Desktop GPU Performance Hierarchy Table
Here is a resource to help you judge if a graphics card is a reasonable value: The gaming GPU hierarchy chart groups GPUs by performance.
Best Graphics Cards for the Money is a hand-picked list of the top values, based on benchmark data, for your gaming machine. Most recently, we tweaked our approach to making recommendations, aiming them at resolutions and detail presets, rather than just pricing. The result was a significant shuffling. Don’t hesitate to let us know what you think of the change — or our choices — in the comments section.
But when you want to know how your existing GPU fares against the one on your wish list, then consult our GPU hierarchy chart, which groups graphics cards with similar overall performance levels into tiers. The top tier contains the highest-performing cards available, and performance decreases as you go down from there.
You can use this hierarchy to compare the pricing between two cards, to see which one is a better deal, and also to determine if an upgrade is worthwhile. I don’t recommend upgrading your graphics card unless the replacement card is at least three tiers higher. Otherwise, the upgrade is somewhat parallel, and you may not even notice a worthwhile difference.
Desktop GPU Performance Hierarchy Table
| Nvidia GeForce | AMD Radeon | Intel |
|---|---|---|
| GTX 1080 | - | |
| GTX 1070 | R9 295X2 | |
| Titan X, 980 Ti | HD 7990, R9 Fury X | |
| GTX 980, 690, Titan Black | R9 Fury, Fury Nano | |
| GTX 780, 780 Ti, 970, Titan | R9 290, 290X, 390X, 390 | |
| GTX 590, 680, 770 | HD 6990, 7970 GHz Ed., R9 280X, 380, 380X | |
| GTX 580, GTX 670, GTX 960 | HD 5970, 7870 LE (XT), 7950, 280, 285 | |
| GTX 660 Ti, GTX 760, GTX 950 | HD 7870, R9 270, R9 270X, R7 370 | |
| GTX 295, 480, 570, 660 | HD 4870 X2, 6970, 7850, R7 265 | |
| GTX 470, 560 Ti, 560 Ti 448 Core, 650 Ti Boost, 750 Ti | HD 4850 X2, 5870, 6950, R7 260X | |
| GTX 560, 650 Ti, 750 | HD 5850, 6870, 7790 | |
| 9800 GX2, 285, 460 256-bit, 465 | HD 6850, 7770, R7 260, R7 360 | Integrated: Iris Pro Graphics 6200 |
| GTX 260, 275, 280, 460 192-bit, 460 SE, 550 Ti, 560 SE, GT 650, GT 740 GDDR5 | HD 4870, 5770, 4890, 5830, 6770, 6790, 7750 (GDDR5), R7 250 (GDDR5), R7 250E | |
| 8800 Ultra, 9800 GTX, 9800 GTX+, GTS 250, GTS 450 | HD 3870 X2, 4850, 5750, 6750, 7750 (DDR3), R7 250 (DDR3) | Integrated: HD Graphics 530 |
| 8800 GTX, 8800 GTS 512 MB, GT 545 (GDDR5), GT 730 64-bit GDDR5 | HD 4770 | |
| 8800 GT 512 MB, 9800 GT, GT 545 (DDR3), GT 640 (DDR3), GT 740 DDR3 | HD 4830, HD 5670, HD 6670 (GDDR5), HD 7730 (GDDR5) | |
| 8800 GTS 640 MB, 9600 GT, GT 240 (GDDR5) | HD 2900 XT, HD 3870, HD 5570 (GDDR5), HD 6570 (GDDR5) | |
| 8800 GS, 9600 GSO, GT 240 (DDR3) | HD 3850 512 MB, HD 4670, HD 5570 (DDR3), HD 6570 (DDR3), HD 6670 (DDR3), HD 7730 (DDR3), R7 240 | |
| 8800 GT 256 MB, 8800 GTS 320 MB, GT 440 GDDR5, GT 630 GDDR5, GT 730 128-bit GDDR5 | HD 2900 Pro, HD 3850 256 MB, 5550 (GDDR5) | |
| 7950 GX2, GT 440 DDR3, GT 630 DDR3, GT 730 128-bit DDR3 | X1950 XTX, HD 4650 (DDR3), 5550 (DDR3) Integrated: HD 7660D | |
| 7800 GTX 512, 7900 GTO, 7900 GTX, GT 430, GT 530 | X1900 XT, X1950 XT, X1900 XTX | |
| 7800 GTX, 7900 GT, 7950 G, GT 220 (DDR3) | X1800 XT, X1900 AIW, X1900 GT, X1950 Pro, HD 2900 GT, HD 5550 (DDR2) Integrated: HD 7560D | |
| 7800 GT, 7900 GS, 8600 GTS, 9500 GT (GDDR3), GT 220 (DDR2) | X1800 XL, X1950 GT, HD 4650 (DDR2), HD 6450, R5 230 Integrated: HD 6620G, 6550D, 7540D | |
| 6800 Ultra, 7600 GT, 7800 GS, 8600 GS, 8600 GT (GDDR3), 9500 GT (DDR2) | X800 XT (& PE), X850 XT (& PE), X1650 XT, X1800 GTO, HD 2600 XT, HD 3650 (DDR3), HD 3670 Integrated: 6520G, 6530D, 7480D | Integrated:Intel HD Graphics 4000 |
| 6800 GT, 6800 GS (PCIe), 8600 GT (DDR2), GT 520 | X800 XL, X800 GTO2/GTO16, HD 2600 Pro, HD 3650 (DDR2), Integrated: 6410D, 6480G | |
