DIY UnRAID NAS Build – Part 4: Installing a 10GBe Intel X710-DA NIC (Plus an Outtake!)
Welcome back to another instalment of my DIY UnRAID NAS Build series.
If you have been following along, you will know this project is built around an Intel NUC chassis that I have been carefully (and repeatedly!) taking apart to transform into a compact but powerful UnRAID server.
In Part 4, we move on to a major upgrade: installing a 10GBe Intel X710-DA network interface card. And yes, the eagle-eyed among you will notice something unusual at the beginning of the video, because this episode starts with a blooper. I left it in for your entertainment.
A Fun Outtake to Start With
Right from the intro, things get a little chaotic. There is also a mysterious soundtrack playing, and I still do not know where it came from.
If you can identify it, feel free to drop a comment on the video.
Tearing Down the Intel NUC Again
To install the X710-DA NIC, the NUC requires almost complete disassembly:
Remove the back plate
Remove the backplane retainer
Take off the side panels
Open the case
Remove the blanking plate
Prepare the internal slot area
This NUC has become surprisingly modular after taking it apart so many times, but it still puts up a fight occasionally.
Installing the Intel X710-DA 10GBe NIC
Once the case is stripped down, the NIC finally slides into place. It is a tight fit, but the X710-DA is a superb card for a NAS build:
Dual SFP+ ports
Excellent driver support
Great performance in VMware, Linux, and Windows
Ideal for high-speed file transfers and VM workloads
If you are building a NAS that needs to move data quickly between systems, this NIC is a great option.
Reassembly
Next, everything goes back together:
Side panels reinstalled
Back plate fitted
Case secured
System ready for testing
You would think after doing this several times I would be quicker at it, but the NUC still has a few surprises waiting.
Booting into Windows 11 and Driver Issues
Once everything is reassembled, the NUC boots into Windows 11, and immediately there is a warning:
Intel X710-DA: Not Present
Device Manager confirms it. Windows detects that something is installed, but it does not know what it is.
Time to visit the Intel website, download the correct driver bundle, extract it, and install the drivers manually.
After a reboot, success. The NIC appears correctly and is fully functional.
Why 10GBe
For UnRAID, 10GBe significantly improves:
VM migrations
iSCSI and NFS performance
File transfers
Backup times
SMB throughput for Windows and macOS clients
It also future-proofs the NAS for any future network upgrades.
The Mystery Soundtrack
Towards the end of the video I ask again: what is the music playing in the background?
I genuinely have no idea, so if you recognise it, please leave a comment on the video.
Watch the Episode
You can watch the full episode, including all teardown steps, NIC installation, Windows troubleshooting, and the blooper, here:
Thank You for Watching and Reading
Thank you for following along with this NAS build.
Part 5 will continue the series, so stay tuned.
If you have built your own UnRAID NAS or have a favourite NIC for homelab projects, feel free to comment and share your experience.
HOWTO: P2V a Linux Ubuntu PC Using VMware vCenter Converter Standalone 9.0
Migrating physical machines into virtual environments continues to be a key task for many administrators, homelabbers, and anyone modernising older systems. With the release of VMware vCenter Converter Standalone 9.0, VMware has brought back a fully supported, modernised, and feature-rich toolset for performing P2V (Physical-to-Virtual) conversions.
In this post, I walk through how to P2V a powered-on Ubuntu 22.04 Linux PC, using Converter 9.0, as featured in my recent Hancock’s VMware Half Hour episode.
This guide covers each stage of the workflow, from configuring the source Linux machine to selecting the destination datastore and reviewing the final conversion job. Whether you’re prepping for a migration, building a new VM template, or preserving older hardware, this step-by-step breakdown will help you get the job done smoothly.
Video Tutorial
If you prefer to follow along with the full step-by-step: Embed your YouTube video here once uploaded.
What’s New in VMware vCenter Converter Standalone 9.0?
A refreshed and modern UI
Improved compatibility with modern Linux distributions
Updated helper VM for Linux conversions
Support for newer ESXi and vSphere versions
Better overall performance and reliability
Linux P2V via passwordless sudo-enabled accounts
This makes it far easier to bring physical Linux workloads into your virtual infrastructure.
