MSI Z77IA-E53 Overview

The MSI Z77IA-E53 retails for $145, the cheapest of the roundup, below the $160 for the Zotac and $150 for the ASRock.  For the money, we get a motherboard oriented such that the chipset is above the socket, an odd location for the CPU Power connector, and a novel combination of features on board.  We have access to the Realtek ALC892 audio codec and Realtek 8111E GbE NIC, a single HDMI video connection, a single VGA connection, no on/off buttons or debug LED, but an included WiFi module.  There are no extra SATA or USB controllers, with MSI deciding to forgo these additional features for the sake of a PS/2 combination port and a ClearCMOS button on the rear IO.

In terms of design, the orientation of the features gives rise for concern – especially the placement of the CPU power connector. As it is near the rear IO at the bottom of the board just above the PCIe slot, it stands to reason that some home builds of this machine will require a PSU cable to reach over most of the motherboard or the GPU – not an ideal solution.  One design choice I do agree with however is the placement of the onboard battery – rather than using PCB space in a flat configuration, or placement issues in an upright position, we have it stuck to the rear IO.  As long as the adhesive holds there should be no issues.  Ideally I guess it be better if it was fixed into the chipset heatsink.

Despite the size of mITX, MSI have gone with full length DDR3 instead of SO-DIMM, and these slots also exhibit a single sided latch system for easy placement and removal.  The socket location is right up against the memory and PCIe slot, meaning that CPU coolers have to conform to Intel’s x-y dimension specifications and any GPU with a back plate may have issues depending on the cooler used.

Performance wise, the only snag with the MSI board (as with any 7-series MSI board we have tested recently) is the USB 2.0 speed.  Despite this being part of the chipset, the peak speeds we achieve are only ~25 MBps read and write, rather than the 32+ we see on any other motherboard.  It also seemed odd that our POST times when running a stripped setup in the BIOS were actually 33% longer than normal POST – 12.68 seconds for a ‘stripped’ POST against 9.63 seconds for a default POST with a single GPU installed.

I still maintain that MSI have some design wins in the BIOS, especially by giving the information regarding the setup on the front screen and this information being continually present throughout what option in the BIOS you choose.  The BIOS options themselves could be laid out better, and the idea of a graphical and interactive interface has only been half-attempted.  In terms of software, MSI keeps a user up-to-date with their Live Update system which checks the servers for updates.  This can be useful if there is a minor patch needed to be pushed through for better performance, or an irritant if a user wants to just plug and play.  I rather like it when I can get it to work – I had to use the latest version of Live Update 5 from the website rather than the one on the install disk to get it to play ball.

All-in-all, the MSI board in terms of features and performance offers nothing above the grade, and if anything the USB 2.0 speed is a constant malady that needs sorting out.  The BIOS and software design though are in the top tier if you want a deep interaction with your product.

Visual Inspection

In the year 2012, we have seen a variety of motherboard designs to titillate almost all the colors of the rainbow – yellow, orange, green, gold, red and blue for the most part.  (I am still waiting on the pink, the white and the grey.)  Normally a specific color scheme is for a product range, such as ROG, G1 or Fatal1ty.  In the case of MSI, the normal scheme is the MSI logo blue combined with black.  To do such a scheme on a mITX board should be easy – a mITX board is a niche product after all with a lot of potential.  The downside comes when allocating colors for SATA connections, or trying to hide controllers and routing along with all the advertising and writing on board.  For example, if a company has bulk-purchased their plastic connections 12-18 months ago, and are at a stage in their stock pile that only two colors are left., rather than the expense of buying more, they reuse the older ones until the stock is gone.  Exceptions are made, such as the ROG and G1 lines of the other companies that are building brand names.  As a result on the MSI Z77IA-E53, we get an attempt at black and blue, but the presence of white/black SATA ports, a red USB header, and the silver from all the solder points detracts from the aesthetics.

