.

Creating boot media with Windows 10 ISO

To create a bootable media using an existing Windows 10 ISO file, connect a USB flash drive of at least 8GB of space, and use these steps:

Open Rufus download page.
Under the 'Download' section, click the latest release and save the file on your device.
© Provided by Windows Central
Double-click the Rufus-x.x.exe file to launch the tool.
Under the 'Device' section, select the USB flash drive with at least 8GB of space.
Under the 'Boot selection' section, click the Select button on the right side.
Select the Windows 10 ISO file from its folder location.
Click the Open button.
Use the 'Image option' drop-down menu to select the Standard Windows installation option.
Use the 'Partition scheme' drop-down menu to select the GPT option.
Use the 'Target system' drop-down menu to select the UEFI (non CSM) option.
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Under the 'Show Advanced drive properties' section, leave the default settings.
© Provided by Windows Central
Under the 'Volume label' field, enter a descriptive name for the drive — for example, 'win10_2004_usb.'
© Provided by Windows Central
Under the 'File system' and 'Cluster size' section, leave the default settings.
Click the Show advanced format options button.
Select the 'Quick format' and 'Create extended label and icon files' options.
Click the Start button.
Click the OK button to confirm.
Click the Close button.

After you complete the steps, the tool will create a bootable USB flash drive to install Windows 10 on a UEFI device with the image that you provided.

Creating boot media downloading Windows 10 ISO

If a Windows 10 ISO file isn't available, you can use Rufus to download the ISO from the Microsoft servers and create the bootable USB flash media.

To create an installation media, connect a USB flash drive of at least 8GB of space, and use these steps:

Open Rufus download page.
Under the 'Download' section, click the latest release of the tool to save the file on the computer.
© Provided by Windows Central
Double-click the Rufus-x.x.exe file to launch the tool.
Under the 'Device' section, select the USB flash drive with at least 8GB of space.
Under the 'Boot selection' section, click the arrow button next to the 'Select' option, and choose the Download option.
© Provided by Windows Central
Click the now available Download button.
Use the 'Version' drop-down menu and select Windows 10.
Click the Continue button.
Select the 20H1 (Build 19041.264 - 2020.05) option to download the Windows 10 May 2020 Update.
Click the Continue button.
Use the 'Edition' drop-down menu and select the Windows 10 Home/Pro option.
Click the Continue button.
Use the 'Language' drop-down menu and select your installation language.
Quick note: If you're in the United States, you should select 'English' instead of 'English International.'
Click the Continue button.
Use the 'Architecture' drop-down menu and select the 32-bit or 64-bit (recommended).
Quick tip: You can find out the architecture of your device on Settings >System >About, under Device specifications.
Click the Download button.
© Provided by Windows Central
Select a folder location to temporarily download the ISO file from the Microsoft servers.
Click the Save button.
Use the 'Image option' drop-down menu to select the Standard Windows installation option.
Use the 'Partition scheme' drop-down menu to select the GPT option.
Use the 'Target system' drop-down menu to select the UEFI (non CSM) option.
© Provided by Windows Central
Under the 'Show Advanced drive properties' section, leave the default settings.
Under the 'Volume label' field, enter a descriptive name for the drive — for example, 'win10_2004_usb.'
Under the 'File system' and 'Cluster size' section, leave the default settings.
Click the Show advanced format options button.
Select the 'Quick format' and 'Create extended label and icon files' options.
Click the Start button.
Click the OK button to confirm.
Click the Close button.

Once you complete the steps, Rufus will run the script to download the Windows 10 ISO file from the Microsoft servers. Then, it'll use that ISO to create a bootable media, which you can then use to install Windows 10 on computers using UEFI.

When you have the USB bootable media with support for UEFI systems, you can use to start your device to perform an in-place upgrade or clean installation of Windows 10.

More Windows 10 resources

For more helpful articles, coverage, and answers to common questions about Windows 10, visit the following resources:

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Applies to

Windows 10

This topic will show you how to take your reference image for Windows 10 (that was just created), and deploy that image to your environment using the Microsoft Deployment Toolkit (MDT).

We will prepare for this by creating an MDT deployment share that is used solely for image deployment. Separating the processes of creating reference images from the processes used to deploy them in production allows greater control of on both processes. We will configure Active Directory permissions, configure the deployment share, create a new task sequence, and add applications, drivers, and rules.

For the purposes of this topic, we will use four computers: DC01, MDT01, HV01 and PC0005.