Full Tutorial Breakdown (Step-by-Step)
Below is a summary of all the steps demonstrated in the video:
Step 1 — Open Converter & Select “Convert Machine”
Step 2 — Choose “Powered On”
Step 3 — Detect Source Machine
Step 4 — Select “Remote Linux Machine”
Step 5 — Enter FQDN of the Linux PC
Step 6 — Use a passwordless sudo-enabled user account
Step 7 — Enter the password
Step 8 — Proceed to the next stage
Step 9 — Enter ESXi or vCenter Server FQDN
Step 10 — Authenticate with username and password
Step 11 — Continue
Step 12 — Name your destination VM
Step 13 — Choose datastore & VM hardware version
Step 14 — Go to the next screen
Step 15 — TIP: Avoid making unnecessary changes!
Step 16 — Next
Step 17 — Review settings and click “Finish”
Step 18 — Monitor the conversion job
Step 19 — Review Helper VM deployment on ESXi
Step 20 — Cloning process begins
Step 21 — Converter best practices & tips
Step 22 — Conversion reaches 98%
Step 23 — Conversion reaches 100%
Step 24 — Disable network on the destination VM
Step 25 — Power on the VM
Step 26 — Teaser: Something special about Brother 52 (esxi052)!
Why Disable the Network Before First Boot?
Doing this avoids:
IP conflicts
Hostname duplication
Duplicate MAC address issues
Unwanted services broadcasting from the cloned system
After confirming the VM boots correctly, you can safely reconfigure networking inside the guest.
Final Thoughts
VMware vCenter Converter Standalone 9.0 brings P2V workflows back into the modern VMware ecosystem. With full Linux support—including Ubuntu 22.04—it’s easier than ever to migrate physical workloads into vSphere.
If you’re maintaining a homelab, doing DR planning, or preserving old systems, Converter remains one of the most valuable free tools VMware continues to offer.
Stay tuned — the next video showcases something special about Brother 52 (esxi052) that you won’t want to miss!
Don’t Forget!
Like the video
Subscribe to Hancock’s VMware Half Hour
Leave a comment — What P2V tutorial should I do next?
PART 3 – DIY Unraid NAS: Power Testing & Stability Checking with OCCT
Welcome back to Part 3 of the DIY Unraid NAS series!
In Part 1, we unboxed and assembled the hardware.
In Part 2, we ran a quick Windows 11 installation test (and of course, everything that could go wrong… went Pete Tong).
Now that the system boots and behaves under a “normal” workload, it’s time to get serious. Before committing this Intel NUC–powered machine to Unraid full-time, we need to ensure it’s electrically stable, thermally stable, and capable of running 24/7 without surprises.
This stage is all about power draw, thermals, and stress testing using OCCT — a powerful tool for validating hardware stability.
Why Power & Stability Testing Is Essential for a NAS
A NAS must be:
Reliable
Predictable
Stable under load
Able to handle long uptimes
Capable of sustained read/write operations
Tolerant of temperature variation
Unlike a desktop, a NAS doesn’t get breaks. It runs constantly, serving files, running Docker containers, hosting VMs, and performing parity checks. Any weakness now — PSU spikes, hot VRMs, faulty RAM — will eventually show up as file corruption or unexpected reboots.
That’s why stress testing at this stage is non-negotiable.
Using OCCT for a Full-System Torture Test
OCCT is typically used by overclockers, but it’s perfect for checking new NAS hardware.
It includes tests for:
1. CPU Stability
Pushes the CPU to 100% sustained load.
Checks:
Thermal throttling
Cooling capacity
Voltage stability
Clock behaviour under load
A NAS must not throttle or overheat under parity checks or rebuilds.
2. Memory Integrity Test
RAM is the most overlooked component in DIY NAS builds.
Errors = silent data corruption.
OCCT’s memory test:
Fills RAM with patterns
Reads, writes, and verifies
Detects bit-flip issues
Ensures stability under pressure
Memory integrity is vital for Unraid, especially with Docker and VMs.
