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ASUS has a wide range of products, from hardware to routers and audio solutions. Today though, we’re taking a look at one of ASUS’ premier products: the ASUS HD 7970 DirectCU II TOP edition card. Keep reading what this beast of a card has to offer!

Introduction – ASUS HD 7970 DirectCU II TOP

The ASUS HD 7970 DirectCU II TOP edition is basically a very beefed up version of the HD 7970, similar to the review we did of the GTX 680 DCII TOP. In these versions, ASUS essentially takes the GPU and builds a whole new card around it. This allows them to take advantage of the ASUS VRM engineering and performance designs to make the card just that much better. By stacking a DirectCU II cooler on top of this, they can create an amazing card. The TOP also has some extra advantages going for it, such as specially screened GPUs pushed at a high overclock to ensure you get something special right out of the box.

The ASUS HD 7970 DirectCU II TOP came to market at around $449.99 when you could find it but these cards simply are not available from scouring online stores for available stock. One thing to note is that ASUS does offer a model with the exact same features as the TOP but with a slightly lower clock at 925MHz GPU clock for only $434.99 available on newegg presently which means if you dont need the upper echelon screening of the TOP model you can still find it readily available with an identical card for ten dollars less.

Key Features

Here we see a overview of the many key features that make a DirectCU II TOP Edition cards sop special. Well at least from the cooler point of view along with showing breakdown of how the whole DirectCU II system goes together. The breakdown really puts into perspective how much goes into just the engineering of the DirectCU II cooler and how it all integrates into making one functional and flat out awesome card.

SAP (Super Alloy Power)

ASUS has great pride in the components they infuse into their graphics offerings very much like the motherboards we have covered previously. ASUS has whats called SAP or Super Alloy Power which covers the components in the very VRM we are discussing. The components are hand picked for quality and performance based around not only power delivery but efficiency as well. The components in the SAP solution are super durable for a rated lifespan of up to 2.5x what reference cards would offer and also with the DIGI+ controller your talking ultimate precision which means better voltage stability, better overclocking potential and overall better power efficiency clock for clock. The SAP power components official rating for the SAP implementation is 45A per phase for 360A total power capability on the GPU alone whereas the reference you would have a max power handling of 300A, likewise memory tops out at 90A for the DCII variant which is 33% higher than the reference at 60A. This at the end of the day means that the power handling and to another token the overclocking headroom can be seen as quite a bit higher or even less load on components since the load on components will be even further away from their maximum loading limit.

Here we see the VRM Chokes, MOSFET/driver assemblies and the solid state caps which make up the SAP components, or to simplify, the super strong and efficient VRM. also here we see the SAP CAP or flat style caps at the rear side of the GPU location. These are placed to allow a quick boost of power to the GPU should a heavy load occur which will help with any possible voltage droops from a quick heavy load.

Here we have some good detailing directly from ASUS showing the improvement of the SAP choke component and how it is superior to other designs implemented presently. Other model chokes can make a whine or screeching sound due to the coil vibration, something we’re sure many enthusiasts and overclockers have heard before. The ASUS design has a sealed/filled core to inhibit vibration, which means noise free operation under extreme loading conditions. Another thing to remember is movement makes heat and friction, so less movement will mean cooler running components.

Here ASUS shows off its SAP selection for mosfet components. These are designed to not only be more efficient but also have a higher power handling capability which allows them to have extra head room for overclocking should you really want to push the limit. Also note the small package design of the SAP component as it is much smaller than the standard or generic mosfets used on some standard or reference model cards. This allows for a larger VRM design to fit into a smaller space so taht you can pack more punch without effecting the tight real estate within the chassis.

The SAP Solid state cap selection are japanese units with a much higher MTBF than what you may see on other designs. These units are designed to have a very high expected lifetime which allows users to rest assured that in their gaming rig these components should have a nice happy life with a evry low chance of failure for quite a long time. For those of us to like to throttle our cards and really put the squeeze on them, this means we have the capability built in as the components are solid and reliable and ready to take a pounding.

Here we see what makes the difference for the DIGI+ solution which has to do with the accuracy and efficiency of the Digital controller in comparison to the analog VRM control we see on many other solutions. This level of control allows for unprecedented voltage accuracy, along with lower signal noise and overall more overclockability due to the tighter stability offered by the DIGI+ digital controller.

