Once again, the primary purpose of a file server is storage.  It is not computation prowess nor producing high frame rates in games.  All other components, including the CPU, should take a back seat to the hard drives, case, and power supply in the context of a home file server.  File servers do not - repeat, do not - need the latest, greatest, more powerful processors to work well.  In fact, file serving is not a particularly taxing task, especially not for a home file server that will likely never have to distribute data to more than a handful of clients simultaneously.  Therefore, rather than using a powerful and power-hungry CPU, it's a better idea to use a less capable but also less power consuming chip. 

From A(tom) to Z(acate)

Intel's Oak Trail (using Atom CPUs) and AMD's Brazos (using Zacate APUs) platforms are both up to the task of file serving.  However, neither platform produces a particularly pleasant experience with Windows Home Server 2011.  Both platforms take an agonizingly long time to install WHS2011, and neither will be capable of doing much more than simply serving - transcoding video on an Atom or Zacate WHS2011 system is painfully slow.  That said, both Oak Trail and Brazos are sufficient to run WHS2011, especially if your file server will be performing only basic tasks like streaming MP3s and storing photos.

My preferred Atom home server motherboard/cpu combo is the ASUS AT5NM10T-I, a passively-cooled, Atom D525 (1.8GHz dual core with Hyper-Threading) solution that sports four SATA ports (rather than the two found on most Intel boards) and a PCIe x4 slot.  The PCIe expansion slot is useful for adding a SATA controller card in case you want your file server to house more than four drives.  Note it uses laptop SODIMMs rather than standard desktop DIMMs but considering how inexpensive DDR3 is currently, this does not affect the system's cost.  One thing to keep in mind when selecting an Atom-based file server: go for the most recent models that are dual cores and have Hyper-Threading - the price premium is very modest and the performance increase is palpable. 

ASRock's E350M1 is a more fully-featured Zacate motherboard that includes the E-350 APU (1.6GHz dual core), four SATA ports, an eSATA port (useful for backups), as well as VGA, DVI, and HDMI out ports.  While multiple display outputs might not be an important consideration for a file server, more flexibility is always better.  At just under $100 through Newegg currently, it is an exceptional value.  Its expandability is limited to one PCIe x16 slot, which can also accommodate PCIe x4 and x1 cards - whereas PCIe 'up-plugging' can be hit or miss on different motherboards, I have had excellent success up-plugging on this particular model.   

In comparing Atom with Zacate in the context of a file server, the regular laptop or desktop experience paints a useful picture.  Atom is barely sufficient.  Zacate is sufficient.  Zacate's main strength is its integrated GPU, which is not particularly useful for a file server, but its CPU prowess is also substantially better than Atom's.  While the Atom CPU officially draws less power on paper (with a TDP of 13W) than than the E-350 APU (at 18W), in practice, the two platforms consume very similar amounts of power both at idle and under loads typical of a file server (which do not tax the E-350's integrated GPU).   Given that these platforms are priced similarly, use similar quantities of electricity, and the AMD platform's greater general flexibility, it is difficult to recommend the Atom-based solution given Zacate's substantial performance advantage.

The Sandy Bridge Pentiums

Anand recently reviewed the Sandy Bridge-based Pentiums, some of which have been available now for a few months.  These CPUs are excellent home file server processors: they have enough muscle to smoothly run WHS2011 and produce a very pleasant computing experience, they use little power under load, and they are not expensive.   The Intel Pentium G620 has become my go-to file server CPU since its release back in Q2.  It is the least expensive Sandy Bridge desktop CPU at less than $80, and though its TDP is 65W on paper, in reality, it uses far less power under real world load.  It uses even less power than its more powerful yet still juice-sipping Core i3-2100 cousin, and this combination of using not much electricity while being powerful makes it difficult to recommend any AMD CPU that is comparably priced.  Unless you are on an extremely tight budget, a G620 makes more sense for a file server than, say, the AMD Athlon II X2 250.  You can get an idea of how the G620 and 250 compare by looking at Bench - though since Bench doesn't include the 250, we're using the 255, which is ever so slightly faster than the 250.  Pay particular attention to the power usage levels: at idle, the G620 system uses over 20W less than the 250 system, and uses less than 50W less under load. 