3. Power Supply Stress Test
OCCT is one of the few tools capable of stressing:
CPU
GPU (if present)
Memory
All power rails
simultaneously.
This simulates worst-case load and reveals:
Weak PSUs
Voltage drops
Instability
Flaky power bricks
VRM overheating
Not what you want in a NAS.
4. Thermal Behaviour Monitoring
OCCT provides excellent graphs showing:
Heat buildup
Fan curve response
Temperature equilibrium
VRM load
Stability over time
This shows whether the NUC case and cooling can handle long running services.
Test Results: Can the Intel NUC Handle It?
After running OCCT, the system performed exceptionally well.
CPU
No throttling
Temperatures within acceptable limits
Clock speeds held steady
RAM
Passed memory integrity tests
No bit errors
Stable under extended load
Power Delivery
No shutdowns or brown-outs
The power brick handled peaks
VRMs stayed within thermal limits
Thermals
Fans behaved predictably
Temperature plateau was stable
No unsafe spikes
In other words: This machine is ready to become an Unraid NAS.
Why Validate Hardware Before Installing Unraid?
Because fixing hardware problems AFTER configuring:
Shares
Parity
Docker containers
VMs
Backups
User data
…is painful.
Hardware validation now ensures:
No silent RAM corruption
No thermal issues
No unexpected shutdowns
No nasty surprises during parity builds
The system is reliable for 24/7 operation
This step protects your data, your time, and your sanity.
What’s Coming in Part 4
With the hardware:
Burned in
Power-tested
Thermally stable
Verified by OCCT
We move to the exciting part: Actually installing Unraid!
In Part 4, we will:
Prepare the Unraid USB boot device
Configure BIOS for NAS use
Boot Unraid for the first time
Create the array
Assign drives
Add parity
Begin configuring shares and services
We’re finally at the point where the NAS becomes… a NAS!
Welcome back to Part 2 of our DIY Unraid NAS adventure! In Part 1, we unboxed the hardware, checked the spec, and got ready to build a tiny but mighty home-brew NAS around the Intel NUC “Skull” chassis.
Before committing this machine to Unraid full-time, I wanted to run a quick hardware test — and what better way than to throw a Windows 11 installation at it? Simple, right?
Well… maybe not. As usual, things went a bit Pete Tong along the way! ?
Booting the NUC – and Immediate Problems
The video starts with the NUC firing up nicely… until I discover the mouse isn’t working. Not ideal when you’re trying to install an OS.
After poking around, I realise the issue is down to the NanoKVM I use for remote access. The trick? Switch the KVM to HID mode only — suddenly the mouse returns from the dead.
Lesson learned: Tiny KVMs can cause BIG installation headaches.
Ventoy + Windows 11 ISO = Let’s Try This Again
Once the input devices were behaving, I booted Ventoy from USB and selected the Windows 11 ISO.
This part should be smooth. Except it wasn’t.
Windows 11 booted fine… The setup loaded… Language and keyboard selected… Version chosen… Installation begins…
Then: “Windows 11 installation has failed.”
No reason. No explanation. Just a failure screen and a shrug.
Excellent.
If At First You Don’t Succeed – Install Again
Time for round two.
Ventoy ? Windows 11 ISO ? Setup ? Install Copying files…
YES! It finally completes.
That warm feeling of success lasted a whole ten seconds before Windows restarted to continue configuration — and hit me with another set of “what now?!” delays.
Still, persistence wins. Eventually we get to:
Keyboard setup
Feature selection
Updates
Account creation
Security questions
More updates
Even more updates
Whoever said installing Windows 11 only takes 10 minutes was telling porkies.
Finally… Windows 11 Desktop
After the second attempt, repeated reboots, KVM issues, updates, and the bizarre initial failure, we finally land on a clean, working Windows 11 desktop.
Why bother with all this before Unraid?
Because hardware burn-in testing NOW can save hours (or days) of pain LATER.