| 6800 GS (AGP) | X800 GTO 256 MB, X800 Pro, X850 Pro, X1650 GT Integrated: 6370D, 6380G | |
| 6800, 7300 GT GDDR3, 7600 GS, 8600M GS | X800, X800 GTO 128 MB, X1600 XT, X1650 Pro | |
| 6600 GT, 6800LE, 6800 XT, 7300 GT (DDR2), 8500 GT, 9400 GT | 9800 XT, X700 Pro, X800 GT, X800 SE, X1300 XT, X1600 Pro, HD 2400 XT, HD 4350, HD 4550, HD 5450 Integrated: HD 6310, HD 6320 | Integrated: Intel HD Graphics 3000 |
| FX 5900, FX 5900 Ultra, FX 5950 Ultra, 6600 (128-bit) Integrated: 9300, 9400 | 9700, 9700 Pro, 9800, 9800 Pro, X700, X1300 Pro, X1550, HD 2400 Pro Integrated: HD 3200, HD 3300, HD 4200, HD 4250, HD 4290, HD 6250, HD 6290 | |
| FX 5800 Ultra, FX 5900 XT | 9500 Pro, 9600 XT, 9800 Pro (128-bit), X600 XT, X1050 (128-bit) | Integrated: Intel HD Graphics 2000 |
| 4 Ti 4600, 4 Ti 4800, FX 5700 Ultra, 6200, 8300, 8400 G, G 210, G 310 | 9600 Pro, 9800 LE, X600 Pro, HD 2300 Integrated: Xpress 1250 | Integrated: Intel HD Graphics |
| 4 Ti4200, 4 Ti4400, 4 Ti4800 SE, FX 5600 Ultra, FX 5700, 6600 (64-bit), 7300 GS, 8400M GS, 9300M G, 9300M GS | 9500, 9550, 9600, X300, X1050 (64-bit) | Integrated: Intel HD Graphics |
| 3 Ti500, FX 5200 Ultra, FX 5600, FX 5700 LE, 6200 TC, 6600 LE, 7200 GS, 7300 LE Integrated: 8200, 8300 | 8500, 9100, 9000 PRO, 9600 LE, X300 SE, X1150 | Integrated: GMA X4500 |
| 3, 3 Ti200, FX 5200 (128-bit), FX 5500 | 9000, 9200, 9250 | |
| FX 5200 (64 bit) Integrated: 6100, 6150, 7025, 7050 | 9200 SE Integrated: Xpress 200M, Xpress 1000, Xpress 1150 | Integrated: GMA X3000, X3100, X3500 |
| 2 GTS, 4 MX 440, 2 Ultra, 2 Ti, 2 Ti 200 | 7500 | Integrated: GMA 3000, 3100 |
| 256, 2 MX 200, 4 MX 420, 2 MX 400 | SDR, LE, DDR, 7000, 7200 | Integrated: GMA 500, 900, 950 |
| Nvidia TNT | Rage 128 | Discrete: Intel 740 |
The list, as it stands now, emphasizes discrete desktop graphics. At one time, it included mobile rankings and a more complete collection of integrated solutions. Too much of that data was estimated and derived, though, so we thinned out the chart’s density.
Intel’s graphics engines remain (for the ones we’ve tested), and we’d like to re-incorporate more AMD APUs as we place their performance with greater accuracy. But it’s unlikely that we’ll try to graft mobile graphics back into this tapestry.
As always, leave your feedback on the placement of our hierarchy. We’re happy to correct oversights or make adjustments when they prove warranted.
MORE: Best Graphics Cards
MORE: Best CPUs
MORE: Intel & AMD Processor Hierarchy
MORE: Best Monitors
MORE: Best Power Supplies
MORE: How To Build A PC
Chris Angelini is Editor Emeritus at Tom's Hardware. Follow him on Twitter and Google+.
Follow us on Facebook, Google+, RSS, Twitter and YouTube.
Well spotted. Also, the 380 is too high up, reviews showed it's about the same (plus/minus) as a 960. 380X should be where the 380 is now.
toms' review showed it to be significantly slower than a 980 (by that I mean a bigger difference than many of the gaps used in the above chart) in just about every case for HD and 1440p, only edging ahead in some cases at 4K (though the frame rates were kinda naff at that high a res), and of course using far more power. Biggest difference was for ACU. See:
http://www.tomshardware.co.uk/amd-radeon-r9-390x-r9-380-r7-370,review-33233-6.html
http://www.tomshardware.co.uk/amd-radeon-r9-390x-r9-380-r7-370,review-33233-9.html
Ha! I'm running a 7950 in this machine and a 77nn (7750?) in my family 'puter. Will last me a few more years, I'm hoping.
I'm waiting for the G-sync vs Freesync thing to shake out, I don't want to own a betamax monitor or GPU.
Still too early to jump to conclusions with DX12. NVidia doesn't have proper async compute, but AMD doesn't have Conservative Raster. We still need more benchmark tools and games to test before saying X is better than Y.
Now where is 250X, 380X , 950 !!!! what is this>???
Tomshardware can you please do your job properly !?