Switch from Legacy BIOS to UEFI on existing installs of Windows Server 2016 (and 2012 / 2012 R2)

With most modern servers now shipping with UEFI enabled by default and many virtual hypervisor platforms supporting it for guest VMs as well, you may wish to switch your existing installations of Windows Server 2012, 2012 R2 or 2016 from booting with legacy BIOS to booting with UEFI. Thanks to a small tool introduced by Microsoft in Windows 10 1703, MBR2GPT.EXE, this can be done very easily.

You will need to download a copy of Windows 10 1703 or later in order to follow this guide as you need a copy of MBR2GPT.EXE and you need to boot your server into the version of WinPE that comes with these releases of Windows 10. You cannot run the tool in versions of Windows prior to 1703 (which, technically, Window Server 2016 is as it uses the same codebase Windows 10 1607).

Make certain your platform supports UEFI booting before continuing with this guide. If it does not, you will no longer be able to boot into Windows after you have changed the partition table from MBR to GPT.

If this process fails it has the potential to make your server unbootable, corrupt your data and cause lengthy downtime. Make certain you have an adequate backup of your server and a restoration process in place before proceeding.

Okay, with the big scary warnings out of the way, let’s get going!

First start by loading the Window 10 1703 (or later) ISO onto a USB drive, DVD, or if you’re following this process on a VM, mount it directly on the VM. Restart your server and boot the server from the Windows installation media. Click Next on the language selection screen and on the next screen click Repair your computer.

When the options screen comes up select Troubleshoot, and in Advanced Options select Command Prompt. You’ll find yourself at the command prompt in X:\Sources. Change directory to X:\Windows\system32 and start diskpart. Type list disk to list the disks attached to the system and note down the one that contains the OS. This will likely to be disk 0 but may not be depending on your servers’ disk layout.

diskpart List Disk

Exit diskpart and type MBR2GPT.exe /validate /disk:0. This will run the MBR2GPT tool on your OS disk to validate that it is ready for the conversion. If it is successful, run MBR2GPT.exe /convert /disk:0 and wait for the conversion to complete – it should not take long.

MBR2GPT Convert

That’s it for the conversion. Now restart your server, enter setup and enable UEFI booting. Save and exit and Windows should boot right up without any issues.

Now there is some optional clean up you can do. How optional it is depends on if you’ll ever want to extend the size of the drive. On a physical server it is unlikely your partition doesn’t already use the full size of the drive, however on a VM where it is possible to increase the size of the disk, you may have need to extend it in the future. It also depends on if you use BitLocker or not – more on that in a moment.

Here’s the deal. In Windows, open a command prompt and start diskpart. Type select disk 0 and then list partition. You will see three partitions – a 500 MB recovery partition, your OS partition and a 100 MB EFI system partition. That 500 MB partition is no longer in use since you no longer have an MBR partition. The new system partition is that 100 MB one at the end, and because it is at the end it will block you extending your OS partition. Fortunately, you can reuse that 500 MB of space and put the EFI system partition there instead.

If you use BitLocker to encrypt your drive the 500 MB partition also contains the unencrypted system files needed to start your computer. In this case, you cannot delete the partition. If you really need to be able to extend your partition in the future you can either unencrypt your drive, move the partition and then re-encrypt it, or use a third-party partitioning tool to move the EFI system partition to the front of the disk.

If you want to complete the partition clean up, here’s what to do. First, reboot the server and use the same steps as earlier with your Windows 10 installation media to end up back at the command prompt. From here, enter diskpart and type select disk 0 and then list partition. Note down which partitions are the 500 MB recovery partition and 100 MB system partition (typically these will be partition 1 and partition 3). Proceed to delete these partitions by first selecting them and then deleting them, using the commands select partition 1 followed by delete partition override and then select partition 3 followed by delete partition override.

diskpart Delete Partitions

Now create a new EFI system partition at the front of the disk using the command create partition efi size=100, format it using format quick fs=fat32 and assign it a drive letter using assign letter=s. Next, use the list volume command to get a list of volumes and make a note of the drive letter your OS drive is on (very likely C).


Exit diskpart and type bcdboot C:\Windows /s S: to copy the necessary system files to the new EFI system partition.

Finally, enter diskpart one last time, type select disk 0 and then select partition 2 and then type extend to reclaim that 100 MB of space at the end of the drive (may as well, right?) This will leave you with 2 partitions Рthe 100 MB EFI system partition at the beginning of the drive and your OS partition. Exit diskpart and restart your server.


And that’s it, the server now boots with UEFI and the partitions are all tidied up1.

1The astute among you will have realised that actually, the partitions aren’t quite as clean as you might like. Due to the old system partition being 500 MB and the new one being 100 MB, there is now 400 MB of unused space between the system partition and the OS partition. You have a few options here. The first, and simplest, is to actually create the new EFI partition with 500 MB of space rather than 100 MB. It doesn’t need that much space, but it will look better in Disk Management not having that random unused space between the partitions. Your second option is to simply leave it there, which could be beneficial in the future. If you ever turn on BitLocker it will need to create a 350 MB partition to store the unencrypted system files needed to boot your computer, and it can do so inside that 400 MB of space. Your third option is to use a third-party partitioning tool which is capable of extending your OS partition into the space in front of it, which is something that diskpart cannot do.


Buy Me A Coffee