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MSI GTX 970 Gaming 4G Review


MSI GTX 970 Gaming 4G Closer Look:

MSI starts with an all-custom PCB loaded with its latest MIL-STD-810G certified Military Class components to manage the power systems on the GTX 970 Gaming 4G for a strong base to build off of. An all-new Twin Frozr V cooling solution is brought to bare with a pair of 100mm TORX independently controlled fans that work to provide improved cooling without the associated noise penalties incurred with higher fan speeds. This Zero Frozr feature is highlighted before you even install the card with a removable label. Flipping the GTX 970 Gaming 4G over shows there is not a lot to see on the back side of the PCB, with 4GB of GDDR5 memory mounted on the GPU side of the all-black PCB.

Measuring about a half inch shorter than the GTX 980 Gaming 4G, this card is going to fit in the majority of chassis as long as the height of 5.5 inches is not a problem. At just under 1.5 inches thick, the card is still a dual-slot solution despite only being physically connected to a single PCIe 3.0 16x slot. The all-new Twin Frozr V shroud design is good looking, to say the least, with the red and black coloring. This color scheme allows the GTX 970 Gaming 4G to easily mesh stylistically with the latest Gaming series motherboards from MSI including the MSI X99S Gaming 9 ACK. The shroud features the MSI Dragon emblem, which lights up when the card is powered on. The Super SU heat pipe-based cooling design protrudes just over the top of the shroud, but does not detract from the images of the card; it further enhances the image.




Display connectivity on the MSI GTX 970 Gaming 4G is different from that found on the GTX 980 Gaming 4G, as it uses a pair of Dual Link DVI ports, a single HDMI 2.0 port, and a single full-sized DisplayPort 1.2 port. Adding an HDMI 2.0 port allows resolution up to 4K, supported natively with a refresh rate of 60Hz. The maximum resolution supported by the DisplayPort connection is 4096x2160 at 60Hz, while the HDMI 1.4/2.0 port can handle up to 3840x2160 at 60Hz and 4096x2160 at 24Hz.

There are a total of  four ports on-board that allow the end user to use any four of the connections simultaneously. Using the DisplayPort connectivity with a G-SYNC ready monitor, such as the ASUS ROG Swift PG278Q, will mean you can get all the performance potential that the GTX 970 Gaming 4G can deliver without the input lag or screen tearing you get when running with V-Sync enabled or disabled at refresh rates of up to 144Hz. The venting on the I/O plate looks like standard fare without any special treatments or logos. The back side of the card is open to allow airflow from the TORX fans to pass through the heat sink and exhaust around the card.



Power efficiency is one of the hallmark features of NVIDIA's Maxwell architecture. The 8-pin and 6-pin PCIe power connections are used to deliver up to 300 watts of power to the GTX 970 Gaming 4G when combined with the 75 watts delivered via the 16x PCIe bus. This current in-rush is managed via a 6+2-phase power delivery circuit using Military Class components. The rated TDP for the GTX 970 Gaming 4G is 146W. This low board TDP lets users with power supplies as low as 500 watts enjoy the graphics firepower the card can deliver. Of course, overclocking will indeed drive that power requirement up, but not enough to be the breaking point in the system. A feature implemented with the GTX 780 Ti is power balancing circuitry that ensures not one of the three power sources ( 8-pin, 6-Pin PCIe, and the 16x PCIe slot) will become overloaded by pulling power from a bus that has spare capacity versus one at the capacity limit. A pretty cool feature that can pay benefits when overclocking.

At the front end of the top of the PCB is a pair of SLI bridge connections, which, when coupled with a board that supports it, means up to three GTX 970s can be run in an SLI configuration. A bridge connection is still required to enable SLI with this generation of NVIDIA cards. Along the spine of the card is a brace that is attached to the VRM and memory cooling heat sink package and should prevent any trace damage due to board flex.



When you pull off the heat sink package, we can get down to the hardware level deployed on the card. MSI continues to use Military Class components that meet MIL-STD-810G, including: Super Ferrite chokes, which run up to 35 degrees Celsius lower temperatures and have a 30% higher current capacity; Hi-C Caps, which are small "super-efficient capacitors" that run at efficiency levels of 93%; and Solid Capacitors that provide lower Equivalent Series Resistance (ESR) over the rated 10-year lifespan of the parts.

As part of the Twin Frozr V cooling solution, there are additional heat sinks on-board to promote cooling the VRM circuit and memory modules. The memory module cooler doubles as a PCB support brace to eliminate trace cracking in the custom PCB due to physical stress. The bulk of the VRM package sits under the finned heat sink on the left-hand side of the PCB and is cooled by airflow that has passed through the aluminum fin array. The PCB layout on the GTX 970 Gaming 4G varies quite a bit from that used on the GTX 980 Gaming 4G. with the bulk of the 6+2 phase VRM taking up residence to the left side of the PCB.



The heat sink that makes up the most visible part of the cooling solution features what MSI calls a Super SU Pipe. This large heat pipe is shaped like a large 'S' that works its way through the front and rear of the aluminum fin array to transfer the thermal load from the Maxwell core to the large fin array. Three additional heat pipes wind through the contact plate to help transfer the thermal load to the aluminum fin array for a total of four heat pipes. While you might think that would be the end of the discussion, it's not. The fin array features air diverters that redirect airflow through the fin array to keep the airflow in the array longer, promoting improved heat transfer to the air passing through. The nickel-plated contact surface is smooth and looks free of any machining marks that would impact cooling performance.

But wait, there's more! The hybrid cooling fans consist of a pair of 100mm TORX fans that are independently controlled, giving the user the best of both worlds: great cooling performance with a low noise penalty. By using a large fan blade, you get up to 90% coverage of the heat sink for improved cooling. New dispersion blades for every other blade on the fan deliver reduced noise and promotes up to a 10% increase in cooling capacity at max fan speed. This design proved quite effective during my testing on the GTX 970 Gaming 4G.




MSI's version of the GTX 970 should prove to be a card that delivers fantastic performance thanks to its awesome cooling solution and robust clock speeds. MSI's Miltiary class hardware should deliver a steady flow of current to meet the demands of this factory overclocked GTX 970 and allow it to overclock well by comparison. Let's see what it will do when compared to the best cards on the market right now.

  1. MSI GTX 970 Gaming 4G: Introduction & Closer Look
  2. MSI GTX 970 Gaming 4G Closer Look: The Video Card
  3. MSI GTX 970 Gaming 4G: Specifications & Features
  4. MSI GTX 970 Gaming 4G Testing: Setup & Overclocking
  5. MSI GTX 970 Gaming 4G Testing: Metro: Last Light
  6. MSI GTX 970 Gaming 4G Testing: BioShock: Infinite
  7. MSI GTX 970 Gaming 4G Testing: Crysis 3
  8. MSI GTX 970 Gaming 4G Testing: Far Cry 3
  9. MSI GTX 970 Gaming 4G Testing: Battlefield 4
  10. MSI GTX 970 Gaming 4G Testing: Assassin's Creed IV: Black Flag
  11. MSI GTX 970 Gaming 4G Testing: Batman: Arkham Origins
  12. MSI GTX 970 Gaming 4G Testing: Unigine Heaven 4.0
  13. MSI GTX 970 Gaming 4G Testing: 3DMark
  14. MSI GTX 970 Gaming 4G Testing: Temperatures
  15. MSI GTX 970 Gaming 4G Testing: Power Consumption
  16. MSI GTX 970 Gaming 4G: Conclusion
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