Asus x79 deluxe lga 2011.Asus P9X79 Deluxe Review: Starting Point for LGA 2011 Platform
Shop by category.Top 10 Best Asus X79 Deluxe Atx Lga Motherboard – Top Rated And Reviews
XDELUXE 2 40 DDR3 Qualified Vendors List (QVL) 2 DIMM 4 DIMM 6 DIMM 8 DIMM FCL11QGBZMD 32GB (8x 4GB) – – DDR3 Qualified Vendors List (QVL) 2 DIMM 4 DIMM 6 DIMM 8 DIMM. Along with built-in ac Wi-Fi and Bluetooth for super-fast and flexible wireless connectivity, X79 Deluxe also includes ASUS SSD Caching II technology to significantly improve the performance of traditional hard disk drives (HDDs). X79 Deluxe also introduces a stunning gold-and-black design – so it looks just as great as it performs/5(42). ASUS P9X79 PRO LGA Intel X79 SATA 6Gb/s USB ATX Intel Motherboard. out of 5 stars. 3 offers from $ LGA Computer Mainboard,Desktop PC Motherboard Support DDR3 REG ECC Memory,RTLH Gigabit Network Card,Full-board Solid-state Capacitor Design,SATA Supports for RX Series Graphics Card. out of 5 stars.
Asus x79 deluxe lga 2011.Top 10 Best Asus X79 Deluxe Atx Lga Motherboard – Top Rated And Reviews
ASUS XDELUXE elevates CPU overclocking stability to a whole new level: a new Intel® LGA GHz processor can be cranked confidently all the way up to GHz – and even beyond! This truly incredible performance is possible thanks to precise, real 4/5(88). P9X79 features the Intel X79 chipset supporting the Intel LGA 2nd Generation Intel Core i7 Processors. 8-DIMM Design provides maximum performance and versatility/5(64). Compare. ASUS TSE8-PS4 V2 Tower Server Barebone LGA Intel C DDR4. CPU Type: 2 x Socket R3 (LGA ) Intel Xeon processor E v4 product family (W) Intel Xeon processor E v3 product family (W) QPI / / GT/s. Max Memory Supported: Maximum up to GB LRDIMM.
Top 10 Best Asus X79 Deluxe Atx Lga2011 Motherboard – Top Rated and Reviews
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ASUS X79 Deluxe LGA 2011 Motherboard Review @ [H]
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ASUSTeK mainboards are the leading brand today that is why this particular model seems to be an ideal choice for opening a series of articles dedicated to the new platform. We will dwell on absolutely everything about it: package, accessories, technical specifications, EFI BIOS functionality, new programs and utilities, overclocking potential, performance and power consumption. It looks like the year may be known as the year of unsuccessful processor launches. The actual Sandy Bridge CPU, in fact, turned out pretty good, but the chipsets for them contained a very frustrating bug.
As a result, we had to wait for the new fixed chipset modifications until spring, which had significantly slowed down the spreading of the promising processors. It is quite possible that the next LGA processor generation known as Ivy Bridge has been postponed for an entire quarter and is due to be announced in the coming spring and not January as usual.
After that we were impatiently waiting for the AMD Bulldozer scheduled to be launched in summer, but AMD kept delaying them over and over and they arrived only in mid fall.
The disappointment was quite predictable and therefore not very dramatic, but it is still sad that Bulldozer processors ended up being so hot and slow. The new microarchitecture is designed to allow frequency increase, so more competitive models might be coming out in the future, but the overall associations are not the best ones at this point. What comes to mind in reference to Bulldozer is the very old launch of the Intel Pentium IV processors, when they were hoping to fix things by raising the clock speeds.
The first processors on Willamette core were also slower than their predecessors, after that they came out with a much more successful Northwood core, and things seemed to be very promising, but they ended up with a flame-breathing Prescott, and at that point decided to give up NetBurst microarchitecture altogether. We hope that the company remembers all that and will not make the same mistakes their competitor made back then.
Closer to the end of the year Intel was planning to triumph their new LGA processors. The new Sandy Bridge-E were expected to raise the performance bar to unattainable heights. It looks like Intel is simply unable to maintain the pace, which they set for themselves.
The idea behind it is that they first develop new processor microarchitecture, and then transfer it to new production process, and after than another new microarchitecture comes out.
However, this strategy seems to start failing. Maybe it makes more sense to flexibly react to the changing situation rather than strictly follow the preset rules? For example, I currently have a good previous-generation quad-core LGA processor.
The advantages of the new processors are obvious and undeniable, but they are not significant enough to justify a complete platform change, because even the functionality of the current model I use is more than sufficient. I am sure that he owners of LGA processors find themselves in a similar situation. Also, if your existing LGA processor has already been overclocked to the maximum, but its performance is still insufficient.
In fact, we are going to approach the new platform from this particular standpoint. Namely, from the prospective of a user who puts together a new system. And we are going to pay special attention to overclocking functionality and potential.
Unlike processor makers, Asus is obviously on the rise this year, at least in the mainboard segment. The Asus mainboards usually significantly expand the base functionality of the chipset they are based on due to additional onboard controllers, proprietary technologies and utilities.
They have successfully completed the transition to UEFI BIOS, increasing its functionality with the new features and parameters without losing any of options or convenience of use. However, in general terms, Asus mainboards are currently the leaders of the mainboard market. Asus P9X79 Deluxe is shipped in a box of standard size. The front flip cover can be opened to reveal the mainboard through a large cut-out window and list its selected features with brief descriptions on the back of the cover.