DCII (Direct CU II)

ASUS DirectCU II coolers are the ASUS way of saying maximum cooling and plenty of quiet with one naming scheme. DirectCU II coolers are direct touch heatpipes to the GPU surface ensuring the heat is wicked away from the GPU and up into the cooling fin array as quickly as possible. From there the custom shrouded dual fans push air through the fins effectively but most important quietly to keep the GPU as cool as possible so hopefully it will never hit a temp to need a higher or noisier fan speed. The air pushing through the fin array also helps cool board components and the VRM cooler as well which is a nice little added bonus to this style cooler since we all know cooler components tend to run stronger, longer and with better efficiency.

AS you see above the heatpipes on this cooler are massive and they are configured in such a way that they maximize the cooling efficiency of the fan airflow from the DirectCU II Cooler.

VGA Hotwire

ASUS Introduced the VGA Hotwire functionality quite some time ago on the Rampage IV Extreme. It is designed to make hardware level voltage monitoring and adjustment much easier than what has been seen previously with usage of soldered trimmers.

ASUS places pin headers directly on the motherboard which allows simple plug in connectivity for the wiring going to the GPU. There are three connectivity points for three different voltages that can be monitored and adjusted.

VGPU

VMEM

VPLL

This allows pretty much the whole gamut of necessary adjustments for those looking to truly push the limits past what software can accomplish on their GPU without the hassle of trying to adjust trimmers with a screwdriver.

Here we see the attachment points for the VGA Hotwire on the HD 7970 DirectCU II card. These require some soldering on the card of the wires through the holes to allow connectivity of the VGA Hotwire feature. Also once those are connected there are 2 solder pads just next to the OVC connection which need to be shorted to enable the GPU Hotwire adjustment function.

NOTE: The VGA Hotwire function is a manual hardware level voltage control and is only recommended for advanced users, and usage of the function via soldering on the card most definitely will void any applicable warranties.

Eyefinity 6 Ready

The HD 7970 DirectCU II TOP edition card comes with dual DVI and quad DisplayPort connections for full Eyefinity 6 support which means from this single card you can have a massive panel array just waiting to blast you games to you in an insane surround or large scale environment.

Dust proof Fan Technology

You would think that by now everyone would know that one of the number one killer of a fan is the dirt and dust it comes into contact with. Many fans simply are not sealed in such a way that it can keep dust out and in many cases they are not sealed at all and you can see the sensitive winding area clearly exposed just by looking at the gap.

Here you can see that the ASUS solution is not just sealing the hub from dust but having 2 levels of sealing which means that over the lifespan of the cooler you can expect a much lower likelihood that you will get the grinding or simply the failing that you normally get from the unprotected fan as seen above.

We cannot count how many times we have had a perfectly good card or cooler just to have it become useless because the fan died.

GPU Tweak

ASUS offers its own software utility and its functionality has grown with generations just like the cards it supports. Of course the card can be overclocked but also voltages can be tweaked and within the GPU Tweak app we can even launch the GPU info utility which is a full custom version of GPUz. This is a really cool feature and a benefit especially to benchmarkers who we can definitely see using this card with some of the awesome tweaks we will discuss in the card overview.

There are many tools within the GPU Tweak menus some a little more hidden than others. First off directly form the GPU Tweak utility itself you can check for BIOS updates and even update from within the program. For anyone who’s ever updated a vBIOS before knows that having a tool that can do this in a mere few clicks is really handy.

The charts besides offering real time monitoring can also be setup to log thermals, voltages and clocks so that after benchmark or gaming runs you can see if there was any thermal issues or throttling that may have affected performance.

PCI-E Power LEDs

One really cool feature is that there are status LED’s on each PCI-E connector and these help you recognize that power is actively being sent to each connector of the card.

The dual greens seen above indicate everything is working well. However if the PCI-E cable is not active or is not installed at all, it will give you the red light which tells you something is wrong. We could definitely see some value in this when diagnosing multi card setups or even single card issues. A dead PCI-E power cable could cause you to pull your hair out without these kinds of indicators.

PCI Express Gen 3 Capable

ASUS wants to ensure everyone is aware that PCI-E 3.0 is here and ASUS is ready with not only cards such as this but boards to support it as well.