DC01 is a domain controller
MDT01 is a domain member server
HV01 is a Hyper-V server
PC0005 is a blank device to which we will deploy Windows 10

MDT01 and PC0005 are members of the domain contoso.com for the fictitious Contoso Corporation. HV01 used to test deployment of PC0005 in a virtual environment.

Note

For details about the setup for the procedures in this article, please see Prepare for deployment with MDT.

Step 1: Configure Active Directory permissions

These steps will show you how to configure an Active Directory account with the permissions required to deploy a Windows 10 machine to the domain using MDT. These steps assume you have The account is used for Windows Preinstallation Environment (Windows PE) to connect to MDT01. In order for MDT to join machines into the contoso.com domain you need to create an account and configure permissions in Active Directory.

On DC01:

Download the Set-OUPermissions.ps1 script and copy it to the C:SetupScripts directory on DC01. This script configures permissions to allow the MDT_JD account to manage computer accounts in the contoso > Computers organizational unit.
Create the MDT_JD service account by running the following command from an elevated Windows PowerShell prompt:
Next, run the Set-OuPermissions script to apply permissions to the MDT_JD service account, enabling it to manage computer accounts in the Contoso / Computers OU. Run the following commands from an elevated Windows PowerShell prompt:

The following is a list of the permissions being granted:a. Scope: This object and all descendant objectsb. Create Computer objectsc. Delete Computer objectsd. Scope: Descendant Computer objectse. Read All Propertiesf. Write All Propertiesg. Read Permissionsh. Modify Permissionsi. Change Passwordj. Reset Passwordk. Validated write to DNS host namel. Validated write to service principal name

Step 2: Set up the MDT production deployment share

Next, create a new MDT deployment share. You should not use the same deployment share that you used to create the reference image for a production deployment. Perform this procedure on the MDT01 server.

Create the MDT production deployment share

On MDT01:

The steps for creating the deployment share for production are the same as when you created the deployment share for creating the custom reference image:

Ensure you are signed on as: contosoadministrator.
In the Deployment Workbench console, right-click Deployment Shares and select New Deployment Share.
On the Path page, in the Deployment share path text box, type D:MDTProduction and click Next.
On the Share page, in the Share name text box, type MDTProduction$ and click Next.
On the Descriptive Name page, in the Deployment share description text box, type MDT Production and click Next.
On the Options page, accept the default settings and click Next twice, and then click Finish.
Using File Explorer, verify that you can access the MDT01MDTProduction$ share.

Configure permissions for the production deployment share

To read files in the deployment share, you need to assign NTFS and SMB permissions to the MDT Build Account (MDT_BA) for the D:MDTProduction folder

On MDT01:

Ensure you are signed in as contosoadministrator.
Modify the NTFS permissions for the D:MDTProduction folder by running the following command in an elevated Windows PowerShell prompt:

Step 3: Add a custom image

The next step is to add a reference image into the deployment share with the setup files required to successfully deploy Windows 10. When adding a custom image, you still need to copy setup files (an option in the wizard) because Windows 10 stores additional components in the SourcesSxS folder which is outside the image and may be required when installing components.

Add the Windows 10 Enterprise x64 RTM custom image

In these steps, we assume that you have completed the steps in the Create a Windows 10 reference image topic, so you have a Windows 10 reference image at D:MDTBuildLabCapturesREFW10X64-001.wim on MDT01.

Using the Deployment Workbench, expand the Deployment Shares node, and then expand MDT Production; select the Operating Systems node, and create a folder named Windows 10.
Right-click the Windows 10 folder and select Import Operating System.
On the OS Type page, select Custom image file and click Next.
On the Image page, in the Source file text box, browse to D:MDTBuildLabCapturesREFW10X64-001.wim and click Next.
On the Setup page, select the Copy Windows 7, Windows Server 2008 R2, or later setup files from the specified path option; in the Setup source directory text box, browse to D:MDTBuildLabOperating SystemsW10EX64RTM and click Next.
On the Destination page, in the Destination directory name text box, type W10EX64RTM, click Next twice, and then click Finish.
After adding the operating system, double-click the added operating system name in the Operating Systems / Windows 10 node and change the name to Windows 10 Enterprise x64 RTM Custom Image.

Note

The reason for adding the setup files has changed since earlier versions of MDT. MDT 2010 used the setup files to install Windows. MDT uses DISM to apply the image; however, you still need the setup files because some components in roles and features are stored outside the main image.

