Nvidia GeForce RTX 4080 Ti vs Nvidia Quadro series

Nvidia GeForce RTX 4080 Ti on Amazon USA
Nvidia Quadro series on Amazon USA


Compare the technical characteristics between the video card Nvidia GeForce RTX 4080 Ti and the group of graphics cards Nvidia Quadro series, but also with the respective performance in the benchmarks.






Specifications:


Nvidia RTX A6000 2020 Q4 8 nm 1410 1800 6000 48000 300 10752 338 84 336 112 84 201.6 604.8 38710 38710 1210 309.7
Nvidia RTX A5000 2021 Q2 8 nm 1170 1695 6000 24000 230 8192 256 64 256 96 64 162.7 433.9 27770 27770 867.8 222.2
Nvidia RTX A4000 2021 Q2 8 nm 735 1560 4000 16000 140 6144 192 48 192 96 48 149.8 299.5 19170 19170 599 153.4
Nvidia RTX A3000 Mobile 2021 Q2 8 nm 1260 1560 4000 6000 130 4096 128 32 128 64 32 99.84 199.7 12780 12780 199.7 102.2
Nvidia RTX A2000 Mobile 2021 Q2 8 nm 893 1358 2000 4000 95 2560 80 20 80 48 20 65.18 108.6 6953 6953 108.6
Nvidia RTX A2000 2021 Q3 8 nm 562 1200 3000 6000 70 3328 104 26 104 48 26 57.6 124.8 7987 7987 124.8 63.9
Nvidia RTX A1000 Mobile 2021 Q2 8 nm 630 1140 2000 4000 60 2048 64 16 64 48 16 54.72 72.96 4669 4669 72.96
Nvidia Quadro T600 Mobile 2021 Q2 12 nm 930 1395 1024 4000 40 640 40 32 10 44.64 55.8 3571 1786 55.8
Nvidia Quadro T600 2021 Q2 12 nm 735 1335 1024 4000 40 640 40 32 10 42.72 53.4 3418 1709 53.4
Nvidia Quadro T500 Mobile 2020 Q4 12 nm 1365 1695 1024 2000 18 896 56 32 14 54.24 94.92 6075 3037 94.92
Nvidia Quadro T400 4GB 2021 Q2 12 nm 420 1425 1024 4000 30 384 24 16 6 22.8 34.2 2189 1094 34.2
Nvidia Quadro T400 2021 Q2 12 nm 420 1425 1024 2000 30 384 24 16 6 22.8 34.2 2189 1094 34.2
Nvidia Quadro T2000 Mobile 2019 Q2 12 nm 1575 1785 1024 4000 60 1024 64 32 16 57.1 114.2 7311.4 3655.7 114.2
Nvidia Quadro T1200 Mobile 2021 Q2 12 nm 855 1425 1024 4000 18 1024 64 32 16 45.6 91.2 5837 2918 91.2
Nvidia Quadro T1000 2021 Q2 12 nm 1065 1395 1024 4000 50 896 56 32 14 44.64 78.12 5000 2500 78.12
Nvidia Quadro RTX 8000 2018 Q3 12 nm 1395 1770 6000 48000 260 4608 576 72 288 96 72 169.9 509.8 32620 16310 509.8 10 84 130.5
Nvidia Quadro RTX 6000 Mobile 2019 Q3 12 nm 1275 1455 6000 24000 200 4608 576 72 288 96 72 139.7 419 26820 13410 419 10 119.4
Nvidia Quadro RTX 6000 2018 Q3 12 nm 1440 1770 6000 24000 260 4608 576 72 288 96 72 169.9 509.8 32620 16310 509.8 10 84 130.5
Nvidia Quadro RTX 5000 2018 Q3 12 nm 1620 1815 4000 16000 230 3072 384 48 192 64 48 116.2 348.5 22300 11150 348.5 8 62 89.2
Nvidia Quadro RTX 4000 2018 Q4 12 nm 1005 1545 4000 8000 160 2304 288 36 144 64 36 98.88 222.5 14240 7119 222.5 6 43 57
Nvidia Quadro RTX 3000 Mobile 2019 Q2 12 nm 945 1380 3000 6000 80 1920 240 30 120 64 30 88.32 165.6 10600 5299 165.6 42.9
Nvidia Quadro P620 2018 Q1 14 nm 1266 1354 1024 2000 40 512 32 16 4 21.66 43.33 21.66 1386 43.33
Nvidia Quadro P6000 2016 Q4 16 nm 1506 1645 3000 24000 250 3840 240 96 30 157.9 394.8 197.4 12630 394.8
Nvidia Quadro P600 2017 Q1 14 nm 1329 1557 1024 2000 40 384 24 16 3 24.91 37.37 18.68 1196 37.37
Nvidia Quadro P520 Mobile 2019 Q2 14 nm 1303 1493 512 2000 18 384 24 16 3 23.89 35.83 17.92 1147 35.83
Nvidia Quadro P5000 Mobile 2017 Q1 16 nm 1278 1582 2000 16000 100 2048 128 64 16 101.2 202.5 101.2 6480 202.5
Nvidia Quadro P5000 2016 Q4 16 nm 1607 1733 2000 16000 180 2560 160 64 20 110.9 277.3 138.6 8873 277.3
Nvidia Quadro P4000 2017 Q1 16 nm 1202 1480 2000 8000 105 1792 112 64 14 94.72 165.8 82.88 5304 165.8
