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{{Use mdy dates|date=October 2018}}
{{Infobox GPU
{{short description|Series of GPUs by Nvidia}}
| name = GeForce 500 Series
{{for|GeForce cards with a model number of 5XX0|GeForce FX series}}{{For|AMD's RX-500 GPUs|RX 500}}{{Infobox GPU
| image = <!-- Commented out: ] -->
| name = GeForce 500 series
| image =
| caption = The GeForce GTX 590 released in 2010 is the series' flagship unit, sporting dual Fermi GF110 chips.
| codename = GF11x | codename = GF11x
| architecture = ] | architecture = ]
| created = 8 November 2010 | created = {{start date and age|November 9, 2010}}
| model = GeForce Series | model = GeForce series
| model1 = GeForce GT Series | model1 = GeForce GT series
| model2 = GeForce GTX Series | model2 = GeForce GTX series
| transistors = 292M 40 nm (GF119) | transistors = 292M 40 nm (GF119)
| transistors1 = 585M 40 nm (GF108) | transistors1 = 585M 40 nm (GF108)
Line 13: Line 16:
| transistors3 = 1.950M 40 nm (GF114) | transistors3 = 1.950M 40 nm (GF114)
| transistors4 = 3.000M 40 nm (GF110) | transistors4 = 3.000M 40 nm (GF110)
| entry = GT 510<br>GT 520<br>GT 530 | entry =GT 505<br>GT 510<br>GT 520<br>GT 530
| midrange = GT 545<br>GTX 550 Ti<br>GTX 560<br>GTX 560 Ti | midrange = GT 545<br>GTX 550 Ti<br>GTX 560<br>GTX 560 Ti<br>GTX 560-448 Ti
| highend = GTX 570<br>GTX 580<br>GTX 590 | highend = GTX 570<br>GTX 580
| enthusiast = GTX 590
| openglversion = ] | openglversion = ]
| d3dversion = ]<ref>{{cite news|last1=Killian|first1=Zak|title=Nvidia finally lets Fermi GPU owners enjoy DirectX 12|url=https://techreport.com/news/32191/nvidia-finally-lets-fermi-gpu-owners-enjoy-directx-12|accessdate=4 July 2017|publisher=Tech Report|date=3 July 2017}}</ref> | d3dversion = ] (] 11_0)<ref>{{cite news|last1=Killian|first1=Zak|title=Nvidia finally lets Fermi GPU owners enjoy DirectX 12|url=https://techreport.com/news/32191/nvidia-finally-lets-fermi-gpu-owners-enjoy-directx-12|access-date=July 4, 2017|publisher=Tech Report|date=July 3, 2017}}</ref> <br />]
| openclversion = ] | openclversion = ]
| predecessor = ] | predecessor = ]
| successor = ] | successor = ]
| support status = Unsupported
}} }}


A refresh of the ] based GeForce 400 series, the '''GeForce 500 series''' is a series of ]s developed by ], first released on November 9, 2010 with the GeForce GTX 580. The '''GeForce 500 series''' is a series of ]s developed by ], as a refresh of the ] based GeForce 400 series. It was first released on November 9, 2010 with the GeForce GTX 580.

Its direct competitor was ]'s ]; they were launched approximately a month apart.


== Overview == == Overview ==
The Nvidia Geforce 500 Series ] are significantly modified versions of the ] ] graphics cards, in terms of performance and ]. Like the Nvidia GeForce 400 Series graphics cards, the Nvidia Geforce 500 Series graphics cards support ] 12.0,] 4.6, and ] 1.1. The Nvidia Geforce 500 series ] are significantly modified versions of the ] graphics cards, in terms of performance and ]. Like the Nvidia GeForce 400 series graphics cards, the Nvidia Geforce 500 series supports ] 11.0,] 4.6, and ] 1.1.


The refreshed Fermi chip is large: it includes 512 ], grouped in 16 stream multiprocessors clusters (each with 32 ] cores), and is manufactured by ] in a 40 ] process. The refreshed Fermi chip includes 512 ], grouped in 16 stream multiprocessors clusters (each with 32 ] cores), and is manufactured by ] in a 40 ] process.


The Nvidia GeForce GTX 580 graphics card is the first in the Nvidia GeForce 500 Series to use a fully enabled chip based on the refreshed Fermi architecture, with all 16 stream multiprocessors clusters and all six ] active. The new GF110 GPU was enhanced with full speed FP16 filtering (the previous generation GF100 GPU could only do half-speed FP16 filtering) and improved ] units. The Nvidia GeForce GTX 580 graphics card is the first in the Nvidia GeForce 500 series to use a fully enabled chip based on the refreshed Fermi architecture, with all 16 stream multiprocessors clusters and all six ] active. The new GF110 GPU was enhanced with full speed FP16 filtering (the previous generation GF100 GPU could only do half-speed FP16 filtering) and improved ] units.


