With the release of the NVIDIA GTX 1080 Ti and AMD Radeon RX Vega, gamers and hardcore enthusiasts alike can expect high-quality graphics to remain a top priority for PC gaming. The GeForce GTX 1070 offers fantastic performance at an affordable price, while cards like the AMD Radeon RX 480 offer superb value too.

The “cheapest 4k 60hz graphics card” is a category of graphics cards that are designed for use with 4K monitors. These cards typically have the ability to run at 144 Hz.

If you’ve chosen a good 144hz display, you need also evaluate if your PC or graphics card can support a frame rate of up to 144 frames per second in computer games or, in the case of a 4K monitor, this resolution. If this isn’t the case, we’ll gladly assist you in selecting the best graphics card for your gaming display!

The list of the top Graphics Cards for 1440p / 4K displays and 144 fps gaming can be seen above. Below are the Graphics Card Minimum Requirements for 1440p / 4K displays / 144fps, as well as an in-depth study of each Graphics Card in the ranking.

Graphics card (GPU) minimum requirements for a 144Hz monitor:

The graphics card must be capable of a particular number of frames per second in order to justify the purchase of a 120hz / 144Hz display. As a result, as long as the FPS figure stays over 60 frames per second, the monitor offers you an edge. The gaming graphics card should be capable of 144 frames per second on average.

  • At least 6 GB of graphics RAM is required.
  • GTX 1060 or above (Nvidia) model

Graphics device (GPU) required for 1440p / 4K monitors:

The current maximum for typical 1440p / 4K displays is 60 Hertz. However, PCs with 4K displays demand a significant amount of processing power, necessitating the use of a powerful graphics card.

  • At least 6 GB of graphics RAM is required.
  • GTX 1070 or above (Nvidia) model

EVGA GeForce RTX 2080 Ti OC comes in first.

  • Best 144 Hz Gaming Performance
  • Very Quiet
  • Potential for Extreme Overclocking
  • Great performance comes at a price.

Please, one of the all-inclusive, worry-free packages! The GeForce RTX 2080 Ti may be used as a standard graphics card, but there are some variations that are packed with extra features and wish to give the most factory overclocking possible. One such model is the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming, which we’ll be looking at right now.

The beginning of the GeForce RTX cards may still be classified as rocky. The GeForce RTX 2080 Ti continues to be hard to come by. The mystery of the card’s allegedly greater failure rate remains unresolved. The GeForce RTX 2080 can’t beat a GeForce GTX 1080 Ti without RTX features in games, and the GeForce RTX 2070 is still too pricey for many beginners – not to mention the games’ lack of RTX and DLSS features.

There are no changes between the GeForce RTX 2080 Ti variants in terms of architecture. The Turing architecture-based TU102 GPU has 4,352 shader units, 68 RT cores, and 544 tensor cores. The graphics memory is 11 GB GDDR6, and it is linked to the computer through a 352-bit wide memory interface. The memory bandwidth is 616 GB/s at 1,750 MHz clock speed.

When you compare the models, you can see how different the clocks are. The GeForce RTX 2080 Ti’s base models have a boost speed of 1,545 MHz, while the Founders Edition has a boost clock of 1,635 MHz. In terms of clock speed, the difference between the low-end versions and the high-end variants is extremely minor. At least 1.755 MHz should be used by the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming. Although it depends on which boost clock can be sustained above the minimal requirements, this is much higher than an ASUS ROG Strix GeForce RTX 2080 Ti OC with 1.665 MHz in OC mode. On the following page, we’ll look at this in detail.

The thermal design power is 300 W, according to EVGA. This is the standard power objective, which may be boosted to 373 W by 24.3 percent. As a result, the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming offers a lot of flexibility.

Hardware and design


As a triple-slot slot card with a length of 305 mm, the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming goes beyond all dimensions. EVGA has fitted a triple-slot bezel on the cooler, however it still has a height of 2.75 slots. As a result, you should have enough room in the case to fit the card.

