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Note: You can use any version of the BIOS you want, but I only tested this on the latest version which as of this writing is 3602. And viola! NVMe support built right into BIOS.ĭownload the latest BIOS from the Asus support site here: Then flashing the system with this modified BIOS. This involves downloading the latest BIOS from the Asus website and then installing the driver into that BIOS file. #Samsung nvme driver v2.0.exe install#In order for the BIOS of this motherboard to support booting from NVMe drives, we have to install the NVMe driver module into the BIOS. The author is not responsible for any damage that may be caused to your motherboard by following these steps. Note: This should work on many other Asus boards as well, not just the B85M-G.įollow these steps at your own risk. ![]() The NVMe SSD now shows up in the BIOS as a boot option along with all the rest of my regular SATA drives. I tried various other methods but the following is exactly how I was able to get my BIOS to fully support the NVMe drive with no USB drive or any other special setup needed. This did not work for me on this motherboard as the NVMe driver would just hard lock the system while booting to the USB drive. #Samsung nvme driver v2.0.exe software#There are are quite a few suggested work arounds out there such as using a USB thumb drive loaded with UEFI manager boot software which allows the system to boot to the USB drive and then hand off to the NVMe drive. But there is no clear answer for boards this old. However I wanted to fully leverage the super fast NVMe drive as my boot drive to run the system from.Īfter a lot of Google searching I learned that I am not alone in this. #Samsung nvme driver v2.0.exe windows#Booting into Windows on my old SATA SSD also lets me see and use the NVMe drive as a data drive. #Samsung nvme driver v2.0.exe windows 10#The Windows 10 setup program as well as Acronis imaging software both see the NVMe drive just fine. It would not boot to the new drive no matter what combination of BIOS settings were tried. But alas, I was confronted with a BIOS error stating that it does not support the boot device. There are options in the BIOS for booting to PCI-E. The main problem is that this motherboard does not support booting from an NVMe drive. But little did I know of the hell that would ensue in order to boot my system from this PCI-E card. Oh how happy was I when these parts arrived? Like a kid on Christmas of course. If you are using an add-on video card in this slot, then this isn’t going to be feasible. Please note that you will have to use the x16 PCI-E slot as this board does not have any x4 slots that this adapter requires. So I also purchased a KingShare NVMe M.2 to PCI-E x4 adapter card that will allow me to use a conventional PCI-E slot with the M.2 SSD. However, the Asus B85M-G motherboard is too old to sport a built in M.2 slot. This is about 6 times faster than my SATA3 SSD at roughly 500 MB/s (0.5 GB/s). I ended up purchasing the Samsung 970 EVO NVMe M.2 SSD drive which boasts read and write speeds of roughly 3 GB/s+. It’s funny how quickly one can become accustomed to the speed of an SSD to the point it starts to seem slow again. Some examples are raw images in Photoshop, video processing and rendering, as well as application loading times. Despite this configuration, I was still waiting on disk operations with very large files. The machine was pretty fast already Asus B85M-G motherboard with Core i7 CPU, 32 GB RAM, and a 500GB OCZ Trion150 SATA3 SSD as the boot drive. Upgrading the motherboard, CPU and memory wasn’t going to be as cost effective as just adding this, many times faster, storage to my existing system. This was my dilemma… I wanted to use a shiny new super fast NVMe SSD on my older Intel B85 chipset based motherboard as my primary boot drive in order to boost system performance. ![]()
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