Nvidia GeForce RTX 2080 Ti
|Memory Clock||1750 MHz|
|Boost Clock||1545 MHz|
|Clock Speed||1350 MHz|
The GeForce RTX 2080 Ti is the third most respected GPU on the market, even if you're searching for a more powerful GPU or want to get a head start on Nvidia's vision of a ray-traced future. In terms of play, the Nvidia GeForce RTX 2080 Ti graphics card is still a beast. It adds great ray tracing technology and AI-driven Tensor cores to every graphics-intensive mission, and it can game at over 60 frames per second in 4K. It is unquestionably superior to its predecessor, the Nvidia GeForce GTX 1080 Ti.
If you'd like to play high-end games, you can't go wrong with the Nvidia GeForce RTX 2080 Ti. Particularly if you combine it with the best CPU and gaming display, which will allow you to get the most from it. With 11GB of GDDR6 VRAM equipping 4,352 CUDA cores and a maximum boost clock of 1,635MHz, the Nvidia GeForce RTX 2080 Ti has some impressive specifications.
It's all because of Nvidia's first-ever personality factory overclock of 90MHz. The Nvidia GeForce GTX 1080 Ti, on the other hand, has 11GB of last-generation GDDR5X VRAM, 3,584 CUDA cores, and a maximum bandwidth of 1,582MHz.
According to TechRadar, the RT and Tensor cores are two additional cores used in this GPU that its predecessors lacked. Ray tracing is allowed by the RTX 2080 Ti's 68 RT Cores, enabling this graphics card to make much more complex real-time lighting situations and natural shading than the 1080 Ti ever could.
The number 544 Tensor Cores introduces machine learning (AI), which Nvidia plans to improve anti-aliasing efficiency. Turing, according to Nvidia, is eight times faster than Pascal at processing anti-aliasing thanks to machine learning. Tensor Cores also power a new technique known as Deep Learning Super Sampling, which can boost resolution while also adding anti-aliasing at the pixel level.
The RTX 2080 Ti has two of these ports, which can deliver up to 100GB of total bandwidth to support several 8K displays in the surround mode.
A blower-style cooler has often been included with the first cards, which suckers in cold air via its fan to filter heat through the back of the card. Meanwhile, a dual-fan machine takes cold air and splatters it against an open CPU cooler to exhaust heat in both directions. A packed vapor chamber covers the entire printed circuit board, or PCB, of the Nvidia RTX 2080 Ti, in addition to the current fans.
Thanks to this and the dual-fan design, the entire system works together to provide ultra-cool and quiet results. It not only outruns the GeForce GTX 1080 Ti, but it also outruns the Nvidia Titan Xp by a significant margin.
In almost every simulated benchmark, Nvidia's latest flagship GeForce card leads by 2,000 points, and in each of our gaming-based evaluations, it offers at least ten more frames per second (fps). Nvidia was always well ahead of AMD, and with the RTX 2080 Ti, it's almost as if the business has moved into the next galaxy.
Surprisingly, the Nvidia RTX 2080 Ti uses less fuel to achieve this degree of output than the Titan XP and 1080 Ti it outperforms.
More and more gamers support the new technologies, with Cyberpunk 2077 and Call of Duty: Modern Warfare among the most recent additions. The Nvidia RTX 2080 Ti is the latest top swine in the graphics card universe.
- Capable of 4K gaming at 60fps
- DLSS is another exciting feature with a ton of potential
- Sets a new bar for single-GPU performance
- Only real option for 4K PC gaming, and high price reflects that
- Game support for unique ray tracing features will have to wait
NVIDIA Quadro RTX 4000
The Quadro RTX range includes four graphics cards, ranging in size from the monstrous Quadro RTX 8000 with 48GB of GDDR6 to the Quadro RTX 4000, aiming at more popular content creators.
Compared to some of NVIDIA's other pro-graphics cards, the Quadro RTX 4000 seems to be a very mild solution.
