Gigabyte x99 phoenix sli.GA-X99P-SLI (rev. 1.0)
Introduction, Specifications, and Pricing.GA-XPhoenix SLI (rev. ) Overview | Motherboard – GIGABYTE Global
Lasting Quality from TE Ultra Durable™ motherboards bring together a unique blend of features and technologies that offer users the absolute GA-XPhoenix SLI (rev. ) Support | Motherboard – GIGABYTE U.S.A. Gigabyte Series GA-XPhoenix SLI Item model number GA-XPhoenix SLI Item Weight pounds Product Dimensions x x inches Item Dimensions LxWxH x x inches Processor Count 10 Computer Memory Type DDR4 SDRAM Batteries 1 Lithium Metal batteries required. Manufacturer Gigabyte ASIN B01FY8CBRW/5(). Calidad Ultra Durable™ de GIGABYTE. Las motherboards Ultra Durable™ de GIGABYTE reúne una combinación única de características y tecnologías que ofrecen a l GA-XPhoenix SLI (rev. ) Descripción | Tarjetas Madre – GIGABYTE Latin America.
Gigabyte x99 phoenix sli.GA-XPhoenix SLI (rev. ) Overview | Motherboard – GIGABYTE Indonesia
Gigabyte Series GA-XPhoenix SLI Item model number GA-XPhoenix SLI Item Weight pounds Product Dimensions x x inches Item Dimensions LxWxH x x inches Processor Count 10 Computer Memory Type DDR4 SDRAM Batteries 1 Lithium Metal batteries required. Manufacturer Gigabyte ASIN B01FY8CBRW/5(). The GIGABYTE X99P-SLI motherboard is the world’s first X99 motherboard to be certified to support Thunderbolt™ 3. This gives enthusiasts that need the tried-and-true horsepower and reliability of the X99 chipset access to the world’s fastest connectivity protocol. GIGABYTE X99 series motherboards use an all digital CPU power design from International Rectifier® which includes both 4th Generation digital PWM Controllers and industry-leading 3rd Generation PowIRstage® controllers.
GA-X99-SLI (rev. 1.0)
GA-XSLI (rev. ) Overview | Motherboard – GIGABYTE Global
GIGABYTE X99-Phoenix SLI (Intel X99) Motherboard Review
GA-X99P-SLI (rev. ) Overview | Motherboard – GIGABYTE Global
With the introduction of Intel’s Broadwell-E processors, motherboard vendors have launched a new series of X99 motherboards targeted at the new generation of high-performance CPUs. The deviation from the typical G1 Gaming naming scheme is appropriate since it’s the first G1 Gaming motherboard to have an orange color scheme, something many have responded positively to.
GIGABYTE’s departure from the rigidity of their “orange equals overclocking” dogma represents a shift in strategy to a market demand based approach where the gamer has become king. The entire package feels high quality, and the motherboard is very well protected inside its foam container. The orange and white color theme looks elegant, and I am a big fan of almost-neon colors mixed with white. While a lot of enthusiasts are asking for plain black motherboards, there is also a subset of users that want color and flash, and this board is targeting them.
The back of the PCB is pretty bare. For starters, the M. The first and second PCI-E slots are wired 16x. The second PCI-E 16x slot will give the fourth PCI-E 16x slot 8x of bandwidth if the fourth slot is populated, but with a lane CPU, the fourth slot is disabled because the second slot will only receive 8x of bandwidth. The motherboard has two M.
The other M. The U. A USB 3. A second USB 3. The motherboard does have two internal USB 2. It creates a cool effect in the dark. The heat sinks are connected by a heat pipe, and everything is secured with screws. The motherboard also has extra pins in the socket that could enhance overclocking of cache and memory; these pins are powered by a special array of linear regulators located below the first 16x PCI-E slot and controlled by an ITE embedded controller.
Both sets of four DIMMs use identical power delivery setups. There are 11x Nichicon Gold series electrolytic audio capacitors and a physical divide of the audio section of the PCB from the rest of the motherboard. Together, the LEDs produce a neat lighting effect. Users are now able to choose what temperature sensor each fan header will use for reference. Users are also able to choose the operating mode of certain headers, and manual control of headers can be done on a graph where users can pick different points.
While all of the UEFI got a style overhaul, most of the menu structure remains the same. There are two new pages worth noting in the new UEFI. The first is an Easy Mode screen where users can easily find popular settings such as boot sequence and fan control. The second is an “Ambient LED” control module. Of course, you can also turn off the motherboard lights or change their color.