But what about the lowly, dirt cheap Sempron 145?  Its TDP is only 45W and though it's a single core CPU, it's still powerful enough for a file server, even one running WHS2011.  Again, though, there's a difference between official TDPs and real world TDPs: my own testing shows that the Sempron 145 also idles nearly 20W higher than the G620.  So the same conclusion immediately above also applies: unless you are on an extreme budget, you're better off with the G620 than the 145.  These increases in CPU power consumption by the AMD CPUs compared to the Sandy Bridge Pentium translate directly into heat dissipated into your file server's case.  Whether this is enough heat to make a difference depends on your case and cooling solutions - but in my experience, it's enough to push hard drive temperatures from the high 30s (Celsius) to to the mid 40s Celsius in especially small cases.

Though power consumption factors prominently in our recommendation of the Pentium G620 over the Athlon II X2 250, it's important to not lose sight of the forest for the trees: a 20W difference in power consumption for a file server CPU is the rough equivalent of leaving a smaller, lower wattage incandescent light bulb like a reading lamp on 24/7 in your home.  Ultimately, the decision is simple: is a $25 or more premium for the G620 worth saving 20W+ on your electrical bill over the long haul?

   The lilliputian Intel Pentium G620 heatsink and fan is a good indication of the chip's heat output


Whether you use a mini-ITX, micro-ATX, or full-size ATX motherboard will largely be dictated by the size of the case you decide to house your home file server in.


Mini-ITX boards sacrifice expandability for small size.  Few ITX motherboards have more than four SATA ports, limiting them to use in file servers that will hold maximally 12TB (the largest commercially available hard drives are 3TB).  However, most ITX motherboards have at least one expansion slot, which can hold a SATA controller card.  There are many LGA 1155 motherboards that are compatible with the Intel Pentium G620, and most have very similar feature sets.  However, in a mini-ITX case, board layout becomes critically important.  My favorite ITX 1155 motherboard is Giada's MI-H61-01 specifically because its four SATA ports are clustered on the lower right aspect of the board (when it's mounted), right by the front panel connectors and 20 pin ATX power port.  Because the four pin CPU power connector is located on the upper left corner, cable management is a breeze and facilitates excellent airflow - everything goes to either the lower right or upper left corners, allowing cables to be run along the top or bottom of the mini-ITX case.  The Giada MI-H67-01 has a nearly identical layout and is sometimes less expensive than the H61 board.  Though Giada is a newcomer to the North American market and do not have the reputation of older brands like ASUS, for what's it worth, I have used many of these boards in both file server and regular ITX desktop builds and have been completely satisfied by their products.  Remember, if you want to build a mini-ITX file server that will have six hard drives, you will need to buy a PCIe SATA controller card with two SATA ports like the SYBA SD-SA2PEX-2IR or Rosewill RC-211.   


Micro-ATX LGA 1155 boards can sport up to seven total SATA ports (4 SATA II and 3 SATA III), but most come with four or six total SATA ports.  As with mini-ITX file server boards, layout is important when stuffing many hard drives into a micro-ATX case.  The Biostar TH67B places all six of its SATA ports at the very bottom right-most corner of the board.  Unfortunately there are no micro-ATX 1155 options that push the 20+4 pin power connector to either the very top or bottom of the board, but at least this Biostar board has its  four pin power connector at the very top.

Full ATX

Cable management is rarely as difficult in a full-size ATX case as it can be in micro-ATX and mini-ITX cases, so board layout is perhaps less important for a full ATX file server motherboard, but it is still a consideration.  Ten hard drives can become very messy!  ATX 1155 boards max out at 10 ports, however, ten SATA port boards are typically $200 or more, whereas eight SATA port boards like the ASUS P8P67 can be found for as little as $125.  Thus, if you absolutely need ten HDDs in your file server, it makes more sense to spend $125 on the board and $25 on a two port SATA controller card than $200 on a ten SATA port motherboard.  I like this ASUS board for multiple HDD systems because its SATA ports are mounted perpendicularly to the board facing forward and at about the same height as one PCIe x1 and one PCI slot, so managing the SATA cables facilitates better airflow than if they were coming off of different heights on the board.