Welcome to AndysWorld.org.uk! Today, we’re diving into a project that’s perfect for anyone looking to build a powerful, yet compact, DIY Network-Attached Storage (NAS) solution. In this post, I’ll walk you through the first part of building a ‘MEGA’ NVMe NAS using the Intel NUC 11 Extreme (Beast Canyon). This mini-PC packs a punch with its powerful hardware, making it a great choice for a NAS build, especially when combined with UnRAID to handle storage and virtualization.
Why Choose the Intel NUC 11 Extreme for a NAS?
If you’ve been looking into NAS setups, you know the balance between power, size, and expandability is crucial. The Intel NUC 11 Extreme (Beast Canyon) checks all the right boxes, offering:
Compact Form Factor: It’s a small but powerful solution that doesn’t take up much space.
High-Performance NVMe Support: NVMe drives provide incredibly fast data transfer speeds—perfect for a NAS that needs to handle heavy workloads.
Flexibility for Virtualization: With UnRAID, you can set up multiple virtual machines, containers, and storage arrays, making it a versatile solution for any home or small office.
For this build, we’re focusing on using NVMe storage for high-speed access to files and a 64GB Kingston Fury DDR4 RAM kit to ensure smooth performance under load.
What You’ll Need for This Build:
Intel NUC 11 Extreme (Beast Canyon)
64GB Kingston Fury DDR4 RAM
2 x 512GB XPG GAMMIX NVMe SSDs
UnRAID Operating System
A few basic tools for assembly (screwdriver, anti-static mat, etc.)
If you’ve never worked with the Intel NUC before, don’t worry! I’ll guide you through every step of the assembly process. Let’s get into it!
Step-by-Step Build Process:
1. Unboxing the Intel NUC 11 Extreme
First things first, let’s unbox the Intel NUC 11 Extreme (Beast Canyon). When you open the box, you’ll find the compact, sleek chassis, which packs quite a punch for such a small form factor. This NUC is equipped with an 11th Gen Intel Core i7 processor and can support a variety of high-speed storage options, including NVMe SSDs.
2. Installing the RAM and NVMe Drives
With the NUC unboxed, the next step is to install the Kingston Fury RAM and XPG GAMMIX NVMe SSDs. Be careful during installation—especially with the tiny NVMe screws! The NUC has an easy-to-access compute board where both the RAM and NVMe drives will fit.
Installing the RAM: Simply slot the 64GB Kingston Fury DDR4 RAM sticks into the dedicated slots, making sure they’re fully seated.
Installing the NVMe SSDs: These go directly onto the motherboard and can be secured using small screws. Be sure to handle them gently as the connectors are quite delicate.
3. Reassembling the NUC
Once the RAM and NVMe drives are installed, it’s time to reassemble the NUC. This involves:
Reattaching the fan tray and shroud
Reinstalling the side and back panels
At this stage, everything should feel secure and ready for the next steps.
Why NVMe Storage for a NAS?
NVMe drives are game-changers when it comes to NAS storage. Here’s why:
Speed: NVMe offers lightning-fast read/write speeds compared to SATA SSDs or traditional HDDs. For anyone who works with large files or needs to serve data quickly, NVMe is a must.
Future-Proofing: With more applications and data being handled in the cloud, having NVMe in your NAS ensures your storage solution is ready for the future.
Reliability: NVMe drives are more reliable than traditional spinning hard drives, with less moving parts and faster data recovery times.
What’s Next?
Now that we’ve completed the hardware installation, in the next post, we’ll dive into setting up UnRAID on the NUC. UnRAID will allow us to easily configure our storage arrays, virtual machines, and containers—all from a user-friendly interface. Stay tuned for Part 2, where we’ll cover configuring the software, optimizing the NAS, and making sure everything runs smoothly.
Helpful Resources:
To help you along the way, I recommend checking out the blog posts from two experts in the field:
This build was just the beginning! The Intel NUC 11 Extreme provides an excellent foundation for a fast, reliable NAS. With NVMe storage and the flexibility of UnRAID, you can build a high-performance system that’s both versatile and compact.
What do you think of this build? Have you used the Intel NUC for similar projects? Drop a comment below or connect with me on social media—I’d love to hear about your experiences!