On 25 January 2011, Nvidia launched the GeForce GTX 560 Ti, to target the "sweet spot" ]{{dn|date=April 2018}} where price/performance ratio is considered important. With its more than 30% improvement over the GTX 460, and performance in between the Radeon HD 6870 and 6950 1GB, the GTX 560 Ti directly replaced the GeForce GTX 470. On January 25, 2011, Nvidia launched the GeForce GTX 560 Ti, to target the "sweet spot" ] where price/performance ratio is considered important. With its more than 30% improvement over the GTX 460, and performance in between the Radeon HD 6870 and 6950 1GB, the GTX 560 Ti directly replaced the GeForce GTX 470.


On 17 February 2011, it was reported that the GeForce GTX 550 Ti would be launching on 15 March 2011. Although the GTX 550 Ti is a GF116 mainstream chip, Nvidia chose to name its new card the GTX 550 Ti, and not the GTS 550. Performance was shown to be at least comparable and up to 12% faster than the current Radeon HD 5770. Price-wise, the new card trod into the range occupied by the GeForce GTX 460 (768 MB) and the Radeon HD 6790.<ref>{{cite web | url=http://vr-zone.com/articles/nvidia-geforce-gtx-550-ti-to-launch-on-march-15/11229.html | title=GeForce GTX 550 Ti To Launch On 15 March}}</ref> On February 17, 2011, it was reported that the GeForce GTX 550 Ti would be launching on March 15, 2011. Although the GTX 550 Ti is a GF116 mainstream chip, Nvidia chose to name its new card the GTX 550 Ti, and not the GTS 550. Performance was shown to be at least comparable and up to 12% faster than the current Radeon HD 5770. Price-wise, the new card trod into the range occupied by the GeForce GTX 460 (768 MB) and the Radeon HD 6790.<ref>{{cite web | url=http://vr-zone.com/articles/nvidia-geforce-gtx-550-ti-to-launch-on-march-15/11229.html | title=GeForce GTX 550 Ti To Launch On 15 March | access-date=February 18, 2011 | archive-date=February 18, 2011 | archive-url=https://web.archive.org/web/20110218221352/http://vr-zone.com/articles/nvidia-geforce-gtx-550-ti-to-launch-on-march-15/11229.html | url-status=dead }}</ref>


On 24 March 2011, the GTX 590 was launched as the flagship graphics card for Nvidia. The GTX 590 is a dual-GPU card, similar to past releases such as the GTX 295, and boasted the potential to handle Nvidia's 3D Vision technology by itself. On March 24, 2011, the GTX 590 was launched as the flagship graphics card for Nvidia. The GTX 590 is a dual-GPU card, similar to past releases such as the GTX 295, and boasted the potential to handle Nvidia's 3D Vision technology by itself.<ref>{{Cite news|url=http://www.hexus.net/tech/reviews/graphics/29724-asus-nvidia-geforce-gtx-590-graphics-card-reviewed-rated/|title=ASUS NVIDIA GeForce GTX 590 graphics card reviewed and rated|work=Hexus|access-date=May 29, 2018|language=en-GB}}</ref>


On 13 April 2011, the GT 520 was launched as the bottom-end card in the range, with lower performance than the equivalent number cards in the two previous generations, the GT 220 and the GT 420.{{Citation needed|date=August 2011}} However, it supported DirectX 11 and was more powerful than the GeForce 210, the GeForce 310, and the integrated graphics options on Intel CPUs. On April 13, 2011, the GT 520 was launched as the bottom-end card in the range, with lower performance than the equivalent number cards in the two previous generations, the GT 220 and the GT 420.{{Citation needed|date=August 2011}} However, it supported DirectX 11 and was more powerful than the GeForce 210, the GeForce 310, and the integrated graphics options on Intel CPUs.


On 17 May 2011, Nvidia launched a less expensive (non-Ti) version of the GeForce GTX 560 to strengthen Nvidia's price-performance in the $200 range. Like the faster GTX 560 Ti that came before it, this video card was also faster than the GeForce GTX 460. Standard versions of this card performed comparably to the AMD Radeon HD 6870, and would eventually replace the GeForce GTX 460. Premium versions of this card operate at higher speed (factory overclocked), and are slightly faster than the Radeon 6870, approaching the performance of basic versions of the Radeon HD 6950 and the GeForce GTX 560 Ti. On May 17, 2011, Nvidia launched a less expensive (non-Ti) version of the GeForce GTX 560 to strengthen Nvidia's price-performance in the $200 range. Like the faster GTX 560 Ti that came before it, this video card was also faster than the GeForce GTX 460. Standard versions of this card performed comparably to the AMD Radeon HD 6870, and would eventually replace the GeForce GTX 460. Premium versions of this card operate at higher speed (factory overclocked), and are slightly faster than the Radeon 6870, approaching the performance of basic versions of the Radeon HD 6950 and the GeForce GTX 560 Ti.