Step 4: Add an application

When you configure your MDT Build Lab deployment share, you can also add applications to the new deployment share before creating your task sequence. This section walks you through the process of adding an application to the MDT Production deployment share using Adobe Reader as an example.

Create the install: Adobe Reader DC

On MDT01:

Download the Enterprise distribution version of Adobe Acrobat Reader DC (AcroRdrDC1902120058_en_US.exe) to D:setupadobe on MDT01.
Extract the .exe file that you downloaded to an .msi (ex: .AcroRdrDC1902120058_en_US.exe -sfx_o'd:setupadobeinstall' -sfx_ne).
In the Deployment Workbench, expand the MDT Production node and navigate to the Applications node.
Right-click the Applications node, and create a new folder named Adobe.
In the Applications node, right-click the Adobe folder and select New Application.
On the Application Type page, select the Application with source files option and click Next.
On the Details page, in the Application Name text box, type Install - Adobe Reader and click Next*.
On the Source page, in the Source Directory text box, browse to D:setupadobeinstall and click Next.
On the Destination page, in the Specify the name of the directory that should be created text box, type Install - Adobe Reader and click Next.
On the Command Details page, in the Command Line text box, type msiexec /i AcroRead.msi /q, click Next twice, and then click Finish.

The Adobe Reader application added to the Deployment Workbench.

Step 5: Prepare the drivers repository

In order to deploy Windows 10 with MDT successfully, you need drivers for the boot images and for the actual operating system. This section will show you how to add drivers for the boot image and operating system, using the following hardware models as examples:

Lenovo ThinkPad T420
Dell Latitude 7390
HP EliteBook 8560w
Microsoft Surface Pro

For boot images, you need to have storage and network drivers; for the operating system, you need to have the full suite of drivers.

Note

You should only add drivers to the Windows PE images if the default drivers don't work. Adding drivers that are not necessary will only make the boot image larger and potentially delay the download time.

Create the driver source structure in the file system

The key to successful management of drivers for MDT, as well as for any other deployment solution, is to have a really good driver repository. From this repository, you import drivers into MDT for deployment, but you should always maintain the repository for future use.

On MDT01:

Important

In the steps below, it is critical that the folder names used for various computer makes and models exactly match the results of wmic computersystem get model,manufacturer on the target system.

Using File Explorer, create the D:drivers folder.
In the D:drivers folder, create the following folder structure:
1. WinPE x86
2. WinPE x64
3. Windows 10 x64
In the new Windows 10 x64 folder, create the following folder structure:
- Dell Inc
  - Latitude E7450
- Hewlett-Packard
  - HP EliteBook 8560w
- Lenovo
  - ThinkStation P500 (30A6003TUS)
- Microsoft Corporation
  - Surface Laptop

Note

Even if you are not going to use both x86 and x64 boot images, we still recommend that you add the support structure for future use.

Create the logical driver structure in MDT

When you import drivers to the MDT driver repository, MDT creates a single instance folder structure based on driver class names. However, you can, and should, mimic the driver structure of your driver source repository in the Deployment Workbench. This is done by creating logical folders in the Deployment Workbench.

On MDT01, using Deployment Workbench, select the Out-of-Box Drivers node.
In the Out-Of-Box Drivers node, create the following folder structure:
1. WinPE x86
2. WinPE x64
3. Windows 10 x64
In the Windows 10 x64 folder, create the following folder structure:
- Dell Inc
  - Latitude E7450
- Hewlett-Packard
  - HP EliteBook 8560w
- Lenovo
  - 30A6003TUS
- Microsoft Corporation
  - Surface Laptop

The preceding folder names should match the actual make and model values that MDT reads from devices during deployment. You can find out the model values for your machines by using the following command in Windows PowerShell:

Or, you can use this command in a normal command prompt:

If you want a more standardized naming convention, try the ModelAliasExit.vbs script from the Deployment Guys blog post entitled Using and Extending Model Aliases for Hardware Specific Application Installation.

The Out-of-Box Drivers structure in the Deployment Workbench.

Create the selection profiles for boot image drivers

By default, MDT adds any storage and network drivers that you import to the boot images. However, you should add only the drivers that are necessary to the boot image. You can control which drivers are added by using selection profiles.The drivers that are used for the boot images (Windows PE) are Windows 10 drivers. If you can’t locate Windows 10 drivers for your device, a Windows 7 or Windows 8.1 driver will most likely work, but Windows 10 drivers should be your first choice.