The NVIDIA Quadro RTX 4000, like the GeForce RTX 2060 and RTX 2070, is based on the Turing TU106 GPU. It has a GPU that can run at 1,545MHz and is combined with 8GB of GDDR6 over a 256-bit interface for a data rate of 13Gbps. The card will provide up to 415GB/s of peak memory bandwidth at that speed.
The Quadro RTX 4000 outperforms the Pascal-based Quadro P4000 in NVIDIA's standard pro-graphics lineup, with substantially more performance across the board and significantly more memory space, as well as some extra functionality thanks to the Turing-based GPUs cache layout and underlying features.
Since the Quadro RTX 4000 has a much higher TDP than the Quadro P4000 (160 watts vs. 105 watts), it also only needs a single supplemental power feed.
A single 8-pin PCI Express power connector protrudes from the back of the fan at the far end. The Quadro RTX 4000 has three full-sized DisplayPorts (DP1.4) and a single USB-C style VitualLink connector, a four-lane HBR3 DisplayPort, and USB 3.1 Gen 2 over a single connector.
The Quadro RTX 4000 ends well ahead of the Quadro P4000 and Radeon Pro WX7100 in hashing bandwidth, surpassing the P5000. The RX 4000 falls behind the Radeon Pro WX 7100 in the AES256 encryption/decryption test. With the Quadro RTX 4000, image processing efficiency was excellent. The card almost catches up to the Radeon Pro WX 8200 in this test and easily outruns the Quadro P4000 and P5000.
The Quadro RTX 4000's low power consumption turns into a surprisingly quiet graphics card. The Quadro RTX 4000 is silent at the desktop or under light load and won't be noticeable in a closed chassis over a standard CPU cooler or PSU.
Overall, the NVIDIA Quadro RTX 4000 proved to be a capable graphics card. There is no distinction between the RTX 4000 and the previous-gen Pascal-based Quadro P4000 – the RTX 4000 was substantially faster in any workload we tested. In some instances, the Quadro RTX 4000 outperformed the Quadro P5000, despite the latter's significantly higher price tag.
In our samples, the Quadro RTX 4000 beat the Radeon Pro WX 7100 and fought the slightly more costly Radeon Pro WX 8200, while the RTX 4000 shot out to significant leads in a few of the rendering tests (like V-RAY, for example).
Gigabyte GeForce RTX 2070
|Memory Clock||1750 MHz|
|Base Clock||1410 MHz|
|Boost Clock||1620 MHz|
The GeForce RTX 2070 Gaming OC 8G from Gigabyte outperforms Nvidia's Founders Edition card, thus costing less. Right out of the box, the card provides fantastic frame rates at 2560 x 1440 with fully built detail settings. With a bulkier supply voltage, a three-fan thermal solution, overclocked core frequency, RGB illumination, and a significant discount, Gigabyte's GeForce RTX 2070 Gaming OC 8G aims to outperform the Founders Edition iteration. It works for the most part.
It's smoother than a GeForce GTX 1080, has more contemporary architecture, and costs almost the same. The 2070 Gaming OC 8G is an excellent option if you're gaming at 2560 x 1440 with decent quality settings. Just make sure it's in a case with plenty of ventilation. The overworked Windforce 3X cooler would appreciate it.
Nvidia's Founders Edition card is more costly than Gigabyte's GeForce RTX 2070 Gaming OC 8G. That's what it takes for many gamers to get a recommendation. Gigabyte made an inexpensive RTX 2070 on a long PCB with affixed adapters and an eight-phase power supply, which we want.
If you can deal with a TU106 processor binned for lower clock speeds, there are cheaper RTX 2070 cards than Gigabyte's 2070 Gaming OC. Nvidia's cooler is also a favorite of ours. To keep up with the TU106's fire, its smaller 80mm fans must spin fast.
A stock capacity limit that tends to be about 40W higher than Nvidia's board exacerbates the situation. Gigabyte can reach aggressive clock speeds thanks to increased GPU voltage, but it also means more heat for the fans to deal with. When you put the card into a locked chassis, the situation gets even worse.