Follow Andy’s World for More DIY Tech Projects Don’t forget to check out the latest posts and tutorials on AndysWorld.org.uk to keep up with all things tech and DIY. Happy building!
Minisforum MS-A2 Hyper-V to Proxmox 9.0 Migration Minisforum MS-A2 Series Part 15 Ultimate #homelab
In this episode of Hancock’s VMware Half Hour, I walk you through migrating Hyper-V virtual machines to Proxmox 9.0 on the Minisforum MS-A2.
We’ll cover connecting to the Proxmox server via SSH, exploring datastores, working with VHDX files, and running migration demos—including moving a full VM in under 60 seconds! This step-by-step guide shows how easy it is to transition workloads from Hyper-V into Proxmox for your #homelab or production environment.
Whether you’re testing, learning, or planning a migration, this video gives you the tools and knowledge to make it happen smoothly.
Scripts are here on GitHub – https://github.com/einsteinagogo/Hyper-VtoProxmoxMigration.git
Minisforum MS-A2 Can it Play Proxmox 9.0.3 Minisforum MS-A2 Series Part 14 Ultimate #homelab
In this episode of the Minisforum MS-A2 Series, I take the brand-new MS-A2 and put it to the test by installing Proxmox VE 9.0.3. From booting off Ventoy, setting up the U.2 Samsung NVMe, configuring root credentials, and finalizing the installation — all the way to creating and running a Windows Server 2025 VM — we’ll see if the MS-A2 can truly handle Proxmox in a homelab environment.
Along the way, I hit some fun quirks (green screens, missing drivers, and Proxmox guest tools), but by the end we’ve got Windows Server installed and running smoothly.
Minisforum MS-A2 Windows Server 2025 Driver Fix Minisforum MS-A2 Series Part 13 Ultimate #homelab
In this episode of the Minisforum MS-A2 Ultimate #homelab series, I walk you through fixing missing drivers in Windows Server 2025 on the MINISFORUM MS-A2. From troubleshooting Device Manager issues to installing the AMD chipset drivers, PSP device, SMBus controller, GPU drivers, and Microsoft Pluton driver, this video will help you get your MS-A2 running smoothly on Server 2025.
Along the way, I also highlight some community contributions, share key tips like disabling power saving mode, and test the latest AMD Software: PRO Edition 25.Q2 for GPU support.
What you’ll learn in this video:
How to fix missing drivers in Windows Server 2025 on the Minisforum MS-A2
Which drivers are required: AMD PSP, SMBus, GPU, Microsoft Pluton
Why you must disable power saving mode for stability
How to install AMD Software: PRO Edition 25.Q2 for GPU support
Special thanks to the community:
LoCo (Scott Fell) for the T-shirt
Jason Macialek
Mark Howell
Perfect for homelab enthusiasts, VMware users, and anyone testing Windows Server 2025 on Minisforum MS-A2.
Don’t forget to like, comment, and subscribe for more VMware + homelab content from Hancock’s VMware Half Hour!
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Welcome to Hancock’s VMware Half Hour! In this episode of the Minisforum MS-A2 Series – Part 12 Ultimate #homelab, we take the compact but powerful MS-A2 and push it to the limits by installing VMware vCenter Server 9.0 on ESXi 9.
From installation to configuration and performance benchmarks, I’ll walk you through every step — including DNS setup, deployment options, datastore selection, and SSO configuration. We’ll also run boot speed benchmarks to see just how fast vCenter Server 9.0 can run on the MS-A2. Spoiler: it’s blazing fast! ? It’s on FIRE !
If you’re thinking of building a small, efficient, and powerful #homelab capable of enterprise-level virtualization, this is the video for you.
Minisforum MS-A2 Can it Run ESXi 9.0.0? Minisforum MS-A2 Series Part 11 Ultimate #homelab
Can the Minisforum MS-A2 handle VMware’s latest ESXi 9.0.0?
In Part 11 of the Ultimate #homelab series, we put the MS-A2 to the test with the brand-new VMware vSphere Hypervisor ESXi 9.0. From BIOS boot to creating a demo virtual machine, you’ll see the entire installation process and whether this mini PC can run the latest VMware tech.
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