On MDT01:

In the Deployment Workbench, under the MDT Production node, expand the Advanced Configuration node, right-click the Selection Profiles node, and select New Selection Profile.
In the New Selection Profile Wizard, create a selection profile with the following settings:
1. Selection Profile name: WinPE x86
2. Folders: Select the WinPE x86 folder in Out-of-Box Drivers.
3. Click Next, Next and Finish.
Right-click the Selection Profiles node again, and select New Selection Profile.
In the New Selection Profile Wizard, create a selection profile with the following settings:
1. Selection Profile name: WinPE x64
2. Folders: Select the WinPE x64 folder in Out-of-Box Drivers.
3. Click Next, Next and Finish.

Creating the WinPE x64 selection profile.

Extract and import drivers for the x64 boot image

Windows PE supports all the hardware models that we have, but here you learn to add boot image drivers to accommodate any new hardware that might require additional drivers. In this example, you add the latest Intel network drivers to the x64 boot image.

On MDT01:

Download PROWinx64.exe from Intel.com (ex: PROWinx64.exe).
Extract PROWinx64.exe to a temporary folder - in this example to the C:TmpProWinx64 folder.a. Note: Extracting the .exe file manually requires an extraction utility. You can also run the .exe and it will self-extract files to the %userprofile%AppDataLocalTempRarSFX0 directory. This directory is temporary and will be deleted when the .exe terminates.
Using File Explorer, create the D:DriversWinPE x64Intel PRO1000 folder.
Copy the content of the C:TmpPROWinx64PRO1000Winx64NDIS64 folder to the D:DriversWinPE x64Intel PRO1000 folder.
In the Deployment Workbench, expand the MDT Production > Out-of-Box Drivers node, right-click the WinPE x64 node, and select Import Drivers, and use the following Driver source directory to import drivers: D:DriversWinPE x64Intel PRO1000.

Download, extract, and import drivers

For the Lenovo ThinkStation P500

For the ThinkStation P500 model, you use the Lenovo ThinkVantage Update Retriever software to download the drivers. With Update Retriever, you need to specify the correct Lenovo Machine Type for the actual hardware (the first four characters of the model name). As an example, the Lenovo ThinkStation P500 model has the 30A6003TUS model name, meaning the Machine Type is 30A6.

To get the updates, download the drivers from the Lenovo ThinkVantage Update Retriever using its export function. You can also download the drivers by searching PC Support on the Lenovo website.

In this example, we assume you have downloaded and extracted the drivers using ThinkVantage Update Retriever to the D:DriversLenovoThinkStation P500 (30A6003TUS) directory.

On MDT01:

In the Deployment Workbench, in the MDT Production > Out-Of-Box Drivers > Windows 10 x64 node, expand the Lenovo node.
Right-click the 30A6003TUS folder and select Import Drivers and use the following Driver source directory to import drivers: D:DriversWindows 10 x64LenovoThinkStation P500 (30A6003TUS)

The folder you select and all sub-folders will be checked for drivers, expanding any .cab files that are present and searching for drivers.

For the Latitude E7450

For the Dell Latitude E7450 model, you use the Dell Driver CAB file, which is accessible via the Dell TechCenter website.

In these steps, we assume you have downloaded and extracted the CAB file for the Latitude E7450 model to the D:DriversDell IncLatitude E7450 folder.

On MDT01:

In the Deployment Workbench, in the MDT Production > Out-Of-Box Drivers > Windows 10 x64 node, expand the Dell Inc node.
Right-click the Latitude E7450 folder and select Import Drivers and use the following Driver source directory to import drivers: D:DriversWindows 10 x64Dell IncLatitude E7450

For the HP EliteBook 8560w

For the HP EliteBook 8560w, you use HP SoftPaq Download Manager to get the drivers. The HP SoftPaq Download Manager can be accessed on the HP Support site.

In these steps, we assume you have downloaded and extracted the drivers for the HP EliteBook 8650w model to the D:DriversWindows 10 x64Hewlett-PackardHP EliteBook 8560w folder.

On MDT01:

In the Deployment Workbench, in the MDT Production > Out-Of-Box Drivers > Windows 10 x64 node, expand the Hewlett-Packard node.
Right-click the HP EliteBook 8560w folder and select Import Drivers and use the following Driver source directory to import drivers: D:DriversWindows 10 x64Hewlett-PackardHP EliteBook 8560w

For the Microsoft Surface Laptop

For the Microsoft Surface Laptop model, you find the drivers on the Microsoft website. In these steps we assume you have downloaded and extracted the Surface Laptop drivers to the D:DriversWindows 10 x64MicrosoftSurface Laptop folder.