The GeForce RTX 2080 Ti FTW3 Ultra Gaming has a boost clock of 1,755 MHz, according to EVGA. In actuality, we witness clock speeds of far above 1,900 MHz – specifically, 1,950 to 1,965 MHz. The clock, on the other hand, sometimes slips below 1.950 MHz. Overall, this model is the quickest GeForce RTX 2080 Ti we’ve been able to test in terms of clock rate.

The iCX2 cooler for the GeForce RTX series has been considerably improved by EVGA. In this type, there are three axial fans. The current series is known for its semi-transparent fan bezel. EVGA also has some customization choices, which we’ll go over later. When the connections on the PCI Express interface are proportioned, the measurements of the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming become obvious at first look – both in length, height, and thickness.

EVGA applies a backplate that covers the whole PCB on the backside. EVGA includes minor apertures to avoid heat collection instead of a totally closed backplate. The backplate does not need to be illuminated for EVGA.

The EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming has three axial fans, each with a diameter of 90 mm. These revolve at 1,850 revolutions per minute when loaded. EVGA can also manage the three fans differently thanks to the iCX2 sensors.

When the GPU temperature drops below 44 °C, the fans are turned off. Individual control, on the other hand, allows the fans to be turned off at a later time. The fans kick in at a GPU temperature of 56 °C and deliver fresh air.

A peek at the cooler’s front side reveals its huge height. It takes up 2.75 spaces in total. The fans’ semi-transparent surface is coated with thin aluminum with the EVGA logo and model name etched on it. Because there are LEDs below, both light up brightly while in use.

Power is provided not only by the PCI Express slot, which has a theoretical capacity of 75 W, but also via two 8-pin connections, each with a 150 W capacity. This seems to be “stitched on edge” with a maximum power objective of 373 W. However, you should be aware that the PCI Express connections, in particular, can take much more than the 150 W mentioned in the specs, and may also deliver depending on the power supply.

The EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming has an NVLink interface with two connections, much like every other GeForce RTX 2080 Ti. This allows for a 100 GB/s bandwidth, albeit it is not presently utilized with GeForce GPUs. The NVLink interface, on the other hand, enables two of these cards to be utilized in SLI.

A switch labeled “Normal” and “OC” can be seen next to the extra power supply. The switch, according to EVGA, should enable users to select between various fan curves. However, in our situation, the fan curves were identical in both circumstances. A request to EVGA for information on the switch’s specific function is presently being processed.

The PCB and cooler are somewhat shorter than the cooler’s cover, according to the back end of the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming. Some of the built-in heatpipes come to a halt here as well. Also visible are various header connections, which may be utilized to attach and operate a case fan, for example. The RGB lights may be controlled in the same way.

A closer look at the cooler’s lid reveals the semi-transparent plastic design and metal inserts once again. The new style will not appeal to everyone, and the plexiglass will scratch easily.

With a height of three slots, the slot bezel is undoubtedly unique and has never been utilized in this way before. EVGA, for example, does not utilize the extra room to vent out heated exhaust air, instead closing the metal screen for the most part. At the display outputs, there are three DisplayPort 1.4 ports and one each for HDMI 2.0b and VirtualLink.

Ports and Components


The cooling on the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming is impressive. Let’s take a closer look at what’s going on behind the hood.

Of course, we took advantage of the opportunity to remove the cooler since EVGA has designed its own PCB, which should enhance the GeForce RTX 2080 Ti’s already excellent power supply in the NVIDIA standard design. The PCB, like the cooler, has enormous size.

The TU102-300A-K1-A1 is utilized as the GPU. This GPU has a total of 18.6 billion transistors on 754 mm2 and is consequently NVIDIA’s biggest and most sophisticated consumer GPU. On 11 of the 12 slots, EVGA employs GDDR6 memory chips. To maintain signal runtimes as comparable as feasible, they should be located as near as possible to the GPU and at the same distance from it.