The lighting between the memory DIMMs is also a nice touch. If there is a white wall behind the case, you will get a neat shadow effect from the lights. The new test bench is designed to test every aspect of the motherboard and IO.
I have designed it so that the motherboard sits in a case and is cooled by fans always-on at a constant rate to keep the conditions similar during all tests. System and CPU power measurements are now digitally logged. The latest M. I have decided to change how I do the overclocking section and determine exactly what it takes to push to the CPU to this maximum stable frequency on the different motherboards I test.
It’s good because the motherboard won’t auto-increase voltages without you knowing exactly what is being set, but it does mean you will have to dial in voltages yourself. For rough estimates, you can use the same voltage levels I spelled out in my X OC guide, as the same voltages seem to do the same things on both CPU generations. I did not gain much from increasing the VL voltages for the extra pins. I was able to easily pull off a 4. The second kit for memory compatibility testing is the G. I have decided to test motherboard performance based upon a standardized 4GHz profile for the new X99 refresh motherboards.
The base frequency of the X is 3GHz, but the XPhoenix SLI does have multi-core enhancement enabled by default, meaning it will boost most of the X’s cores to 4GHz, which makes it a bit faster than most boards at stock. So I have tested it against other motherboards at 4GHz on all cores with my standard profile.
It can handle both M. Wireless performance is also quite good. I disable all audio features, set the correct bitrates, and then test the audio with a loopback test. Sound Judgment by Ear: Excellent, high-quality audio. There are five ratings for audio: 1. Problems, 2. Okay, 3. Acceptable, 4. Very good, 5. CPU power is measured through the 8-pin connector, which is hooked up to a hall effect IC, which measures current and puts out a voltage in proportion to the current.
Note on Thermal Images: In the temperature section, we use our Seek thermal imaging camera to capture the surface temperatures of major components on the board. I look at the VRM and then all other things that light up the screen. If there is something to worry about, then I will state it. Otherwise, I will just show the hotter running parts of the board for fun. Unless some component is over C, then there isn’t anything to worry about.
All systems will act differently, so I will look for commonalities, such as how far from the VRM the heat spreads through the PCB and the difference in temperature between the front side and backside of the PCB. A larger difference in temperature between the back and front of the PCB points towards a more effective heat sink. The image on the left is always at idle, and the image on the right is at load. What impressed me was the VRM cooling, temperatures on the rear during load were consistently lower than those on the front side, indicating that the heat was being drawn away from the PCB through the heat sink.
Anything under 60C is great, C is acceptable, and anything above 80C is a bit worrisome if at stock. The mixture of neon colors and white is visual bliss, at least in my opinion. I have seen a few other motherboards have similar spacing, but they usually end up having issues with covering up the bottommost motherboard headers with three cards, but that is not the case with the XPhoenix SLI.
The third card won’t cover the headers if it is a normal double slotted GPU. The same cannot be said about many other motherboards, which will sacrifice one high bandwidth feature for another. Intel’s USB 3. Like many others, I install the least amount of software possible to avoid conflicts; with the new UEFI fan control, there is little need to set the fans through a Windows based application, which is a great thing.
However, there are M. From the ashes, the Phoenix shall rise. All the latest connectivity features: check. They have totally revamped their lineup for the better and created a product that can provide a solid experience and excitement.
I was also impressed with the IO performance, especially considering all the high bandwidth IO ports can operate simultaneously. You lose almost no features because you are using another feature, something that a lot of X99 motherboard suffer from. United States: Find other tech and computer products like this over at Amazon.
United Kingdom: Find other tech and computer products like this over at Amazon. Australia: Find other tech and computer products like this over at Amazon. Canada: Find other tech and computer products like this over at Amazon. Deutschland: Finde andere Technik- und Computerprodukte wie dieses auf Amazon. Steven went from a fledgling forum reader in to one of the internet’s brightest tech stars by Armed with an information systems degree, a deep understanding of circuitry, and a passion for tech, Steven handle Sin enjoys sharing his deep knowledge with others.
Steven details products down to the component level to highlight seldom explained, and often misunderstood architectures. Steven is also a highly decorated overclocker with several world records. Socket LGA Read about TweakTown’s awards! Steven Bassiri Steven went from a fledgling forum reader in to one of the internet’s brightest tech stars by If any company representative wishes to respond, we will publish the response here.
Please contact us if you wish to respond. Newsletter Subscription.