File servers do not need high performance, low latency, high frequency RAM.  FreeBSD, FreeNAS, and Ubuntu all run well with 2GB of RAM under loads typical of a home file server, but they do run palpably smoother with 4GB.  WHS2011 runs much more smoothly with 4GB.  All of the file server OS's run even better with 8GB RAM.  As RAM prices continue to fall, 8GB kits have been available for less than $30 (after rebate) regularly.  Because RAM prices are so dynamic lately, rather than recommending a specific product, we'll recommend that you shop around!  You should be able to find 2GB, 4GB, or 8GB for $5/GB without a rebate or less than $5/GB after rebate. 

Now that we've covered CPUs, motherboards, and RAM, the next page discusses cases and PSUs solutions. 

File Server Operating Systems Cases and Power Supplies
Comments Locked


View All Comments

  • HMTK - Monday, September 5, 2011 - link

    We don't even use encryption for our enterprise customers. There's just no point. How easy do you think it is recovering useful data from a RAID member? Not talking about a mirror here but RAID 5/6/10
  • qoonik - Sunday, September 4, 2011 - link

    motherboard: supermicro X7SPA-H-D525 (
    - Intel® Atom™ D525 (Passive cooling)
    - Intel® ICH9R Express Chipset
    - 6x SATA (3.0Gbps)

    ram: 2 x 4GB DDR3 SO-DIMM Kingston
    case: CFI A7879 Mini-ITX NAS/Server Case - 4 Hot Swap Bays
    psu: FSP120-50GNF (FANLESS)
    fan: BeQuiet SilentWings 120 mm PWM
    hd: 1 x WD green 1.5 TB (completing ... )

    Amahi Home Server (Fedora) http://www.amahi.org
  • Rick83 - Sunday, September 4, 2011 - link

    Gonna chime in here ;)
    motherboard is a gigabyte P55-UD5
    i5 650
    10xSATA + 2x eSATA + 1xIDE + 2xIDE from PCI card
    2x1 GB some-DDR3
    CM Stacker STC-1 (yes, the original goodness!) with 3 4in3 modules
    psu: seasonic 430W with plenty of power adapters
    fan: stock fans all around (120mm per 4in3, one 120mm exhaust, one 80mm top exhaust, no CPU fan), CPU cooler is a scythe Yasya
    hd: 1x 8GB transcend IDE flash module (SLC), 1x 2.5" transcend IDE ssd (SLC), 1x 40GB seagate IDE, 1x 80 gb WD IDE, 1x 80GB seagate SATA, 3x 400GB Seagate SATA, 5x WD 1TB EARS SATA, 1x Samsung 1TB SATA (12 spinning disks, 2 SSDs)
    an optical drive
    a TV-card (though apparently broken...stream coming out of it is corrupted)
    an IEEE1394 CF Card reader
    Setup is 2x RAID1 (second level back up, and dynamic system files, consisting of the small disks) ad 2x RAID 5 (main and back-up array)
    graphics: nVidia 6200 - looking to replace this with something that idles at lower energy - can't stand the card being as hot as it is, with no screens attached.

    Now having lived with that machine for a few years (previously it was running only 7 disks and a sempron single core on it, before that there was a pre-cursor server that was running on different celerons and as little as 32MB of RAM) I am currently looking at options to make the disks more accessible. Something this article doesn't touch on, is with many disks come many deaths. Which is where a hot-plug cage really comes into its own. So I'm on the look-out for affordable backplanes with 120mm fans which I can replace 1:1 with two of the 4-in-3s (my IDE disks will have less use in a hot swap cage ;) )
  • Death666Angel - Sunday, September 4, 2011 - link