For the supply of GPU and GDDR6 memory, EVGA supplies a total of 19 voltage phases. Six of these voltage phases are on the GPU package’s left side, while the other 13 are on the right. The memory is handled by three phases, while the GPU is handled by the remaining 16. These are 16 dual FETs, not 16 independent phases, since two phases are always controlled by a doubler. Although the increased number of voltage phases does not immediately result in increased overclocking or overclocking potential, the waste heat from the power supply is divided across 19 rather than 10 phases, making waste heat dissipation simpler.

The EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming’s controller and measurement circuitry are located on the rear of the PCB. However, behind the 8-pin connections, you can see how much space is available on the PCB. However, incorporated in the PCB are thick and hence enormously increased conductor pathways.

Each of the power supply’s inputs is monitored, including the PCI Express slot and the two 8-pin connections. EVGA does this by using three shunt resistors to check the current flow across the three inputs. Shunt resistors may be found in the centre of the photo as green SMT components.

We may now examine the two header connections without the built-in cooler. The RGB control pins are visible on the right, while the extra fan connection is visible on the left.

Returning to the PCB’s measurements, let’s have a look at the NVLink connection region. The 13 voltage phases to the right of the GPU package are stacked on top of each other using the height of the PCB. This should allow the GPU to be supplied more uniformly during the various stages. As a result, there is plenty of room on the PCB for other components.



Now we’ll take a deeper look at the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming’s cooling system.

Some heat conduction pads can be seen on the rear of the backplate. Waste heat, which is also present on the back of the PCB, should be dissipated more effectively with these. So the backplate has a cooling impact, but it’s impossible to say how great that effect is. At the very least, EVGA makes an effort to avoid heat buildup.

The actual cooler is made of a nickel-plated solid copper block. This block is only occupied by the GPU. The waste heat is dissipated and sent to the huge aluminum heat sink through seven heatpipes. EVGA wants the surface area to be greatly expanded with the height of 2.75 slots, which should improve overall cooling.

The waste heat is routed via two heatpipes in the front and five at the back of the heatsink. Because there isn’t enough room to run the heatpipes through the cooler itself, EVGA flattens them and connects them directly to the metal heatsink at the front.

A front plate is used by EVGA to cool components such as the GDDR6 memory chips and portions of the power and voltage supply on the front side. Thermal pads are on both the front and rear of the front plate to provide the finest possible contact.

Aside from thermal pads, EVGA employs a thermal paste for the VRMs and a heat pipe for improved waste heat dispersion.


Some EVGA GeForce RTX cards may be customized using accessories from EVGA. We’ll also take a look at the so-called Trim Kits. EVGA also provides a Shield, which covers the front of the card, in addition to the Trim Kits.

We’ll start by mounting the shield. To do so, we’ll use the provided tool to loosen four screws on the front and four more on both sides of the board.

The shield, which covers the front of the card, may then be attached. The shield is constructed of aluminum and costs $30 from EVGA. We found no evidence of a detrimental impact on the cooling performance of the GPUs. The impact should be minor anyhow due to the shield’s tiny webs.

Trim kits in the hues red/black and red/white are available. EVGA’s web store sells them for $23 apiece. The EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming has dark components built in. The red and white color versions were then put on the card. To do so, we secured it from behind into the cooler’s lid before tightening the lateral screws that had previously been unfastened.

At first glance, the white trim kit has little impact, which is most likely owing to the mounting shield.

The white Trim Kits give extra light output when fitted and the light is turned on. As a result, the lighting effects become more powerful.

As a result, we installed the red trim kits, and the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming now has a dramatically different appearance.

The colorful light is “blocked” by the red Trim Kit. However, with red LEDs, they blend in well with the overall design of the card.

Finally, we’ll take a look at EVGA’s Precision-X1-Tool. The card’s most significant functionalities may be handled using this tool. The GPU and memory clocks, as well as the power limit, fan speed, and temperature constraints, may all be tweaked. There’s also automated overclocking using NV scanning, as well as the ability to tweak fan curves and much more.

Noise levels, temperature, and performance are all factors to consider.


The EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming may be deemed quiet in idle mode since its fans are entirely turned down. It is the quietest variant of the GeForce RTX 2080 Ti that has passed our testing so far, with a noise level of 41 dB(A) under load.

The overclocked GeForce RTX 2080 Ti versions smash through all boundaries in terms of overall system power consumption. The EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming is no exception. In terms of hardware, a larger power consumption buys 98 percent of the performance improvement of the cards. The laws of physics can’t be disobeyed. However, we’ve seen variants of the GeForce RTX 2080 Ti drain far more power.

When the card’s power usage is measured, a similar pattern occurs. The power supply for the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming is 308.3 W.

The GPU temperatures of the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming are low in both idle and load mode. 61 °C under load is an excellent performance.


The EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming is said to provide perfect overclocking conditions thanks to its massive power and voltage supply and superb cooling. Meanwhile, it has been shown that the GeForce RTX cards have a sound barrier that everyone travels through.

We increased the power limit to +120 percent, cranked up the cooling, and then ran the NV scanner on the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming. This achieved a maximum clock rate of 2.065 MHz, but that wasn’t enough for us. As a result, we manually turned the clock screw until we reached a maximum boost clock of 2.145 MHz. The GDDR6 memory was run @ 2,000 MHz.


Models like the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming are in the latter stages of development among the air-cooled cards. It is unlikely to be doable based on the PCB and cooler measurements. There isn’t much more that can be done in terms of clocking. Only ZOTAC is currently testing a clock setting of greater over 1,800 MHz. However, these specs are basically useless; in the end, it’s all about the cooling and the power limit requirements.

With the GeForce RTX 2080 Ti FTW3 Ultra Gaming, EVGA excels in this area. The GPU can’t go much hotter than 61 degrees Celsius thanks to the cooler. The temperatures increase again only when the user adjusts the power limit, voltage, and clock screw. While the VRMs remain cool, the GDDR6 memory chips get much warmer. Strong overclocking raises the temperature to slightly above 90 °C. However, such temperatures are unaffected.

This allows the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming to maintain a boost clock of 1,950 MHz and higher. As a result, it is the quickest GeForce RTX 2080 Ti we have tested thus far. However, the gaps between the cards might be rather short at times. We can get a few extra frames per second, but the player won’t notice.

We’ve previously discussed the excellent cooling, which not only maintains low temperatures but also operates silently. 41 dB(A) is just a strong argument for the card with the provided performance while it’s under stress. In idle mode, the fans come to a complete stop. The card buys performance at the cost of increased power consumption, but if you’ve already spent $1400 on a graphics card, you shouldn’t be concerned about an extra 40 to 50 W.

Apart with performance and measurements, the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming has a few more features. The fan connection, for example, enables for the regulated functioning of a case fan. The optics, which can be tweaked using the trim kits and shield, are very intriguing. When purchasing the card via EVGA’s online store, a trim kit is included, which allows for at least minimal customization.

The three-year guarantee from EVGA is also worth highlighting, and the company is recognized for its excellent customer support on the forums.

Overall, the EVGA GeForce RTX 2080 Ti FTW3 Ultra Gaming is the finest Graphics Card for 144Hz Gaming with 1440p / 4K Monitors, thanks to its outstanding performance.


Sapphire Nitro+ RX 5700 XT is ranked second.


  • Excellent performance on 4K monitors and in virtual reality
  • Silent
  • Exceptional Value
  • Overclocking is not recommended.

The first batch of AMD navigation map custom models is now available. However, we haven’t gone through all of the most essential models yet. The Sapphire Nitro+ Radeon RX 5700 XT, according to numerous suggestions, is one of those models that you should check at. While the performance is almost comparable on virtually all cards, the cooling is becoming more important. The following pages include a thorough analysis of the Sapphire Nitro+ Radeon RX 5700 XT.

After NVIDIA’s recent struggles with some amazing models in between, we’ll be focusing on an AMD GPU model today. The Sapphire Nitro+ Radeon RX 5700 XT has previously excelled in a number of tests, and now it’s our turn. AMD has left some flexibility for its board partners with the standard version of the Radeon RX 5700 and Radeon RX 5700 XT. Sapphire, among others, wants to make the most of this opportunity with this model.

