GPU Performance Hierarchy: Video Cards Ranked
When you want to run games or do high-end creative work like 4K video editing, your graphics card plays the biggest role in determining performance. Get a good GPU, and you can play recent games at smooth frame rates; get one of the best GPUs for gaming and you can enjoy those games at high resolution, with the special effects turned up.
To help you decide which graphics card you need, we've developed the GPU hierarchy below, which ranks all the current chips from fastest to slowest. For comparison purposes, we've assigned each a score where the fastest card gets 100 and all others are graded relative to it. These numbers are based on the geometric mean frames per second (fps) from our Far Cry 5, Forza Motorsport 7 and Ashes of the Singularity: Escalation benchmarks, giving us a good mix of game genres and APIs.
News and Product Updates
This week, Nvidia announced the Titan RTX, a new top-end Turing-based card that straddles the line between consumer and professional audiences. With a beefed-up CUDA core count over the GeForce RTX 2080 Ti, extra Tensor and RT cores, and 24GB of GDDR6, it’s certainly a powerhouse, both for gaming and professional compute tasks. But with a price tag of $2,499, the Titan RTX will be a hard sell for most gamers. The RTX 2080 Ti sells for $1,000 less and mostly sticks close in terms of hardware specs.
We are of course interested in testing this latest Nvidia Titan card to see how it performs against its lesser RTX siblings, as well as the Titan V. The latter card actually has more CUDA cores than the Titan RTX and more Tensor cores, but it’s based on the Volta architecture and a different type of memory (12GB of HBM2).
| Score | GPU | Base/Boost | Memory | Power | Buy | |
| Nvidia GeForce RTX 2080 Ti | 100 | TU102 | 1350/1635 MHz | 11GB GDDR6 | 260W | $1,199.99Best Buy |
| Nvidia GeForce RTX 2080 | 96.3 | TU104 | 1515/1800 MHz | 8GB GDDR6 | 225W | $799Nvidia |
| Nvidia Titan Xp | 96.1 | GP102 | 1405/1480 MHz | 12GB GDDR5X | 250W | $1200Nvidia |
| Nvidia GeForce GTX 1080 Ti | 96 | GP102 | 1480/1582 MHz | 11GB GDDR5X | 250W | $694.99Newegg |
| Nvidia GeForce RTX 2070 | 88.9 | TU106 | 1410/1710 MHz | 8GB GDDR6 | 185W | $599.99Best Buy |
| Nvidia GeForce GTX 1080 | 85.4 | GP104 | 1607/1733 MHz | 8GB GDDR5X | 180W | $701Newegg |
| AMD Radeon RX Vega 64 | 85.1 | Vega 10 | 1274/1546 MHz | 8GB HBM2 | 295W | $679Newegg |
| Nvidia GeForce GTX 1070 Ti | 79.4 | GP104 | 1607/1683 MHz | 8GB GDDR5 | 180W | $479Newegg |
| AMD Radeon RX Vega 56 | 76.7 | Vega 10 | 1156/1471 MHz | 8GB HBM2 | 210W | $642Newegg |
| Nvidia GeForce GTX 1070 | 70.3 | GP104 | 1506/1683 MHz | 8GB GDDR5 | 150W | $409.99Newegg |
| AMD Radeon RX 590 8GB | 62.2 | Polaris 30 | 1469/1545 MHz | 8GB GDDR5 | 225W | $279.99Amazon |
| AMD Radeon RX 580 8GB | 58.8 | Polaris 10 | 1257/1340 MHz | 8GB GDDR5 | 185W | $495Newegg |
| Nvidia GeForce GTX 1060 6GB | 54.2 | GP106 | 1506/1708 MHz | 6GB GDDR5 | 120W | $314Newegg |
| Nvidia GeForce GTX 1060 3GB | 43.6 | GP106 | 1506/1708 MHz | 3GB GDDR5 | 120W | $229Newegg |
| AMD Radeon RX 570 | 49.5 | Polaris 10 | 1168/1244 MHz | 4GB GDDR5 | 150W | $289Newegg |
| Nvidia GeForce GTX 1050 Ti | 32.3 | GP107 | 1290/1392 MHz | 4GB GDDR5 | 75W | $189Newegg |
| AMD Radeon RX 560 | 28.9 | Polaris 11 | 1175/1275 MHz | 4GB GDDR5 | 80W | $149Newegg |
| Nvidia GeForce GTX 1050 | 25.1 | GP107 | 1354/1455 MHz | 2GB GDDR5 | 75W | $139Newegg |
| AMD Radeon RX 550 | 17.9 | Polaris 12 | 1100/1183 MHz | 4GB GDDR5 | 50W | $119Newegg |
| Nvidia GeForce GT 1030 | 10.1 | GP108 | 1228/1468 MHz | 2GB GDDR5 | 30W | $92Newegg |
Nvidia’s GeForce RTX 2080 Ti is the logical choice for uncompromising 4K gaming, though if you're willing to dial-back detail settings in some games for fluid gameplay, the GeForce RTX 2080 and GeForce GTX 1080 Ti are 4K-capable as well.
