Walkthrough: Create a Custom Windows PE Image
This walkthrough describes how to create a customized Windows PE image. The primary tool for customizing Windows PE 2.0 is PEImg, a Windows PE command-line tool. After creating a customized image, you can deploy the image to a hard disk or create a bootable Windows PE RAM disk on a CD-ROM, a USB flash drive (UFD) or a hard disk.
|A Windows PE RAM disk boots directly into memory and is assigned the drive letter X, which does not correspond to the media (for example, a UFD or a CD-ROM) from which you booted. Ensure that you have sufficient memory to support the size of your Windows PE image plus any additional memory requirements, for example, if you plan on running any customized applications that need additional working memory.|
To complete this walkthrough, you need the following:
A technician computer that provides all the tools and the source files. For more information, see Building a Technician Computer.
Step 1: Set up a Windows PE Build Environment
In this step, you create a required directory structure that supports building a Windows PE image.
On your technician computer, click Start, point to All Programs, point to Windows OPK or Windows AIK, and then click Windows PE Tools Command Prompt.
The menu shortcut opens a Command Prompt window and automatically sets environment variables to point to all the necessary tools. By default, all tools are installed at C:\Program Files\version\Tools, where version can be Windows OPK or Windows AIK.
At the command prompt, run the Copype.cmd script. The script requires two arguments: hardware architecture and destination location. For example,
copype.cmd <architecture> <destination>
copype.cmd x86 c:\winpe_x86
\winpe_x86 \winpe_x86\ISO \winpe_x86\mount
Step 2: Mount the Base Windows PE Image
In this step, you mount the base image to a local directory so that you can add or remove packages.
At the command prompt, mount the base Windows PE image (Winpe.wim) to the \Mount directory by using ImageX. For example,
imagex /mountrw c:\winpe_x86\winpe.wim 1 c:\winpe_x86\mount
Step 3: Add Additional Packages
By using the Peimg tool, you install Windows features by using the /install option. Windows features are included with the base image (Winpe.wim) but are not installed. You can also import packages and add drivers and language packs. For more information, see Windows PE Customization How-To Topics.
Add a Windows feature to the base image by using the peimg /install command. For example,
peimg /install=<pkg> c:\winpe_x86\mount\Windows
peimg /install=WinPE-HTA-Package c:\winpe_x86\mount\Windows
peimg /install=*HTA* c:\winpe_x86\mount\Windows
Windows PE 2.0 provides the following Windows features referred to as packages.
Package Name Description
Additional font support for ja-jp, ko-kr, zh-cn, zh-hk, and zh-tw.
HTML application support
Microsoft Data Access Component support
Windows Script Host support
Windows Recovery Environment component (available only on the Windows OPK)
Windows Management Instrumentation (WMI) support
Microsoft XML (MSXML) parser support
Repeat Step 1 for each package.
Verify that the packages were installed by using the peimg /list command to view all packages in the current image. For example,
peimg /list c:\winpe_x86\mount\Windows
Step 4: (Optional) Add Additional Customizations
This step is optional but recommended. You can add applications and scripts to your Windows PE image that you might need while working in Windows PE. The following is a list of common tools to include in your Windows PE image.
A command-line tool for capturing and applying images during deployment scenarios. For example, at a command prompt,
copy “c:\program files\<version>\Tools\x86\imagex.exe” c:\winpe_x86\iso\
Package Manager (Pkgmgr.exe)
A tool for servicing Windows image (.wim) files offline. You must copy the entire \Servicing folder and MSXML6 binaries. Offline servicing requires ImageX. For example,
xcopy “c:\program files\<version>\Tools\<architecture>\Servicing” c:\winpe_x86\iso\Servicing /s
copy %windir%\system32\msxml6*.dll c:\winpe_x86\iso\Servicing
where <version> can be Windows OPK or Windows AIK and <architecture> can be x86, amd64 or ia64. In both previous examples, the tools are not loaded into memory during a Windows PE RAM boot. The media must be available to access the tools.
To load the tools into memory along with Windows PE, copy the source files into the mounted \Windows directory. For example,
Important Adding files to the \Windows directory will increase the size of your Windows PE RAM image. Ensure that your computer has sufficient memory to boot Windows PE and to run various applications.
Step 5: Prepare the Image
In this step, you prepare the image by using the peimg /prep command. This operation removes any non-installed packages from the final image. This operation reduces the overall image size. For example,
peimg /prep c:\winpe_x86\mount\Windows
The /prep option cannot be reverted, and after the /prep option is run, the /install, /uninstall, /import, and /list options will not function, while the /lang and /inf options will continue to function. The Peimg tool prompts you to confirm the command. To suppress this prompt for scripting, add the /f option.
Step 6: Commit Changes to the Image
In this step, you commit the changes to the original image file (Winpe.wim) by using the ImageX /unmount option with the /commit option. For example,
imagex /unmount c:\winpe_x86\mount /commit
Step 7: Replace the Default Boot.wim File
In this step, you replace the default Boot.wim in the \ISO directory with your new customized image. The image must be called Boot.wim. For example,
copy c:\winpe_x86\winpe.wim c:\winpe_x86\ISO\sources\boot.wim
You now have a customized Windows PE RAM disk image that you can place on bootable media, like a CD-ROM or a UFD.
To create a bootable CD-ROM
On your technician computer, at a command prompt, create an .iso file by using Oscdimg. For example,
oscdimg -n -bc:\winpe_x86\etfsboot.com c:\winpe_x86\ISO c:\winpe_x86\winpe_x86.iso
Burn the image (Winpe_x86.iso) to a CD-ROM.
To create a bootable UFD
During a running Windows Vista operation system or a Windows PE session, insert your UFD device.
At a command prompt, use Diskpart to format the device as FAT32 spanning the entire device, setting the partition to active. For example,
diskpart select disk 1 clean create partition primary size=<size of device> select partition 1 active format fs=fat32 assign exit
disk 1is equal to
On your technician computer, copy all the content in the \ISO directory to your UFD device. You can manually create the directory structure or use the xcopy command to automatically build and copy the appropriate files from your technician computer to your UFD device. For example,
xcopy c:\winpe_x86\iso\*.* /s /e /f f:\
You can further customize your Windows PE image by adding language packs, customized scripts, and drivers. For more information, see Windows PE Customization How-To Topics.