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1. #Asus express gate motherboard install
2. #Asus express gate motherboard update
3. #Asus express gate motherboard driver
4. #Asus express gate motherboard full

Even though such updates gradually enhance functionality of this built-in operating system, users cannot customize this shell (add favorite programs, change themes, etc.) For two, Splashtop configuration is limited so far (you can only change screen resolution and configure your LAN connection).

#Asus express gate motherboard update

For one, only ASUS can update Splashtop so far. Techies adore gimmicks, but we cannot take functionality of this solution seriously. It's an operating system with severely limited features (bought from DeviceVM), which offers several basic functions: view photos from flash drives or HDD, browse Internet, communicate in IM (except for ICQ) and Skype networks.

You make the choice right at startup (you can use the mouse). Express Gate technology consists in loading a special Splashtop shell in no time (based on Linux) instead of the main OS. As the title implies, it uses an integrated flash drive of 512 MB to store a bootup image.

#Asus express gate motherboard full

In this case we deal with the full implementation of this technology (Express Gate SSD). Like all latest products from ASUS, this motherboard features the Express Gate technology - you might have already read about it in our articles. Efficiency of this solution aside, we'd like to complain that the bridge Heatsinks are secured with usual plastic latches, even though these very components need really tight contact with the chipset! It's incredible that good fitting of on-board Heatsinks is still used only by several models for overclockers: only few users will change thermal grease on a regular basis, of course, but the normal hold-down pressure will still provide good cooling efficiency. In our opinion, the layer of thermal grease is too thick, but it should provide normal heat exchange with time. As these plates are pressed tight to the PCB, this technology improves temperature conditions of the board in its hottest part (plus Stack Cool 2 - metal layer on the back side of the PCB). The motherboard has another peculiarity that has to do with MOSFET Heatsinks: they are not mounted in a usual way (plastic latches on the PCB), they are screwed to aluminum plates on the back side of the board. However, ASUS recommends active cooling only if the CPU cooler does not generate air flows near the processor socket.

#Asus express gate motherboard install

Upper fin-stack configuration of these Heatsinks allows to install proprietary coolers - in this case one comes in the bundle. And in its turn, the NB Heatsink uses two heat pipes to connect to one of two additional Heatsinks on MOSFETs and the CPU power circuit. The motherboard uses the classic chipset cooling system: a Heatsink on the Southbridge connects to the Heatsink on the Northbridge (possessing larger heat exchange surface area) with a copper heat pipe. However, lower requirements of power circuit components to cooling did not bring about a cheaper design of this important (especially for overclocking) element. The choice of other electronic components is also praiseworthy: the voltage regulator of the processor incorporates low R DS(on) field-effect transistors the board uses only high quality conductive polymer capacitors from Fujitsu and ferrite core chokes. Moreover, memory and chipset VRMs are dual-channel solutions (engineers had to modify the usual layout of memory slots, as they had to arrange chokes of the VRM) - it's not a unique solution anymore, but it's still a sign of an elite product.

#Asus express gate motherboard driver

For one, top ASUS P5Q motherboards break a new record in the number of phases in the VRM: 16! In this case we can see 16 sterling phases with an individual driver and two field-effect transistors in each, which must provide exceptionally high efficiency of the VRM and lower operating temperatures. The reason for this unusual layout of memory slots becomes clear after an inspection of the voltage regulator - that's what ASUS can be really proud of. Motherboard dimensions - 305x245 mm (full-size ATX), nine screw mount, all edges of the motherboard are fixed. Also note that both PCI slots are sure not to be blocked by large expansion cards.

Slots for graphics cards are moved to the edge of the board - that's very good, because the upper slots always remain unblocked. The board contains two PCI and two (three actually) PCIEx1 slots - the outermost PCIEx16 slot automatically becomes the third one (you can also install PCI-E expansion cards of any format into this slot), but it switches to the x1 mode when any PCIEx1 slot is used. Even if you install various large components, you just risk blocking one SATA port (the other ones are either removed out of the graphics cards' way or tilted). However, despite the unusual exterior, this PCB layout does not make the assemblage more difficult. We've noticed several peculiarities of the PCB layout at first sight: relocated memory slots (relative to their usual position), the on-board cooling system, the set and arrangement of expansion slots and SATA connectors.