The AMD Radeon RX Vega 64 and the Nvidia GeForce GTX 1080 occupy a lower performance tier. They’re ideal for running at 2560x1440 using the highest quality presets. And as you can see, they score similarly in our index.
The GeForce GTX 1070 Ti, Radeon RX Vega 56 and GeForce GTX 1070 don’t land far from each other, either. All three cards are capable of great frame rates at 2560x1440, and they’re all good options for driving a VR head-mounted display.
There’s a larger group of Radeon RX 580, GeForce GTX 1060 (6GB), GeForce GTX 1060 (3GB) and Radeon RX 570 boards that excel at 1920x1080. They can even be made serviceable at 2560x1440 if you dial down your detail settings far enough. But beware: insufficient GDDR5 memory on cards like the 3GB GeForce GTX 1060 may cause severe performance issues at higher resolutions. That model is usually faster than Radeon RX 570. However, because we benchmark Forza at 2560x1440 using High settings, its 3GB just aren’t enough, skewing the score lower.
The same thing happens in the next category, where GeForce GTX 1050 appears much slower than Radeon RX 560 due to the former’s 2GB of memory, hurting it in our Forza Motorsports 7 benchmark. Gaming at 1920x1080 or 1280x720 is far more realistic with these cards.
Finally, Radeon RX 550 and GeForce GT 1030 close out this generation’s hierarchy with performance well-suited to popular eSports titles.
Test System & Configuration
| Test System | |
| Processor | Intel Core i7-7700K |
| Motherboard | MSI Z270 Gaming Pro Carbon |
| Memory | 32GB G.Skill TridentZ DDR4-3200 (4x 8GB) |
| Storage | 500GB Crucial MX200 SSD |
| Operating System | Windows 10 Pro v.1803 |
| Games | |
| Far Cry 5 | v.1.06, Fullscreen, 1920x1080, High Graphics Quality, High Texture Filtering, High Shadows, High Geometry & Vegetation, High Environment, High Water, High Terrain, High Volumetric Fog, TAA Anti-Aliasing, Motion Blur On |
| Ashes of the Singularity: Escalation | v.2.7532453, High Quality Profile, 2560x1440, Fullscreen, DirectX 12 |
| Forza Motorsport 7 | v.1.126.9433.2, Ultra Dynamic Render Quality, 2560x1440, Custom Dynamic Optimization, Fullscreen, Unlocked Performance Target, 100% Resolution Scale, 16x Anisotropic Filtering, 2x MSAA Quality, Car Headlights In Rain Off, and all other options set to High |
Legacy GPU Hierarchy
Tom's Hardware readers accustomed to referencing our legacy desktop GPU hierarchy with historical comparisons dating back to the 1990s will find them below Here we group cards into performance tiers, pairing disparate generations where overlap occurs.