On MDT01:

In the Deployment Workbench, in the MDT Production > Out-Of-Box Drivers > Windows 10 x64 node, expand the Microsoft node.
Right-click the Surface Laptop folder and select Import Drivers; and use the following Driver source directory to import drivers: D:DriversWindows 10 x64MicrosoftSurface Laptop

Step 6: Create the deployment task sequence

This section will show you how to create the task sequence used to deploy your production Windows 10 reference image. You will then configure the task sequence to enable patching via a Windows Server Update Services (WSUS) server.

Create a task sequence for Windows 10 Enterprise

On MDT01:

In the Deployment Workbench, under the MDT Production node, right-click Task Sequences, and create a folder named Windows 10.
Right-click the new Windows 10 folder and select New Task Sequence. Use the following settings for the New Task Sequence Wizard:
1. Task sequence ID: W10-X64-001
2. Task sequence name: Windows 10 Enterprise x64 RTM Custom Image
3. Task sequence comments: Production Image
4. Template: Standard Client Task Sequence
5. Select OS: Windows 10 Enterprise x64 RTM Custom Image
6. Specify Product Key: Do not specify a product key at this time
7. Full Name: Contoso
8. Organization: Contoso
9. Internet Explorer home page: https://www.contoso.com
10. Admin Password: Do not specify an Administrator Password at this time

Edit the Windows 10 task sequence

Continuing from the previous procedure, right-click the Windows 10 Enterprise x64 RTM Custom Image task sequence, and select Properties.
On the Task Sequence tab, configure the Windows 10 Enterprise x64 RTM Custom Image task sequence with the following settings:
1. Preinstall: After the Enable BitLocker (Offline) action, add a Set Task Sequence Variable action with the following settings:
  1. Name: Set DriverGroup001
  2. Task Sequence Variable: DriverGroup001
  3. Value: Windows 10 x64%Make%%Model%
2. Configure the Inject Drivers action with the following settings:
  1. Choose a selection profile: Nothing
  2. Install all drivers from the selection profile
    Note
    The configuration above indicates that MDT should only use drivers from the folder specified by the DriverGroup001 property, which is defined by the 'Choose a selection profile: Nothing' setting, and that MDT should not use plug and play to determine which drivers to copy, which is defined by the 'Install all drivers from the selection profile' setting.
3. State Restore. Enable the Windows Update (Pre-Application Installation) action.
4. State Restore. Enable the Windows Update (Post-Application Installation) action.
Click OK.

The task sequence for production deployment.

Step 7: Configure the MDT production deployment share

In this section, you will learn how to configure the MDT Build Lab deployment share with the rules required to create a simple and dynamic deployment process. This includes configuring commonly used rules and an explanation of how these rules work.

Configure the rules

On MDT01:

Right-click the MDT Production deployment share and select Properties.
Select the Rules tab and replace the existing rules with the following information (modify the domain name, WSUS server, and administrative credentials to match your environment):

Click Edit Bootstrap.ini and modify using the following information:

On the Windows PE tab, in the Platform drop-down list, make sure x86 is selected.
On the General sub tab (still under the main Windows PE tab), configure the following settings:
- In the Lite Touch Boot Image Settings area:
  1. Image description: MDT Production x86
  2. ISO file name: MDT Production x86.iso
  Note
  Because you are going to use Pre-Boot Execution Environment (PXE) later to deploy the machines, you do not need the ISO file; however, we recommend creating ISO files because they are useful when troubleshooting deployments and for quick tests.
On the Drivers and Patches sub tab, select the WinPE x86 selection profile and select the Include all drivers from the selection profile option.
On the Windows PE tab, in the Platform drop-down list, select x64.
On the General sub tab, configure the following settings:
- In the Lite Touch Boot Image Settings area:
  1. Image description: MDT Production x64
  2. ISO file name: MDT Production x64.iso
In the Drivers and Patches sub tab, select the WinPE x64 selection profile and select the Include all drivers from the selection profile option.
In the Monitoring tab, select the Enable monitoring for this deployment share check box.
Click OK.

Note

It will take a while for the Deployment Workbench to create the monitoring database and web service.

The Windows PE tab for the x64 boot image.

The rules explained

The rules for the MDT Production deployment share are somewhat different from those for the MDT Build Lab deployment share. The biggest differences are that you deploy the machines into a domain instead of a workgroup.