Nvidia Quadro P400 2017 Q1 14 nm 1228 1252 512 2000 30 256 16 16 2 20.03 20.03 10.02 641 20.03
Nvidia Quadro P2200 2019 Q2 16 nm 1000 1493 1280 5000 75 1280 80 40 10 59.72 119.4 59.72 3822 119.4
Nvidia Quadro P2000 2017 Q1 16 nm 1076 1480 1280 5000 75 1024 64 40 8 59.2 94.72 47.36 3031 94.72
Nvidia Quadro P1000 2017 Q1 14 nm 1354 1392 1024 4000 47 512 32 16 4 22.27 44.54 22.27 1425 44.54
Nvidia Quadro M600M 2015 Q3 28 nm 837 876 2000 2000 30 384 16 8 2 7 14.02 672.8 21.02
Nvidia Quadro M5000 2015 Q2 28 nm 861 1038 2000 8000 150 2048 128 64 16 66.43 132.9 4252 132.9
Nvidia Quadro M4000 2015 Q2 28 nm 773 773 2000 8000 120 1664 104 64 13 49.47 80.39 2573 80.39
Nvidia Quadro M3000M 2015 Q3 28 nm 1050 1050 2000 4000 75 1024 64 32 8 33.6 67.2 2150 67.2
Nvidia Quadro M2200 Mobile 2017 Q1 28 nm 695 1036 1024 4000 55 1024 64 32 8 33.15 66.3 2122 66.3
Nvidia Quadro M2000M 2015 Q4 28 nm 1029 1098 2000 4000 55 640 40 16 5 17.57 43.92 1405 53.92
Nvidia Quadro M2000 2016 Q2 28 nm 796 1163 1024 4000 75 768 48 32 6 37.22 55.82 1786 55.82
Nvidia Quadro M1200 Mobile 2017 Q1 28 nm 991 1148 2000 4000 45 640 40 16 5 18.37 45.92 1469 45.92
Nvidia Quadro K620 2014 Q3 28 nm 1058 1124 2000 2000 45 384 24 16 3 18 27 863.2 27
Nvidia Quadro K6000 2013 Q3 28 nm 797 902 1536 12000 225 2880 240 48 15 54.12 216.5 5196 1732
Nvidia Quadro K600 2013 Q1 28 nm 876 876 256 1024 41 192 16 16 1 3.5 14.02 336.4 14.02
Nvidia Quadro K5000 2012 Q3 28 nm 706 706 512 4000 122 1536 128 32 8 22.59 90.37 2169 90.37
Nvidia Quadro K4200 2014 Q3 28 nm 771 784 512 4000 108 1344 112 32 7 21.95 87.81 2107 87.81
Nvidia Quadro K420 2014 Q3 28 nm 876 876 256 1024 41 192 16 16 1 3.504 14.02 336.4 14.02
Nvidia Quadro K4000 2013 Q1 28 nm 810 810 384 3000 80 768 64 24 4 12.96 51.84 1244 51.84
Nvidia Quadro K2200M 2014 Q3 28 nm 667 667 2000 2000 65 640 40 16 5 10.67 26.68 853.8 26.68
Nvidia Quadro K2200 2014 Q3 28 nm 1046 1124 2000 4000 68 640 40 16 5 17.98 44.96 1439 44.96
Nvidia Quadro K2000 2013 Q1 28 nm 954 954 256 2000 51 384 32 16 2 7.63 30.53 732.7 30.53
Nvidia Quadro K1200 2015 Q1 28 nm 1058 1124 2000 4000 45 512 32 16 4 17.98 35.97 1151 35.97
Nvidia Quadro K1100M 2013 Q3 28 nm 706 706 256 2000 45 384 32 16 2 5.6 22.6 542.2 22.6
Nvidia Quadro K1000M 2012 Q2 28 nm 850 850 256 2000 45 192 16 16 1 3.4 13.6 326.4 13.6
Nvidia Quadro GV100 2018 Q1 12 nm 1132 1627 6000 32000 250 5120 320 128 80 208.3 520.6 33320 16660 8330
Nvidia Quadro FX 3700 2008 Q1 65 nm 500 500 64 512 78 112 56 16 14 8 28 280
Nvidia Quadro FX 1800 2009 Q1 65 nm 550 1375 48 768 59 64 32 12 8 6.6 17.6 176
Nvidia Quadro FX 1500 2006 Q2 90 nm 325 325 0 256 65 16 16 16 5.2 5.2
Nvidia Quadro 7000 2012 Q2 40 nm 651 651 768 6000 204 512 64 48 14 18.23 41.66 1332 666.1
Nvidia Quadro 6000 2010 Q4 40 nm 574 574 768 6000 204 448 56 48 14 16.07 32.14 1028 513.9
Nvidia Quadro 600 2010 Q4 40 nm 640 640 256 1024 40 96 16 8 2 2.56 10.24 245.8 20.48
Nvidia Quadro 5000 2011 Q1 40 nm 513 513 640 2500 152 352 44 40 11 11.29 22.57 722.3 361.2
Nvidia Quadro 4000 2010 Q4 40 nm 475 475 512 2000 142 256 32 32 8 7.6 15.2 486.4 243.2
Nvidia Quadro 400 2011 Q2 40 nm 450 450 32 512 32 48 16 8 6 3.6 7.2 108
Nvidia Quadro 2000 2010 Q4 40 nm 625 625 256 1024 62 192 32 16 4 5 20 480 40
Nvidia Quadro 1999 Q4 220 nm 135 135 0 32 4 4 4 0.54 0.54
Nvidia GeForce RTX 4080 Ti 2023 Q1 5 nm 2100 2400 80000 20000 400 14080 440 110 440 144 110 345.6 1056 67580 67580 1056