Like many of the other Z77 mITX boards on the market, MSI have decided to place the socket below the center of the board.  This, as mentioned previously, has a couple of serious implications on the design.  Firstly, the socket is at the minimum specified distance away from both the PCIe slot and the memory slots, meaning that all CPU coolers must conform to the Intel specification in the x and y directions.  This limits large air coolers, and large GPUs with back plates may have trouble fitting in.  The second issue comes from the presence of the power delivery – having the socket in this area means that the 12V CPU Power Connector is in an awkward position.  In the case of the MSI Z77IA-E53, it is to the bottom left of the socket, and as such, any attempt to plug the connector in will need the cable to either stretch over the board, or stretch over a GPU.  Neither is ideal when trying to produce a clean system build.  A final issue is the location of the IO – as the chipset is near the top of the board, so are all the connections for USB and SATA ports.   Due to the limited space to place components and features, the inclusion of a mini-PCIe/mSATA comes at the loss of a USB 2.0 header and two SATA 3 Gbps ports.  This is up to the manufacturer, but at least MSI moves the on-board battery out of the way with some adhesive and places it on the rear IO.

Back into the board itself, we have two fan headers to use – one CPU 4-pin just above the socket, and a SYS 4-pin below the 24-pin ATX power connector.  The power delivery uses a small bulky heatsink that hugs the IO panel, and we find the 8-pin CPU power connector just below this. The chipset heatsink by comparison is very small and flat, but should still be designed to dissipate the 7-8W that the chipset can produce.  From the top left we get a red USB 2.0 header, a blue USB 3.0 header, the connection and wires for the on-board battery, two SATA 6 Gbps in white, two SATA 3 Gbps in black, the 4-pin CPU fan header to the right of the chipset, and an mSATA/mini-PCIe connection next to the memory slots.  This mSATA/mini-PCIe will take any standard device for those two protocols, with the option to switch between the two found in the BIOS.  The Fintek F71889AD chip underneath the spot where a mPCIe device would be is a SuperIO chip designed to add in the PS/2 functionality as well as hardware monitoring.  Also to the right of the memory slots is a TPM header.  This space between the memory and the edge of the board would be perfect to put power/reset switches or a debug LED (like on the Zotac mITX), but unfortunately all we get are components.

The rear IO is a little bleak due to the large gap in the middle.  Other mITX boards we have reviewed have tried to do something a little different on the rear IO, such as dual HDMI + VGA, but here MSI have decided to remain a little basic.  From left to right we have a VGA, HDMI, a Realtek 8111E GbE NIC, two USB 3.0 ports, a ClearCMOS button, optical S/PDIF output, a combination PS/2 port, a WiFi connection, four USB 2.0 ports, an eSATA port, a Bluetooth 3.0+HS module and a trio of audio jacks.

Board Features

Price Link
Size Mini ITX
CPU Interface LGA-1155
Chipset Intel Z77
Memory Slots Two DDR3 DIMM slots supporting up to 16 GB
Up to Dual Channel, 1066-2800 MHz
Video Outputs HDMI
Onboard LAN Realtek 8111E
WiFi 802.11 b/g/n
Onboard Audio Realtek ALC892
Expansion Slots 1 x PCIe 3.0 x16
1 x mSATA/mini-PCIe
Onboard SATA/RAID 2 x SATA 6 Gbps (Chipset) RAID 0, 1, 5, 10
2 x SATA 3 Gbps (Chipset) RAID 0, 1, 5, 10
USB 4 x USB 3.0 (Chipset) [2 back panel, 2 onboard]
6 x USB 2.0 (Chipset) [4 back panel, 2 onboard]
Onboard 2 x SATA 6 Gbps
2 x SATA 3 Gbps
1 x USB 3.0 Header
1 x USB 2.0 Header
1 x TPM Connector
1 x Front Panel Audio
2 x Fan Headers
1 x Mini PCIe/mSATA
Power Connectors 1 x 24-pin ATX Power Connector
1 x 8-pin CPU Power Connector
Fan Headers 1 x CPU (4-pin)
1 x SYS (4-pin)
IO Panel 1 x PS/2 Combination Port
4 x USB 2.0
2 x USB 3.0
1 x Realtek 8111E GbE NIC
1 x HDMI
1 x VGA
1 x Clear-CMOS Button
1 x Wi-Fi Antenna Connector
1 x eSATA
1 x Optical S/PDIF Output
3 x Audio Jacks
Warranty Period 3 Years
Product Page Link

As mentioned in the visual inspection above, there are no real extras in terms of the MSI board – we arguably get the minimum we expect from a mITX product at this price range.  There is perhaps scope to bump up the audio/Ethernet controllers to ALC898/8111F, or organise the layout to include more SATA ports onboard.