On 28 November 2011, Nvidia launched the "GTX560Ti With 448 Cores".<ref>{{cite web | url=http://www.anandtech.com/show/5153/nvidias-geforce-gtx-560-ti-w448-cores-gtx570-on-a-budget.html | title=GeForce GTX560Ti With 448 cores review}}</ref> However, it does not use the silicon of the GTX560 series: it is a GF110 chip with two shader blocks disabled. The most powerful version of the 560 series, this card was widely known to be a "limited production" card and was used as a marketing tool making use of the popularity of the GTX560 brand for the 2011 Holiday season. The performance of the card resides between the regular 560Ti and 570. On November 28, 2011, Nvidia launched the "GTX 560 Ti With 448 Cores".<ref>{{cite web |last=Smith |first=Ryan |date=2011-11-09 |title=NVIDIA's GeForce GTX 560 Ti w/448 Cores: GTX 570 On A Budget |url=http://www.anandtech.com/show/5153/nvidias-geforce-gtx-560-ti-w448-cores-gtx570-on-a-budget.html}}</ref> However, it does not use the silicon of the GTX 560 series: it is a GF110 chip with two shader blocks disabled. The most powerful version of the 560 series, this card was widely known to be a "limited production" card and was used as a marketing tool making use of the popularity of the GTX 560 brand for the 2011 Holiday season. The performance of the card resides between the regular 560 Ti and 570.

== Counterfeit usage ==
The cards of this generation, particularly the smaller length 550 Ti model, are common cards of choice by ] resellers, who take the cards and illicitly modify the firmware to have them report as more modern cards such as the GTX 1060 and 1050 Ti models. These cards are then sold via ], ], ] and ] by scammers. They may have a minimum of functionality to ensure at a first glance they appear legitimate, but defects caused by the fake BIOS, manufacturing and software issues will almost always cause crashes in modern games and applications, and if not, the performance will still be extremely poor.<ref>{{Cite web|last=Burke|first=Steve|title=Fake "GTX 1050 1GB" Scam GPU Benchmark & Review|url=https://www.gamersnexus.net/hwreviews/3337-ebay-scam-gtx-1050-1gb-gpu-benchmarked|access-date=2020-12-19|website=www.gamersnexus.net}}</ref>


== Products == == Products ==
] GTX 590 Classified]]

===GeForce 500 (5xx) series=== ===GeForce 500 (5xx) series===
* <sup>1</sup> ] : ]s : ]s * <sup>1</sup> ]: ]s: ]s
* <sup>2</sup> Each Streaming Multiprocessor (SM) in the GPU of GF110 architecture contains 32 SPs and 4 SFUs. Each Streaming Multiprocessor (SM) in the GPU of GF114/116/118 architecture contains 48 SPs and 8 SFUs. Each SP can fulfil up to two single precision operations FMA per clock. Each SFU can fulfil up to four operations SF per clock. The approximate ratio of operations FMA to operations SF is equal 4:1. The theoretical shader performance in single-precision floating point operations (FMA)]] of the graphics card with shader count and shader frequency , is estimated by the following: ''FLOPS<sub>sp</sub>'' ˜ f × n × 2. Alternative formula: ''FLOPS <sub>sp</sub>'' ˜ f × m × (32 SPs × 2(FMA)). – SM count. Total Processing Power: ''FLOPS<sub>sp</sub>'' ˜ f × m × (32 SPs × 2(FMA) + 4 × 4 SFUs) or ''FLOPS<sub>sp</sub>'' ˜ f × n × 2.5. * <sup>2</sup> Each Streaming Multiprocessor (SM) in the GPU of GF110 architecture contains 32 SPs and 4 SFUs. Each Streaming Multiprocessor (SM) in the GPU of GF114/116/118 architecture contains 48 SPs and 8 SFUs. Each SP can fulfil up to two single precision operations FMA per clock. Each SFU can fulfil up to four operations SF per clock. The approximate ratio of operations FMA to operations SF is equal 4:1. The theoretical shader performance in single-precision floating point operations (FMA)]] of the graphics card with shader count and shader frequency , is estimated by the following: ''FLOPS<sub>sp</sub>'' ˜ f × n × 2. Alternative formula: ''FLOPS <sub>sp</sub>'' ˜ f × m × (32 SPs × 2(FMA)). – SM count. Total Processing Power: ''FLOPS<sub>sp</sub>'' ˜ f × m × (32 SPs × 2(FMA) + 4 × 4 SFUs) or ''FLOPS<sub>sp</sub>'' ˜ f × n × 2.5.
* <sup>3</sup> Each SM in the GF110 contains 4 texture filtering units for every texture address unit. The complete GF110 die contains 64 texture address units and 256 texture filtering units.<ref></ref> Each SM in the GF114/116/118 architecture contains 8 texture filtering units for every texture address unit but has doubled both addressing and filtering units. * <sup>3</sup> Each SM in the GF110 contains 4 texture filtering units for every texture address unit. The complete GF110 die contains 64 texture address units and 256 texture filtering units.<ref></ref> Each SM in the GF114/116/118 architecture contains 8 texture filtering units for every texture address unit but has doubled both addressing and filtering units.
All products are produced using a 40&nbsp;nm fabrication process. All products are produced using a 40&nbsp;nm fabrication process.
All products support Direct X 12.0, OpenGL 4.6 and OpenCL 1.1. All products support DirectX 12.0, OpenGL 4.6 and OpenCL 1.1.