You can optionally remove the UserID and UserPassword entries from Bootstrap.ini so that users performing PXE boot are prompted to provide credentials with permission to connect to the deployment share. Setting SkipBDDWelcome=NO enables the welcome screen that displays options to run the deployment wizard, run DaRT tools (if installed), exit to a Windows PE command prompt, set the keyboard layout, or configure a static IP address. In this example we are skipping the welcome screen and providing credentials.

The Bootstrap.ini file

This is the MDT Production Bootstrap.ini:

The CustomSettings.ini file

This is the CustomSettings.ini file with the new join domain information:

Some properties to use in the MDT Production rules file are as follows:

JoinDomain. The domain to join.
DomainAdmin. The account to use when joining the machine to the domain.
DomainAdminDomain. The domain for the join domain account.
DomainAdminPassword. The password for the join domain account.
MachineObjectOU. The organizational unit (OU) to which to add the computer account.
ScanStateArgs. Arguments for the User State Migration Tool (USMT) ScanState command.
USMTMigFiles(*). List of USMT templates (controlling what to backup and restore).
EventService. Activates logging information to the MDT monitoring web service.

Optional deployment share configuration

If your organization has a Microsoft Software Assurance agreement, you also can subscribe to the additional Microsoft Desktop Optimization Package (MDOP) license (at an additional cost). Included in MDOP is Microsoft Diagnostics and Recovery Toolkit (DaRT), which contains tools that can help you troubleshoot MDT deployments, as well as troubleshoot Windows itself.

Add DaRT 10 to the boot images

If you have licensing for MDOP and DaRT, you can add DaRT to the boot images using the steps in this section. If you do not have DaRT licensing, or don't want to use it, simply skip to the next section, Update the Deployment Share. To enable the remote connection feature in MDT, you need to do the following:

DaRT 10 is part of MDOP 2015. Note: MDOP might be available as a download from your Visual Studio subscription. When searching, be sure to look for Desktop Optimization Pack.

On MDT01:

Download MDOP 2015 and copy the DaRT 10 installer file to the D:SetupDaRT 10 folder on MDT01 (DaRTDaRT 10Installers<lang>x64MSDaRT100.msi).
Install DaRT 10 (MSDaRT10.msi) using the default settings.

Copy the two tools CAB files from C:Program FilesMicrosoft DaRTv10 (Toolsx86.cab and Toolsx64.cab) to the production deployment share at D:MDTProductionToolsx86 and D:MDTProductionToolsx64, respectively.
In the Deployment Workbench, right-click the MDT Production deployment share and select Properties.
On the Windows PE tab, in the Platform drop-down list, make sure x86 is selected.
On the Features sub tab, select the Microsoft Diagnostics and Recovery Toolkit (DaRT) checkbox.

Selecting the DaRT 10 feature in the deployment share.

In the Windows PE tab, in the Platform drop-down list, select x64.
In the Features sub tab, in addition to the default selected feature pack, select the Microsoft Diagnostics and Recovery Toolkit (DaRT) check box.
Click OK.

Update the deployment share

Like the MDT Build Lab deployment share, the MDT Production deployment share needs to be updated after it has been configured. This is the process during which the Windows PE boot images are created.

Right-click the MDT Production deployment share and select Update Deployment Share.
Use the default options for the Update Deployment Share Wizard.

Step 8: Deploy the Windows 10 client image

These steps will walk you through the process of using task sequences to deploy Windows 10 images through a fully automated process. First, you need to add the boot image to Windows Deployment Services (WDS) and then start the deployment. In contrast with deploying images from the MDT Build Lab deployment share, we recommend using the Pre-Installation Execution Environment (PXE) to start the full deployments in the datacenter, even though you technically can use an ISO/CD or USB to start the process.

Configure Windows Deployment Services

You need to add the MDT Production Lite Touch x64 Boot image to WDS in preparation for the deployment. In this procedure, we assume that WDS is already installed and initialized on MDT01 as described in the Prepare for Windows deployment article.

On MDT01:

Open the Windows Deployment Services console, expand the Servers node and then expand MDT01.contoso.com.
Right-click Boot Images and select Add Boot Image.
Browse to the D:MDTProductionBootLiteTouchPE_x64.wim file and add the image with the default settings.

The boot image added to the WDS console.