The story of the mainboard features continues on the back of the box alongside with a photo of the board and its technical specifications.
The mainboard is wrapped in an antistatic plastic bag and sits in an individual cardboard section with all the bundled accessories beneath it. The bundle includes the following:. I doubt that we will be wrong if we say that designing Intel X79 Express based mainboards has become significantly more difficult than designing mainboards on the previous chipsets, because the lack of free space has become a much bigger problem.
Processors consume a lot of power, which means that they need stable voltage regulator circuitry with proper cooling. Free PCB space is in such dramatic shortage that some of the voltage regulator components had to be moved to the back side of the PCB. They are covered with an aluminum plate that also helps to dissipate heat, but the major thermal load still falls on the four primary heatsinks.
Heatpipes are used to tie pairs of heatsinks into a single cooling contour and all of them are fastened with very reliable screw-on retention. It is crucially important to ensure proper CPU cooling, too, that is why it is great to see two fan connectors for the CPU fans onboard.
For the expansion card you can use two PCI Express 2. The fourth slot works as PCI Express 3. Asus engineers faced certain challenges not only when they tried to lay out the upper part of the PCB with a large processor socket, several memory DIMM slots and processor voltage regulator circuitry.
USB 3. Two of them provide six USB 3. All you need to do is connect a drive with the new BIOS version, press the button and wait. Besides two connectors for the CPU fans, there are four more four-pin case fan connectors. All four allow adjusting the fan rotation speeds, even for the three-pin fans, although the rotation speed control for the processor fans will only work with the four-pin fans.
For your convenience all Asus P9X79 Deluxe specifications have been summed up in the following table:. By default, we see EZ Mode when we enter the BIOS, which serves purely informational purposes, because it hardly allows you to adjust anything at all. You can find out the basic system specifications, check out some monitoring parameters, select energy-efficient or performance mode and set the boot-up devices order by simply dragging them with a mouse pointer.
Even if we take the most undemanding user who would normally only set the date and time in the BIOS, this mode will still be not functional enough for him.
However, there is a new way of getting rid of the useless EZ Mode — by pressing the F3 hot key. This key gives you access to any BIOS section via a drop-down menu. Note that you can change the interface language. Not all the parameters will be translated and the BIOS does look a little funny in any language other than English.
You can change the frequencies, multipliers and voltages in the main section window. Some parameters are as usual singled out into individual sub-section in order to unload the main section a little.
The memory timings adjustment settings are also singled out onto an individual page and they are scarily numerous. You can see all timings that the mainboards installs for each of the four memory channels. And you can adjust only a few selected timings, such as the main ones, for example, leaving all other settings at defaults. You can also select the parameters manually. Now there is a n individual option for each of the four fans and each of them may be adjusted separately.
In particular, it now saves the current BIOS version in the root directory of the drive by default, while previously you could have it saved into any selected folder. Asus mainboards allow saving and them quickly loading eight full BIOS settings profiles. Each profile may be given a brief descriptive name reminding you of its contents.
You can also exchange profiles saving them to and loading them from external drives. However, the settings in default mode are quite optimal, so you will get a perfectly operational system without really changing anything. We were very pleased to see that the functionality was expanded.
Namely, we pleased to see a new F3 hot key and the options for individual configuring of the case fans. The disabling of the startup image cannot be saved in a profile, the EZ Flash 2 utility saves the current BIOS version only in the root directory of the drive instead of our location of choice.
However, these are not problems but more of minor issues that pose minimal inconvenience and do not interfere with the system configuring or overclocking. I should say a few words about the changes in our testbed configuration. Due to 6 Gbps interface support its read speed is almost twice as high as that of the previous model we used in our testbeds.
The write speed has also increased substantially, though not that dramatically. The heat-spreaders made of thin aluminum are pretty tall and are available in four different colors. For compatibility reasons the memory is by default clocked at MHz with timings, but the XMP 1. The most arguable and problematic upgrade is the Thermalright Archon Rev.
A processor cooler. There were several reasons why we chose this particular model. First of all, LGA processors require a highly efficient cooler and all numerous online reviews were praising this particular cooler model.
Secondly, we were looking for the narrowest possible cooler out there. As a result, most flagship coolers available today will not be compatible with the memory modules featuring tall heat-spreaders. Moreover, the additional retention kits for LGA are already available in retail. So, we ended up purchasing the new Thermalright Archon Rev. A and in the end were extremely disappointed with it. Just like many other coolers from this manufacturer, this one had a defective very uneven and severely protuberant base, which hinders proper cooling of your processor.
This is the thermal compound imprint on the LGA processor. If we take AMD processors with even heat-spreaders, the contact spot will be even smaller — only a thin stripe in the very center of the CPU, despite the fact that we intentionally applied an excessive amount of thermal paste.
Moreover, this photo shows the third cooler installation attempt when we were trying to find the most optional positioning for it.
In this case the narrow but long cooler heatsink will be hanging over the memory DIMMs and it will be impossible to install the memory modules into them. And if we install the cooler in a standard manner, the imprint will be going across the CPU and not along it, which means that the actual contact spot will be even smaller.
Despite our frustration, we decided to pull ourselves together on this one. We will replace Thermalright Archon Rev. A with a different cooler as soon as possible.
However, now we see that this function has also become available on the regular Asus mainboards. Only after all these manipulations we could actually start the tests. However, the owners of the first Bulldozer processors have most likely faced the same issues. They had to look for the old CPUs or contact the technical support services immediately after purchasing the mainboard, so that they could receive a BIOS update.