| Nvidia GeForce | AMD Radeon |
|
Nvidia GeForce RTX 2080 Ti ($1,199.99 On Best Buy)
Nvidia GeForce RTX 2080 ($799 On Nvidia) | |
|
Titan Xp ($1,200 On Nvidia)
Titan X (Pascal) ($1,649.99 On Amazon) GTX 1080 Ti ($699 On Amazon) GTX 1080 ($559.89 On Amazon) | |
| GTX Titan X (Maxwell) GTX 1070 Ti ($469.99 On -) GTX 1070 ($459.89 On Amazon) 980 Ti ($537.83 On Amazon) | R9 295X2 RX Vega 56 ($469.99 On Newegg) R9 Fury X |
| GTX Titan Black GTX 980 ($539.99 On Amazon) GTX 690 | R9 Fury R9 Fury Nano |
| GTX Titan GTX 1060 ($249.99 On Newegg) GTX 970 GTX 780 Ti GTX 780 |
RX 580 ($296.89 On Amazon)
RX 570 ($229.89 On Amazon) RX 480 ($194.97 On Amazon) RX 470 ($204.00 On Amazon) R9 390X ($429.99 On Amazon) R9 390 ($319.99 On Newegg) R9 290X R9 290 HD 7990 |
| GTX 770 GTX 680 GTX 590 | R9 380X R9 380 ($229.99 On Amazon) R9 280X HD 7970 GHz Edition HD 6990 |
|
GTX 1050 Ti ($157.99 On Amazon)
GTX 960 ($199.99 On Amazon) GTX 670 GTX 580 | R9 285 R9 280 HD 7950 HD 7870 LE (XT) HD 5970 |
|
GTX 1050 ($119.99 On Amazon)
GTX 950 GTX 760 GTX 660 Ti |
RX 560 ($129.99 On Amazon)
RX 460 R7 370 R9 270X R9 270 HD 7870 |
| GTX 660 GTX 570 GTX 480 GTX 295 | R7 265 HD 7850 HD 6970 HD 4870 X2 |
| GTX 750 Ti GTX 650 Ti Boost GTX 560 Ti (448 Core) GTX 560 Ti GTX 470 | R7 260X HD 6950 HD 5870 HD 4850 X2 |
| GTX 750 GTX 650 Ti GTX 560 | HD 7790 HD 6870 HD 5850 |
|
GT 1030 ( On -)
GTX 465 GTX 460 (256-bit) GTX 285 9800 GX2 |
RX 550 ($79.99 On Amazon)
R7 360 R7 260 HD 7770 HD 6850 |
| GT 740 GDDR5 GT 650 GTX 560 SE GTX 550 Ti GTX 460 SE GTX 460 (192-bit) GTX 280 GTX 275 GTX 260 | R7 250E R7 250 (GDDR5) HD 7750 (GDDR5) HD 6790 HD 6770 HD 5830 HD 5770 HD 4890 HD 4870 |
| GTS 450 GTS 250 9800 GTX+ 9800 GTX 8800 Ultra | R7 250 (DDR3) HD 7750 (DDR3) HD 6750 HD 5750 HD 4850 HD 3870 X2 |
| GT 730 (64-bit, GDDR5) GT 545 (GDDR5) 8800 GTS (512MB) 8800 GTX | HD 4770 |
| GT 740 DDR3 GT 640 (DDR3) GT 545 (DDR3) 9800 GT 8800 GT (512MB) | HD 7730 (GDDR5) HD 6670 (GDDR5) HD 5670 HD 4830 |
| GT 240 (GDDR5) 9600 GT 8800 GTS (640MB) | HD 6570 (GDDR5) HD 5570 (GDDR5) HD 3870 HD 2900 XT |
| GT 240 (DDR3) 9600 GSO 8800 GS | R7 240 HD 7730 (DDR3) HD 6670 (DDR3) HD 6570 (DDR3) HD 5570 (DDR3) HD 4670 HD 3850 (512MB) |
| GT 730 (128-bit, GDDR5) GT 630 (GDDR5) GT 440 (GDDR5) 8800 GTS (320MB) 8800 GT (256MB) | HD 5550 (GDDR5) HD 3850 (256MB) HD 2900 Pro |
| GT 730 (128-bit, DDR3) GT 630 (DDR3) GT 440 (DDR3) 7950 GX2 | HD 7660D (integrated) HD 5550 (DDR3) HD 4650 (DDR3) X1950 XTX |
| GT 530 GT 430 7900 GTX 7900 GTO 7800 GTX 512 | X1900 XTX X1950 XT X1900 XT |
| GT 220 (DDR3) 7950 G 7900 GT 7800 GTX | HD 7560D (integrated) HD 5550 (DDR2) HD 2900 GT X1950 Pro X1900 GT X1900 AIW X1800 XT |
| GT 220 (DDR2) 9500 GT (GDDR3) 8600 GTS 7900 GS 7800 GT | HD 7540D (integrated) HD 6550D (integrated) HD 6620G (integrated) R5 230 HD 6450 HD 4650 (DDR2) X1950 GT X1800 XL |