Deploy the Windows 10 client

At this point, you should have a solution ready for deploying the Windows 10 client. We recommend starting by trying a few deployments at a time until you are confident that your configuration works as expected. We find it useful to try some initial tests on virtual machines before testing on physical hardware. This helps rule out hardware issues when testing or troubleshooting. Here are the steps to deploy your Windows 10 image to a virtual machine:

On HV01:

Create a virtual machine with the following settings:
1. Name: PC0005
2. Store the virtual machine in a different location: C:VM
3. Generation: 2
4. Memory: 2048 MB
5. Network: Must be able to connect to MDT01MDTProduction$
6. Hard disk: 60 GB (dynamic disk)
7. Installation Options: Install an operating system from a network-based installation server
Start the PC0005 virtual machine, and press Enter to start the PXE boot. The VM will now load the Windows PE boot image from the WDS server.
The initial PXE boot process of PC0005.
After Windows PE has booted, complete the Windows Deployment Wizard using the following setting:
1. Select a task sequence to execute on this computer: Windows 10 Enterprise x64 RTM Custom Image
2. Computer Name: PC0005
3. Applications: Select the Install - Adobe Reader checkbox.
Setup now begins and does the following:
1. Installs the Windows 10 Enterprise operating system.
2. Installs the added application.
3. Updates the operating system via your local Windows Server Update Services (WSUS) server.

Application installation

Following OS installation, Microsoft Office 365 Pro Plus - x64 is installed automatically.

Use the MDT monitoring feature

Since you have enabled the monitoring on the MDT Production deployment share, you can follow your deployment of PC0005 via the monitoring node.

On MDT01:

In the Deployment Workbench, expand the MDT Production deployment share folder.
Select the Monitoring node, and wait until you see PC0005.
Double-click PC0005, and review the information.

Windows 10 Installation Media Drivereverdownloads

The Monitoring node, showing the deployment progress of PC0005.

Use information in the Event Viewer

When monitoring is enabled, MDT also writes information to the event viewer on MDT01. This information can be used to trigger notifications via scheduled tasks when deployment is completed. For example, you can configure scheduled tasks to send an email when a certain event is created in the event log.

The Event Viewer showing a successful deployment of PC0005.

Multicast deployments

Multicast deployment allows for image deployment with reduced network load during simultaneous deployments. Multicast is a useful operating system deployment feature in MDT deployments, however it is important to ensure that your network supports it and is designed for it. If you have a limited number of simultaneous deployments, you probably do not need to enable multicast.

Requirements

Multicast requires that Windows Deployment Services (WDS) is running on Windows Server 2008 or later. In addition to the core MDT setup for multicast, the network needs to be configured to support multicast. In general, this means involving the organization networking team to make sure thatInternet Group Management Protocol (IGMP) snooping is turned on and that the network is designed for multicast traffic. The multicast solution uses IGMPv3.

Windows 10 Install Media Driver

Set up MDT for multicast

Setting up MDT for multicast is straightforward. You enable multicast on the deployment share, and MDT takes care of the rest.

On MDT01:

In the Deployment Workbench, right-click the MDT Production deployment share folder and select Properties.
On the General tab, select the Enable multicast for this deployment share (requires Windows Server 2008 R2 Windows Deployment Services) check box, and click OK.
Right-click the MDT Production deployment share folder and select Update Deployment Share.
After updating the deployment share, use the Windows Deployment Services console to, verify that the multicast namespace was created.

The newly created multicast namespace.

Use offline media to deploy Windows 10

In addition to network-based deployments, MDT supports the use of offline media-based deployments of Windows 10. You can very easily generate an offline version of your deployment share - either the full deployment share or a subset of it - through the use of selection profiles. The generated offline media can be burned to a DVD or copied to a USB stick for deployment.

Offline media are useful not only when you do not have network connectivity to the deployment share, but also when you have limited connection to the deployment share and do not want to copy 5 GB of data over the wire. Offline media can still join the domain, but you save the transfer of operating system images, drivers, and applications over the wire.

Create the offline media selection profile

To filter what is being added to the media, you create a selection profile. When creating selection profiles, you quickly realize the benefits of having created a good logical folder structure in the Deployment Workbench.

On MDT01:

In the Deployment Workbench, under the MDT Production / Advanced Configuration node, right-click Selection Profiles, and select New Selection Profile.
Use the following settings for the New Selection Profile Wizard:
1. General Settings
  - Selection profile name: Windows 10 Offline Media
2. Folders
  1. Applications / Adobe
  2. Operating Systems / Windows 10
  3. Out-Of-Box Drivers / WinPE x64
  4. Out-Of-Box Drivers / Windows 10 x64
  5. Task Sequences / Windows 10

Create the offline media

In these steps, you generate offline media from the MDT Production deployment share. To filter what is being added to the media, you use the previously created selection profile.