In the worst-case, GPU temperatures exceed 80°C, fans spin at nearly 2,700 RPM, and the core clock rate falls below Nvidia's 1,620 MHz references. Surprisingly, most games do not impose the same thermal load as FurMark does.
As Tom'shardware said that Gigabyte strews plastic around the Gaming OC 8G's shroud, which holds three 80mm fans (instead of the 2080 Gaming OC 8G's two 82mm fans). These fans blow down through an array of aluminum fins split into three sections.
The segment nearest the monitor outputs rises above the PCB. It doesn't allow contact with any onboard components; instead, it aids in the dissipation of thermal energy from four heat pipes that enter the TU106 processor. The middle portion supports the GPU from Nvidia. The same four pipes traverse it.
- Faster than GeForce GTX 1080
- Founders Edition is beautifully designed
- Great 1440p and entry-level 4K gaming performance
- No SLI option
- Jump in generational pricing
GeForce RTX 3080
|Nvidia CUDA Cores||10,496|
|Boost Clock (GHz)||1.70|
|Standard Memory Config||24GB GDDR6X|
|Memory Interface Width||384-bit|
The Nvidia GeForce RTX 3080 is a massive graphics card, representing one of the essential generational strides in GPU history.
This graphics card should be of interest to those involved in 4K gaming. 4K gaming has become famous thanks to the Nvidia GeForce RTX 3080. The new model card outperforms its contemporaries and incorporates lessons learned from the market by combining outstanding results with a price that is nearly half that of the previous model.
Especially in comparison to the inflated price tags that surrounded the Nvidia GeForce RTX 2080 and RTX 2080 Ti it replaced, the Nvidia GeForce RTX 3080 is far more within most people's budgets. Simply put, the 3080 is a better option. But it's the performance boost it provides, which is 50-80% over the RTX 2080 and 20-30% over the RTX 2080 Ti, that makes the 3080 an unequivocally better purchase.
Since Nvidia expanded the power budget so far over the RTX 2080 while increasing power efficiency, the total output profile is well above what any Nvidia Turing graphics card might achieve. The rasterization engine has shown the most change.
Nvidia was enabled to double the number of CUDA cores on each Streaming Multiprocessor (SM) by allowing all SM to handle Floating Point 32 (FP32), a significant improvement over Turing, which only had one data path dedicated to integer workloads. This essentially doubles raw FP32 throughput core for core, but this won't always lead to a doubled frame rate in your favorite PC games – at least not for all of them.
The Nvidia GeForce RTX 3080 has 46 percent more SMs (68) than the RTX 2080, but it has more than double the CUDA core count (from 2,944 to 8,704) and more than doubles the CUDA core count (from 2,944 to 8,704). This leads to a nearly threefold increase in potential FP32 throughput, from about 10 to 29.7 TFLOPs – a huge generational jump.
As you combine the increase in CUDA cores with considerable increases in Cache, Texture Units, and Memory Bandwidth – all due to the switch to faster GDDR6X memory on a 320-bit bus – gaming performance sees one of the most significant generational leaps in years, even if it falls short of the '2x performance'.
Second-generation RT cores are used in Nvidia Ampere graphics cards, like the RTX 3080, which will perform similarly to first-generation RT cores while being twice as powerful. Tensor cores are also twice as strong this time around, prompting Nvidia to have just four in each SM instead of the eight found in a Turing SM.
We were already big fans of RTX Voice, which Nvidia has now taken out of beta and turned into a fully functional broadcasting app. If RTX Voice removed background noise from your microphone, Broadcaster will remove backgrounds from your webcam – or add a mist.
To make the back end of the card all heatsink, the company used a shorter, multi-layered PCB. Nvidia was able to install a fan on the back of the graphics card, sucking cold air through the heatsink and expelling it up and out of the case due to this.
The new 12-pin power connector is present when it comes to power distribution. When examining the actual benchmark performance, it's evident that the Nvidia GeForce RTX 3080 is in a class by itself, outperforming even the RTX 2080 Ti. The RTX 3080 is 63 percent faster than the RTX 2080 and 26 percent faster than the 2080 Ti in 3DMark Time Spy Extreme, which is a substantial generational jump considering the RTX 2080 was just 40 percent faster than the GTX 1080 when we tested it in 2018.