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TMUs: texture mapping units. This unit was a physical processor separated from the main graphics processing units. It is able to distort a bitmap image, and also to resize it, to rotate it and to place it as a texture onto a plane of a specific 3D model.

ROPs: render output units. The other name of this unit is raster operations pipeline. This hadware component is taking pixel and texel information, and processing it through vector and matrix operations. The result will be a depth value or a final pixel. It is able to control antialiasing with the merge of several sample into one pixel.

SM / SMX, CUs (compute units) : streaming multiprocessor. These processors are implied in the Kepler's power efficiency when the GPU is using one unified clock speed.

The term pixel fillrate is refering to the number of pixels that the video card is able to generate every second. This performance is achieved by multiplying the raster output units (ROPs) by the clock frequency of the graphics processor unit (GPU).

The term texture fillrate refers to the number of map texture elements (texels) that the GPU is capable of generating per second. This performance is achieved by multiplying the texture mapping units (TMUs) by the clock frequency of the graphics processor unit.



Performances:

FP32 Performance in GFLOPS
Nvidia GeForce RTX 4080 Ti 67,580
Nvidia RTX A6000 38,710
Nvidia RTX A5000 27,770
Nvidia RTX A4000 19,170
Nvidia Quadro GV100 16,660
Nvidia Quadro RTX 6000 16,310
Nvidia Quadro RTX 8000 16,310
Nvidia Quadro RTX 6000 Mobile 13,410
Nvidia RTX A3000 Mobile 12,780
Nvidia Quadro P6000 12,630
Nvidia Quadro RTX 5000 11,150
Nvidia Quadro P5000 8,873
Nvidia RTX A2000 7,987
Nvidia Quadro RTX 4000 7,119
Nvidia RTX A2000 Mobile 6,953
Nvidia Quadro P5000 Mobile 6,480



Single precision floating point format, also known as FP32, is a computer number format that typically occupies 32 bits in PC memory. This represents a wide dynamic range of numeric values that employs a floating point.





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