On MDT01, using File Explorer, create the D:MDTOfflineMedia folder.
Note
When creating offline media, you need to create the target folder first. It is crucial that you do not create a subfolder inside the deployment share folder because it will break the offline media.
In the Deployment Workbench, under the MDT Production / Advanced Configuration node, right-click the Media node, and select New Media.
Use the following settings for the New Media Wizard:
- General Settings
  1. Media path: D:MDTOfflineMedia
  2. Selection profile: Windows 10 Offline Media

Configure the offline media

Offline media has its own rules, its own Bootstrap.ini and CustomSettings.ini files. These files are stored in the Control folder of the offline media; they also can be accessed via properties of the offline media in the Deployment Workbench.

On MDT01:

Copy the CustomSettings.ini file from the D:MDTProductionControl folder to D:MDTOfflineMediaContentDeployControl. Overwrite the existing files.
In the Deployment Workbench, under the MDT Production / Advanced Configuration / Media node, right-click the MEDIA001 media, and select Properties.
In the General tab, configure the following:
1. Clear the Generate x86 boot image check box.
2. ISO file name: Windows 10 Offline Media.iso
On the Windows PE tab, in the Platform drop-down list, select x64.
On the General sub tab, configure the following settings:
1. In the Lite Touch Boot Image Settings area:
  - Image description: MDT Production x64
2. In the Windows PE Customizations area, set the Scratch space size to 128.
On the Drivers and Patches sub tab, select the WinPE x64 selection profile and select the Include all drivers from the selection profile option.
Click OK.

Generate the offline media

You have now configured the offline media deployment share, however the share has not yet been populated with the files required for deployment. Now everything is ready you populate the deployment share content folder and generate the offline media ISO.

Win 10 Install Media Driver Missing

On MDT01:

In the Deployment Workbench, navigate to the MDT Production / Advanced Configuration / Media node.
Right-click the MEDIA001 media, and select Update Media Content. The Update Media Content process now generates the offline media in the D:MDTOfflineMediaContent folder. The process might require several minutes.

Create a bootable USB stick

The ISO that you got when updating the offline media item can be burned to a DVD and used directly (it will be bootable), but it is often more efficient to use USB sticks instead since they are faster and can hold more data. (A dual-layer DVD is limited to 8.5 GB.)

Tip

In this example, the .wim file is 5.5 GB in size. However, bootable USB sticks are formatted with the FAT32 file system which limits file size to 4.0 GB. This means you must split the .wim file, which can be done using DISM:
Dism /Split-Image /ImageFile:D:MDTOfflinemediaContentDeployOperating SystemsW10EX64RTMREFW10X64-001.wim /SWMFile:E:sourcesinstall.swm /FileSize:3800.
Windows Setup automatically installs from this file, provided you name it install.swm. The file names for the next files include numbers, for example: install2.swm, install3.swm.
To enable split image in MDT, the Settings.xml file in your deployment share (ex: D:MDTProductionControlSettings.xml) must have the SkipWimSplit value set to False. By default this value is set to True (<SkipWimSplit>True</SkipWimSplit>), so this must be changed and the offline media content updated.

Follow these steps to create a bootable USB stick from the offline media content:

On a physical machine running Windows 7 or later, insert the USB stick you want to use.
Copy the content of the MDTOfflineMediaContent folder to the root of the USB stick.
Start an elevated command prompt (run as Administrator), and start the Diskpart utility by typing Diskpart and pressing Enter.
In the Diskpart utility, you can type list volume (or the shorter list vol) to list the volumes, but you really only need to remember the drive letter of the USB stick to which you copied the content. In our example, the USB stick had the drive letter F.
In the Diskpart utility, type select volume F (replace F with your USB stick drive letter).
In the Diskpart utility, type active, and then type exit.

Windows 10 Media Installer Download

Unified Extensible Firmware Interface (UEFI)-based deployments

As referenced in Windows 10 deployment scenarios and tools, Unified Extensible Firmware Interface (UEFI)-based deployments are becoming more common. In fact, when you create a generation 2 virtual machine in Hyper-V, you get a UEFI-based computer. During deployment, MDT automatically detects that you have an UEFI-based machine and creates the partitions UEFI requires. You do not need to update or change your task sequences in any way to accommodate UEFI.

The partitions when deploying an UEFI-based machine.

Update Media Drivers Windows 10