In the previous article, I provided some background on the origin of the project. In this article, we will now focus on the technical details and how the solution actually works.
Hardware
This solution was originally developed against an Intel NUC but I had designed it to be generic so that it could run on any system which meets the minimum requirements which is just having two disks (HDD & SSD or two SSDs) which is used to create a vSAN datastore.
Here is the BOM for the Intel NUC that we had used:
- 1 x Intel NUC 6th Gen NUC6i3SYH (supports 2 drives: M.2 & 2.5)
- 2 x Crucial 16GB DDR4
- 1 x Samsung SM951 NVMe 128GB M.2 for "Caching" Tier
- 1 x Samsung 850 EVO 500GB 2.5 SATA3 for “Capacity” Tier
During the Sydney VMUG, we had did a live demo using an Intel NUC. Prior to the Melbourne VMUG, fellow VMware colleague Tai Ratcliff reached out and offered to let us borrow his Supermicro kit for the demo which was great as the hardware was much beefier than the NUC. Thanks Tai!
I had already been hearing great things about E200-8D platform but I had not had the opportunity to get my hands on the system to play with. After only spending a little bit of time with the platform while prepping for the VMUG event, I can see why is a pretty slick system for a vSphere/vSAN based home lab, especially if you need to go beyond 32GB of memory which is where the Intel NUCs currently max out at.
The other appealing features for this platform is that it comes with 2x10GbE, 2x1GBe and an IPMI interface for remote management which is a huge benefit for not needing to connect an external monitor and keyboard. The system is also Xeon based w/6-Cores and can go all the way up to 128GB of memory. Tai had also recently published a blog article comparing the Supermicro E200-8D and the Intel NUC, which I think is worth a read if you are deciding between these two platforms.
Note: If you are considering purchasing the Supermicro E200-8D or any other system for that matter, check out this exclusive vGhetto discount here.