So now comes the Sapphire Nitro+ Radeon RX 5700 XT, which, like all other Radeon RX 5700 XTs, employs the Navi-10-GPU with 2,560 shader units in the expansion stage. There are 40 Compute Units (CU) available, with 64 shader units per Compute Unit. These are structured somewhat differently from the GCN design (Graphics Core Next), but we went over this in depth in our discussion of the RDNA architecture.

In a nutshell, AMD has the ability to integrate two CUs into a single workgroup CPU. This makes sense if certain tasks were previously divided between two CUs but can now be handled more efficiently in a single CU.

We observe 64 render backends due to the memory connection (ROPs). The ROPs are accompanied by a memory interface with a width of 256 bits, which is similar to that of the ROPs. This refers to the 8 GB of GDDR6 memory found in eight memory chips. The memory operates at 1,800 MHz (14.4 GBit/s per pin), resulting in a memory bandwidth of 460.8 GB/s. There are 160 texture units in the Sapphire Nitro+ Radeon RX 5700 XT.

The number of Radeon RX 5700 XT versions with a boost frequency of more over 2,000 MHz is very small, ranging from a dozen to a few hundred. The Sapphire Nitro+ Radeon RX 5700 XT is in excellent company, with a boost clock of 2,010 MHz.



Let’s move on to the Sapphire Nitro+ Radeon RX 5700 XT’s initial technical specs, which do not include the GPU or RAM.

Because the card is 300 mm long, you should make sure that there is adequate room in the case. Because the PCB is 260 mm long, the cooler is somewhat longer. The cooler’s height is 2.5 slots, which isn’t a major deal given how seldom extra cards are needed in modern systems. Sapphire is clearly dimensioning the active and passive cooling components as big as possible, since the three fans have a diameter of 95 mm. When the GPU reaches 50°C, the fans turn off.

When you consider the temperatures, the coolers’ potential becomes clear. A GPU temperature of 70 °C is a favorable indicator, and the edge temperature of 85 °C is likewise pleasingly low. In certain games, we only hit boost clocks of 2.000 MHz or more for a brief period. The Sapphire Nitro+ Radeon RX 5700 XT’s GPU is clocked at 1.950 MHz on average for the BIOS, which sets a power limit of 225 W. It is 200 W in the second BIOS, which is still 15 W greater than the reference version.

The OC-BIOS was used for all benchmarks.



The Sapphire Nitro+ Radeon RX 5700 XT seems to have a simple design – at least when it’s not connected into a slot. The Octagone, which we see on the cooler, is part of Sapphire’s current design language for the Nitro series.

The backplate of the Sapphire Nitro+ Radeon RX 5700 XT follows the frontplate’s design and goes a step further. The silver is broken up by black stripes. As soon as the card is switched on, the Nitro logo is RGB lighted. You can also observe that the cooler is significantly longer than the PCB on the right.

Each of the three fans has a diameter of 95 mm. This gives them a relatively big diameter, which is found at the top portion of a graphics card’s fans. The fans turn on at 52 degrees Celsius and turn off at 50 degrees Celsius.

A Sapphire logo appears on the front of the Sapphire Nitro+ Radeon RX 5700 XT, which, like the Nitro logo on the rear, is lighted by RGB LEDs. In a minute, we’ll take a look at how this works in practice.

The extra power connectors are located on the rear end of the card. For a Radeon RX 5700 XT, two times 8-pin should be more than plenty. This alone may theoretically provide 300 W to the card. The new connections already meet the need, since the card’s maximum thermal design power is 265 W.

At the back of the card, the cooler’s additional length is readily evident. Sapphire preserves a section of the backplate here on the backside, allowing a piece of the air driven through the cooler by the rear fan to escape.

The BIOS switch is just across from the slot bracket. You may choose between the two UEFI versions here, which not only provide a quick update but also enable the card to operate in various modes.