The success of the Nvidia GeForce RTX 3080 expands the output difference between Nvidia and AMD on the high end, in several tests more than multiplying the efficiency of AMD's most potent commercial graphics card, the Radeon RX 5700 XT. AMD (Advanced Micro Devices) If Big Navi tries to assert the 4K crown that the RTX 3080 just won, it'll have a tough battle on its hands.
Performance standards are going to explode for the next wave of games on the horizon. The RTX 3080 is much more powerful than the GPUs used in the PS5 and Xbox Series X.
- Powerful enough for ray tracing and 4K gaming
- Far cheaper than RTX 2080 Ti
- Gorgeous, innovative cooler design
- Can get loud under load
- 12-pin power adapter is ugly
ASUS TUF Gaming GeForce RTX 3070
|Memory Interface Width||256-bit.|
For all of the users, the Nvidia GeForce RTX 3070 is without a doubt the most acceptable graphics card on the market. It offers value comparable to the RTX 2080 Ti for less than half the price, making 4K gaming accessible to the masses for the first time.
The GeForce RTX 3070 delivers incredibly smooth gameplay and results at 4K and high-framerate performance at lower resolutions, in test after test. The RTX 3070 can be used to reap the benefits of a 144Hz 1080p display without dropping output settings.
On titles like The Witcher 3 and Batman: Arkham Knight, which are still GPU-intensive, it generated legendary results.
The Ampere GA104 GPU powers the Nvidia GeForce RTX 3070. Centered on the same Nvidia Ampere architecture as the RTX 3080 and RTX 3090, this GPU has 5,888 CUDA cores distributed over 46 Streaming Multiprocessing. Like those cards, there is a slew of upgrades here, both in terms of raw performance in terms of energy efficiency, that propel this mega graphics card to standards of achievement, rivaling only the best graphics cards from the previous generation.
The most significant difference between Turing and Ampere is that all data paths on the Streaming Multiprocessor (SM) now accept FP32 workloads, effectively doubling the number of CUDA cores per SM. That's why, despite having 36 SMs, the RTX 2070 only had 2,304 CUDA cores. Although the RTX 3070 only increases the SM count by 27%, it more than doubles the CUDA core count, resulting in dramatic improvements in raw rasterization efficiency.
The Nvidia GeForce RTX 3070 is also the only graphics card in the Ampere lineup that consumes a fair amount of power, with a TGP of 220W, which is 100W less than the RTX 3080.
Nvidia Broadcast is one of the more notable features here; it's targeted at game streamers, but the utility is far broader. For example, this piece of software will use AI Tensor Cores to distort or substitute the backdrop in video calls, and it will do far more efficiently than built-in options in programs like Zoom.
A few innovations, such as Nvidia Reflex and RTX IO, will directly support gamers. RTX IO is perhaps the most critical, particularly with the PS5 and Xbox Series X on the horizon, which will offer accurate next-generation information exchange through their SSD solutions. Nvidia's RTX IO will work in tandem with Microsoft's forthcoming DirectStorage API to simplify data delivery from the SSD to the GPU.
When a game has to access data, it sends it from your storage to your CPU, then to machine memory, where it's then fed back into your CPU to your graphics card, before eventually reaching your VRAM. Since it introduces flagship-level value to the mid-to-high-end market, the Nvidia GeForce RTX 3070 is a fantastic piece of hardware.
Even in difficult-to-run games like Horizon Zero Dawn and Red Dead Redemption 2, the RTX 3070 delivers exceptional results, with the latter scoring 75 fps at 1080p with all but MSAA maxed out. Given how taxing Rockstar's Yee-Haw simulator is, that's amazing – particularly since the RTX 2070 Super only manages 57 frames per second in the same test. That all makes this card an extraordinary approach to its users.
- Speed is the same as the NVIDIA 2080 Ti
- Has the same solid ray tracing performance
- Has an excellent cooling under load
- Might be a bit too loud