    That's a nice coincidence. I just ordered my file server stuff this week and it got here on Friday. So far I just put it together, haven't turned it on, yet (exam stress).
    I haven't read this article, hope my stuff isn't too useless. ;-)
    Just a fyi, here is the system I have:
    - Sharkoon T9, 9 x 5.25"!!
    - AMD Phenom II X4 840 (fake Phenom btw)
    - Asus M4A88TD-V EVO/USB3, which supports ECC memory
    - 2x4GB Kingston DDR3-ECC 1333MHz RAM
    - 2 x IcyDock 5 in 3 Backplane (MB455SPF-B)
    - Intel Gigabit CT Desktop Adapter for PCI-E x1
    - A300 Couger PSU (staggered spin-up ftw! I just hope it works out ;-))
    - Highpoint Rocketraid 2680SGL + 2 MiniSAS to 4xSATA cables

    I'll use 8 2TB HDDs for a RAID5 with Linux Ubuntu, at least that's the plan. I'll also get a UPS soon. I have enough space to upgrade to a second raid adapter (the motherboard has 2 PCI-E slots and I hope the graphics slot will be accepted) and have 15 HDDs in the 9 5.25" trays and I can cram one additional one in there for sure ;-).
  • Rick83 - Sunday, September 4, 2011 - link

    That's a big RAID-5.
    Those are pretty risky: Rebuilds take a long time, and are dependant upon all other disks surviving that long.
    If you really want to go the way of 'one big RAID 5', I'd propose to go with 7 disks and keep one as hot spare. That way at least the rebuild will start right as the first disk dies, minimizing somewhat that other disks deteriorate gravely until a replacement disk is there.
    In general I'd stop with level 5 at 6 disks though. Consider Going with two 4-disk level 5's or a level 6 also.
    Ideally of course you'd have two level 5's where one is a regular back-up of the other, but using a different file system.
  • qoonik - Sunday, September 4, 2011 - link

    Also consider software protection like flexraid http://wiki.flexraid.com/.
  • Death666Angel - Monday, September 5, 2011 - link

    Yeah, my ideal solution was to go with RAID6 where 2 disks could fail (and of course a real RAID controller with a XOR unit and 16 sata ports) but that would have cost about 4 to 6 times the price of the 2680.
    I haven't heard good things about the spare disks, so I would rather go with 2 4HDD RAID5s. But I will do some testing before setting it up, I have 4 empty 2TB drives and will play around with pulling a disk out, having the array rebuilt etc. and then I'll decide which way to go.
    Luckily, the only sensitive, non-easily recoverable data will be my photos and probably some system images which will be backed up regularly. The music and videos can easily be ripped from my collection again. It will be time lost, but not inrecoverable :-).
    As for software RAID, I haven't heard of flexraid. I looked into FreeNAS and ZFS and that wasn't up my ally. Very powerful filesystem, but FreeNAS is too limited to just providing a NAS. I would like to have the option of going full server with this too, hosting different things. And the linux port of ZFS isn't stable as far as I heard, so that was out of the question.
    With the hardware controller I know that I am not OS dependant and all that I read is that in a case of failure, modern raid controllers can also be switched easily by a model from the same maker and not lose any data (which I heard wasn't the case a few years/decades back). :-)
  • alpha754293 - Tuesday, September 6, 2011 - link

    My current system is 10 * 3TB (30 TB raw, 27 TB RAID5). If I go with anything else, I'd have to probably pile LustreFS or some other kind of distributed FS on top of that, which adds to the complexity, and cost, and another system, and power, and complexity in the parity calculations.

    A second server will likely go online and it will run rsync or something akin to that for incremental backups.
  • Lonyo - Sunday, September 4, 2011 - link

    You seem to have missed the perfect board for an Atom based file server.

    6 SATA ports, x16 and x1 PCIe slots (for potentially 2 RAID cards).
    DTX means it should fit in an mATX case (assuming there is one with enough HDD space), or if you are making something custom the footprint shouldn't be too big.
  • qoonik - Sunday, September 4, 2011 - link

    also suggest supermicro X7SPA-H-D525 ( Intel® Atom™ D525 (Pineview-D)
    Dual Core, 1.8GHz (13W) processor, 6 sata,2x RJ45 LAN port, Mini ITX)

Log in

Don't have an account? Sign up now