The slot bracket houses the display connectors. Sapphire employs two HDMI 2.0b and two DisplayPort 1.4 connectors, but there’s not much more to mention at this stage since the connections work with all contemporary game displays.

When the Sapphire Nitro+ Radeon RX 5700 XT is plugged into a PCI Express slot and turned on, the entire RGB splendour of the Sapphire Nitro+ Radeon RX 5700 XT is revealed. On the front, in the transition to the backplate, and on the backplate itself, there are lit components.

Noise levels, temperature, and performance are all factors to consider.


In terms of volume, the Sapphire Nitro+ Radeon RX 5700 XT is already impressive. The fans are at a stop in idle mode from 50 °C and lower in either direction, but we’re also talking about an incredibly low sound level under load. The performance of a Radeon RX 5700 XT is paired with a low overall loudness as much as feasible here.

The Radeon RX 5700 XT models can’t quite keep up with the amount of power consumption that they planned to run at. The cards rapidly allow themselves a little more, especially when the makers try to squeeze a little more out of the hardware.

The Sapphire Nitro+ Radeon RX 5700 XT is not very energy efficient, drawing 241 W. A few watts can be saved using the alternate BIOS and a GPU power of 200 W, but performance suffers as a result.

The temps do not seem to be a concern. The cooler on the Sapphire Nitro+ Radeon RX 5700 XT has little trouble keeping all components at safe temperatures.


The Sapphire Nitro+ Radeon RX 5700 XT is one of, if not the finest, navigation models available today. However, on the quickest maps, the air is incredibly thin, resulting in relatively short distances. Nonetheless, this model offers the best performance for a Radeon RX 5700 XT while also providing excellent cooling.

The Radeon RX 5700 XT is a 1440p card that can compete with the GeForce RTX 2070 Super and, on occasion, the GeForce RTX 2080 Super in terms of performance. NVIDIA continues to lead in the extreme high-end category, and no Sapphire Nitro+ Radeon RX 5700 XT, no matter how excellent, can alter that.

Returning to the good characteristics, they may be found in the cooling system, in addition to the performance. The cooler on the Nitro+ Radeon RX 5700 XT keeps both the RAM and the GPU cool. Although some cards reach 70°C for the GPU, none of the Radeon RX 5700 XT models do, particularly when compared to the offered performance and notably the volume.

We didn’t overclock the Sapphire Nitro+ Radeon RX 5700 XT or, more accurately, we didn’t take a closer look at it. We were able to raise the GPU frequency by 30 to 50 MHz, and the GDDR6 memory by 250 MHz, but there’s limited room for overclocking since the card’s boost clock is nearly totally exhausted in the default settings.

The Sapphire Nitro+ Radeon RX 5700 XT provides a unique option to operate the card in a more efficient operating mode thanks to the alternate BIOS. Although the required settings may be adjusted manually, anybody can quickly and simply switch to this mode using the pre-defined BIOS.

For others, the sophisticated RGB lighting is also a feature that impacts their buying choice. Sapphire provides the largest range with lighting on all significant sides of the map, in a sense. Even LED fans, which Sapphire provides, would be an option.

We offer the Sapphire Nitro+ Radeon RX 5700 XT the Excellent rating and hence second place in the top Graphics cards for 144Hz Gaming and 1440p / 4K displays due to the many excellent characteristics, notably the performance in conjunction with the loudness. It also won our ‘Best Pricing’ award in this test owing to its very cheap price.


ASUS GeForce RTX 2070 Super OC is ranked third.


  • Good 144 Hz gaming and VR performance
  • Several Ports
  • a reasonable price

The Geforce RTX 2070 is Nvidia’s most affordable (or rather, least priced) Turing graphics card. It is quicker and more cost-effective than a Geforce GTX 1080 or Vega 64, and it costs around the same depending on the model. We put two Geforce RTX 2070 models from Asus and MSI to the test.