| 9500 GT (DDR2) 8600 GT (GDDR3) 8600 GS 7800 GS 7600 GT 6800 Ultra | 7480D (integrated) 6530D (integrated) 6520G (integrated) HD 3670 HD 3650 (DDR3) HD 2600 XT X1800 GTO X1650 XT X850 XT PE X800 XT PE X850 XT X800 XT |
| GT 520 8600 GT (DDR2) 6800 GS (PCIe) 6800 GT | 6480G (integrated) 6410D (integrated) HD 3650 (DDR2) HD 2600 Pro X800 GTO2/GTO16 X800 XL |
| 6800 GS (AGP) | 6380G (integrated) 6370D (integrated) X1650 GT X850 Pro X800 Pro X800 GTO (256MB) |
| 8600M GS 7600 GS 7300 GT (GDDR3) 6800 | X1650 Pro X1600 XT X800 GTO (128MB) X800 |
| 9400 GT 8500 GT 7300 GT (DDR2) 6800 XT 6800LE 6600 GT | HD 6320 (integrated) HD 6310 (integrated) HD 5450 HD 4550 HD 4350 HD 2400 XT X1600 Pro X1300 XT X800 SE X800 GT X700 Pro 9800 XT |
| 9400 (integrated) 9300 (integrated) 6600 (128-bit) FX 5950 Ultra FX 5900 Ultra FX 5900 | HD 6290 (integrated) HD 6250 (integrated) HD 4290 (integrated) HD 4250 (integrated) HD 4200 (integrated) HD 3300 (integrated) HD 3200 (integrated) HD 2400 Pro X1550 X1300 Pro X700 9800 Pro 9800 9700 Pro 9700 |
| FX 5900 XT FX 5800 Ultra | X1050 (128-bit) X600 XT 9800 Pro (128-bit) 9600 XT 9500 Pro |
| G 310 G 210 8400 G 8300 6200 FX 5700 Ultra 4 Ti 4800 4 Ti 4600 | Xpress 1250 (integrated) HD 2300 X600 Pro 9800 LE 9600 Pro |
| 9300M GS 9300M G 8400M GS 7300 GS FX 5700, 6600 (64-bit) FX 5600 Ultra 4 Ti4800 SE 4 Ti4400 4 Ti4200 | X1050 (64-bit) X300 9600 9550 9500 |
| 8300 (integrated) 8200 (integrated) 7300 LE 7200 GS 6600 LE 6200 TC FX 5700 LE FX 5600 FX 5200 Ultra 3 Ti500 | X1150 X300 SE 9600 LE 9100 8500 |
| FX 5500 FX 5200 (128-bit) 3 Ti200 3 | 9250 9200 9000 |
| FX 7050 (integrated) FX 7025 (integrated) FX 6150 (integrated) FX 6100 (integrated) FX 5200 (64-bit) | Xpress 1150 (integrated) Xpress 1000 (integrated) Xpress 200M (integrated) 9200 SE |
| 2 Ti 200 2 Ti 2 Ultra 4 MX 440 2 GTS | 7500 |
| 2 MX 400 4 MX 420 2 MX 200 256 | 7200 7000 DDR LE SDR |
| Nvidia TNT | Rage 128 |
For even more information, check out our Graphics Card Buyer's Guide.
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MORE: Nvidia GeForce GTX 1080 Roundup
As the chart proves, an RX570 is more or less half a 1080ti or Xp.
So anything along the line has equal value for price/performance ratio? Looks like 80% of the card is the same value.
it means "anything along the line has best price for a given performance / or best performance for a given price"
Anything to the left is worst performance for a given price, or worst price for a given performance.
MARKBANANG 1 month ago
Please don't give up on the GPU Performance Hierarchy Table. I see it's now been renamed "Legacy GPU Hierarchy", so I hope that doesn't mean you intend to stop updating it.
For many years this table has been the single best resource for quickly comparing graphics cards. Detailed reviews are great for comparing cards within a category, but for quickly dismissing a card or prompting further research, there is nothing else on the web which compares to it. It would be a real shame for it to fall into neglect.