Z77 mITX Round-Up: Five of the Best – MSI, Zotac, ASRock, EVGA and ASUS MSI Z77IA-E53 BIOS
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  • IanCutress - Monday, December 31, 2012 - link

    Gigabyte wanted their H77 reviewed instead, which we reviewed recently:
  • Athelstan - Monday, December 31, 2012 - link

    Thanks for the review. I'm curious why you mention the audio chip on all of these board. For the intended purpose, wouldn't the audio be over HDMI, making the onboard audio unused in most cases? Even then, all of the boards have optical out, making the audio chip to have very little to do other than to pass along the bitstream from the media thought the optical connection.
  • IanCutress - Monday, December 31, 2012 - link

    The audio chip also controls the front panel audio, and even if the audio was going through the HDMI, external speakers for a HTPC may be used via the audio jacks. In my personal usage scenario, my video out is via DVI-D to a 2560x1440 Korean panel via a dGPU, meaning all my audio still goes through the normal audio jacks. The other reason is that if I did not mention it, someone in the comments would ask why wasn't the audio chip mentioned. There is a price difference between the ALC889, ALC892 and ALC898, though manufacturers obviously get these on bulk deals (or at a discount when bought with the Realtek 8111E/F) and I am not privy to that information.

  • Taft12 - Monday, December 31, 2012 - link

    Speaking of audio, could you let us know the differences between those 3 Realtek audio chipsets? Is there any sound quality difference, or is it only features?
  • mczak - Monday, December 31, 2012 - link

    The 892 has somewhat crappy ADC/DACs quality-wise (that said most likely signal routing etc. on the board will have a much bigger effect on sound quality than the quality of the DACs, so using a higher quality chip can still easily result in worse quality than using a cheap chip with more care taken). The 889 and 898 seem quite similar there on paper.
    I think just about the only thing you'd really miss is the dolby digital live / dts connect features (encode multichannel audio to digital if you're using the digital outputs). But these are pure software features, so you can get them with the 892 as well - I believe though the board manufacturers are more likely to license them with the more expensive chips (I don't know if you could "upgrade" your chip with unofficial means there...). Realtek actually seems to list different ordering numbers depending on these features - interestingly there while all 3 of these chips are listed as a version without any of DDL/DTS Connect, only the 889 has a version with both of them, while the 892 only has a version with DTS Connect, and the 898 only has the version without them - the datasheet still lists those features as optional maybe they just stopped using different ordering numbers (the 889 clearly is the oldest of the 3).
  • Athelstan - Monday, December 31, 2012 - link

    *grins* Good point. If you don't mention it someone else would be asking for it.
  • Stacey Melissa - Monday, December 31, 2012 - link

    I'm running the ASUS board, and installed the AI Suite for a different ASUS Z77 board in order to get access to Fan Expert 2, which has far better fan control than v.1. Wish I could remember which Z77 board it was, but all I did was check the download pages for various Z77 boards to find one that included AI Suite with Fan Expert 2.
  • IanCutress - Monday, December 31, 2012 - link

    MSI include a program as part of the package to update the software, making sure you have the latest available. ASUS and Gigabyte need to do this ASAP, so people can take advantage of things like Fan Expert 2 without having to visit the website. System integrators often just install the drivers and software on the CD when selling a system, and then the user never updates it unless told to by either (a) friends or (b) the software itself.

  • mfenn - Monday, December 31, 2012 - link

    Am I the only one who is getting tired of the liberal copy-pasting of content between motherboard (and SSD) reviews on this site? I don't need to waste my time reading about the MSI design competition in every single review.

    I understand the need to provide background information to readers who may not peruse every single review, but that's why Tim invented the hyperlink. Link to the old review or to a purpose-built "company profile" page.
  • Sabresiberian - Tuesday, January 1, 2013 - link

    Adding info some may be familiar with is preferable to leaving it out. If you don't want to read it, then I suggest you just skim or skip it entirely. :)

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