Nvidia has released the Geforce RTX 2070, a third graphics card based on the Turing architecture after the Geforce RTX 2080 Ti and the Geforce RTX 2080. In contrast to the two top models, the lesser branch is less expensive, more widely accessible, and, above all, more cost-effective: We put an overclocked one from Asus and a standard-frequency one from MSI to the test and came up with a definite recommendation.

The Geforce RTX 2070 is built on the TU106 chip, but the 106 offshoots are often utilized for models such as the Geforce GTX 1060 – easily one or two price categories below the $520, which is at least due for a Geforce RTX 2070.

The TU106, with its 445 mm2 surface area and 10.8 billion transistors, is already considered a high-end CPU by prior standards, rather than a midrange CPU. The Geforce RTX 2070’s TU106 is a complete version, which means it contains 2,304 shader units, a 256-bit interface, and 8 GByte GDDR6 memory.

Nvidia, on the other hand, distinguishes between a TU106-400-A1 and a TU106-400A-A1: The former is for graphics cards that follow the standard requirements for clock speed and power dissipation, while the latter is for devices with a faster clock speed and more board power.

As a result, we used a TU106-400A-A1 in the Asus Geforce RTX 2070 Strix OC and a TU106-400A-A1 in the MSI Geforce RTX 2070 Armor. The A-chips are purportedly more overclockable, but Nvidia, in particular, allows for more liberal power goals through software, which is crucial for overclocking.

The Geforce RTX 2070 also speeds integrated raytracing effects in forthcoming games and masters inferencing, which is utilized for DLSS, thanks to the same architecture as the Geforce RTX 2080 (Ti) (Deep Learning Super Sampling).

Only Nvidia demonstrations are available, and no commercially published game supports such an implementation. Battlefield 5, a dice shooter with raytracing mirrors, will most likely be the first. It will be published on November 20th, 2018. At a later point, titles like Shadow of the Tomb Raider and Pubg will get additional RTX choices through a patch.

Design and Hardware


Asus has positioned the Geforce RTX 2070 ROG Strix Gaming OC above the Geforce RTX 2070 Turbo with DHE cooling, the Geforce RTX 2070 Dual, and the Strix without the OC suffix. The graphic card is 305 mm in length and features a 2.5-slot configuration. The three 90 mm fans in the background are mounted atop a strong cooler.

A little dip-switch near the I/O panel at the top of the board allows us to switch between performance and quiet-firmware. Both settings have low temperatures – we favor Quiet since the fans turn off in idle and the temperature is 66 degrees Celsius under 4K gaming load.

The red lights surrounding the propellers are deactivated via a little button next to the firmware switch, as is the red ROG logo on the reverse. The Aura-Tool controls the light effects. The backplate is mostly for stability rather than cooling, particularly because the GDDR6 memory is located on the front.

Asus has both an 8-pin and a 6-pin connection, allowing for a power objective of more than 215 watts. The board has voltage monitoring points for the GPU, RAM, and PLL, as well as two plugs for case fans.

On the connecting side, the Strix features two DisplayPort 1.4, two HDMI 2.0b, and Virtual Link through USB-C. The latter is compatible with VR headsets, 4K screens, and, amusingly enough, external SSDs, as well as charging cellphones. For the Asus card, there is a Windows utility called GPU Tweak II that allows users to pick the OC mode.

The RTX 2070 thus uses a nominal boost of 1.845 MHz instead of 1.815 MHz, increasing the power goal by 10%. In actuality, we observe 1.925 MHz rather than 1.890 MHz, therefore the difference is insignificant and there is no discernible increase in power.

With 300 mm, MSI’s Geforce RTX 2070 Armor is just shorter than Asus’ Strix, but it is shockingly tall with 135 mm. MSI uses a 2.5-inch configuration as well, but instead of three 95-mm idle-stopping fans, there are just two. There’s also a backplate with an 8-pin as well as a 6-pin connection, albeit an 8-pin connector would enough for this graphic card.

The connectors consist of two DisplayPort 1.4, two HDMI 2.0b, and Virtual Link. The MSI logo comes in a variety of colors, which may be customized using the Mystic Light tool in Windows.

In boost mode, MSI claims the Armor runs at 1.620 MHz; we tested 1.780 MHz at 63 degrees Celsius. Because the Asus Strix has the same memory bandwidth as the Asus Strix, the GPU frequency is what separates the two graphics cards. Both variants outperform a Radeon RX Vega 64 or a Geforce GXT 1080 in the Founder’s Edition.



We utilize a Z370 board with a Core i7-8700K (test) and 16 GByte DDR4 RAM as a test setup for the Geforce RTX 2070. All games and Windows 10 x64 v1803 are installed on a Samsung PM981, however the current driver is Geforce 416.34. It includes enhancements for new games and lowers the RTX graphics cards’ idle power consumption as compared to the earlier Geforce 411.15.

In 4K and 1440p, the Geforce RTX 2070 ROG Strix Gaming OC is 17 percent quicker than a Geforce GTX 1080 Founder’s Edition, and hence much faster than overclocked bespoke designs. The MSI Geforce RTX 2070 Armor, despite its lower GPU clock rate, can still outperform Nvidia’s standard graphic card from the previous generation by 13%, putting it on par with different overclocking versions.

The difference between the Asus and MSI cards is about 4%, and the difference is hardly perceptible. Both Geforce RTX 2070s are capable of 1440p gameplay and, with some caveats, 4K resolution as well.

In idle mode, both graphics cards use about 12 watts, which is much higher than a Geforce GTX 1080 Founder’s Edition. The MSI Geforce RTX 2070 Armor hits 174 watts under 4K gaming load, making it more energy efficient and quicker than Nvidia’s standard design.

With 212 watts, the Asus Geforce RTX 2070 ROG Strix Gaming OC approves itself more, but the performance difference is minimal, as previously noted. Under load, both the Asus and MSI cards are quite quiet; even in the case, they don’t get noticeably louder. The fans have already turned off.

If you wish to overclock a Geforce RTX, you’ll need to think about the power goal and utilize Nvidia’s OC scanner, which is now incorporated into the Afterburner tool, for example. Both graphics cards contain GDDR6 video memory, which can support speeds of up to 8 GHz instead of the standard 7 GHz. The MSI card has a 114 percent power goal, can overclock to an acceptable 1.935 MHz, uses 195 watts, and is 11 percent quicker. The Asus model supports 120 percent, operates at 2.040 MHz @ 247 watts, and boosts performance by 4%.


The MSI Geforce RTX 2070 Armor, which operates on a regular clock, is nearly on par with an overclocked Geforce GTX 1080 in terms of performance — the cards have a comparable price-performance ratio.

The Asus Geforce Geforce RTX 2070 ROG Strix Gaming OC calculates around 4% quicker than MSI’s Armor, but at a far higher price. There is a new and definitely faster Geforce RTX 2080 with decent cooling for $50 extra, but such cards have less features.

The Strix has features like voltage monitoring points, fan connectors, and a dual BIOS, all of which are appealing. Even if the Armor card is already rather quiet, the Asus variant simply has more room for silent companions without exceeding the temperature threshold.

For entry-level costs around $550, the equivalent Geforce RTX 2070 is probably worth considering, particularly since the Geforce GTX 1080 is expected to be phased out shortly.

Aside from comparable performance, the RTX cards also offer raytracing and DLSS, albeit neither feature can be tested outside of tech demonstrations. Nonetheless, this Turing card is well worth the money, which is why it came in third place in our list of the best Graphics cards for 144Hz Gaming with 1440p / 4k Monitors.


The “4k graphics card non gaming” is a topic that has been discussed many times. The best way to find the right graphics card for your 4K monitor is to check what resolution you are looking at and if it’s 144 Hz or not.

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Frequently Asked Questions

Which GPU can run 4K 144Hz?

A: A GTX 1080 Ti is the best option.

Can 4K monitors run 144Hz?


Can the RTX 3090 run 4K 144Hz?

A: No, the RTX 3090 does not support 4K 144Hz.

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