{| class="wikitable" style="font-size: 85%; text-align: center;"
|-
! rowspan=2 | Model
! rowspan=2 | Launch
! rowspan=2 | ]
! rowspan=2 | Transistors (Million)
! rowspan=2 | Die size (mm<sup>2</sup>)
! rowspan=2 | ] ]
! rowspan=2 | SM count
! rowspan=2 | Core config<sup>1,3</sup>
! colspan=3 | Clock rate
! colspan=2 | ]
! colspan=4 | Memory Configuration
! rowspan=2 | Compute capability
! rowspan=2 | ] (FMA)<sup>2</sup>
! rowspan=2 | ] (watts)
! colspan=2 | Release Price
|-
! Core (])
! Shader (])
! Memory (])
! Pixel (]/s)
! Texture (]/s)
! Size (])
! Bandwidth (]/s)
! DRAM type
! Bus width (])
! USD
! GBP
|-
! style="text-align:left;"| GeForce 510
| ?
| GF119
| ?
| 79
| PCIe 2.0 x16
| 1
| 48:8:4
| 523
| 1046
| 1796
| 2.09
| 4.18
| 1024<br>2048
| 14.0
| ]
| 64
| 2.1
| 100.4
| 25
| OEM
| OEM
|-
! style="text-align:left;"| GeForce GT 520
| 12 April 2011
| GF119
| ?
| 79
| PCIe 2.0 x16
| 1
| 48:8:4
| 810
| 1620
| 1800
| 3.24
| 6.5
| 1024<br>2048
| 14.1
| ]
| 64
| 2.1
| 155.5
| 29
| $59
| £45
|-
! style="text-align:left;"| GeForce GT 530
| 14 May 2011
| GF108
| 585
| 116
| PCIe 2.0 x16
| 2
| 96:16:8
| 700
| 1400
| 1800
| 5.6
| 11.2
| 1024<br>2048
| 28.8
| ]
| 128
| 2.1
| 268.8
| 50
| OEM
| OEM
|-
! style="text-align:left;"| GeForce GT 545 DDR3
| 14 May 2011
| GF116
| 1170
| 238
| PCIe 2.0 x16
| 3
| 144:24:24
| 720
| 1440
| 1800
| 17.28
| 17.28
| 1536<br>3072
| 43
| ]
| 192
| 2.1
| 417.7
| 70
| $109
| ?
|-
! style="text-align:left;"| GeForce GT 545 GDDR5
| 14 May 2011
| GF116
| 1170
| 238
| PCIe 2.0 x16
| 3
| 144:24:16
| 870
| 1740
| 3996
| 13.92
| 20.88
| 1024
| 62.4
| ]
| 128
| 2.1
| 501.1
| 105
| OEM
| OEM
|-
! style="text-align:left;"| GeForce GTX 550 Ti
| 15 March 2011
| GF116
| 1170
| 238
| PCIe 2.0 x16
| 4
| 192:32:24
| 900
| 1800
| 4104
| 21.6
| 28.8
| 1024<br>2048
| 98.5
| ]
| 192
| 2.1
| 691.2
| 116
| $149
| ?
|-
! style="text-align:left;"| GeForce GTX 555
| 14 May 2011
| GF114
| 1950
| 332
| PCIe 2.0 x16
| 6
| 288:48:24
| 736
| 1472
| 3828
| 8.8
| 35.3
| 1024
| 91.9
| ]
| 192
| 2.1
| 847.9
| 150
| OEM
| OEM
|-
! style="text-align:left;"| GeForce GTX 560 SE
| March 2012
| GF114
| 1950
| 360
| PCIe 2.0 x16
| 6
| 288:48:24
| 736
| 1472
| 3828
| 17.7
| 35.3
| 1024
| 92
| ]
| 192
| 2.1
| 847.9
| 150
| ?
| £100
|-
! style="text-align:left;"| GeForce GTX 560
| 17 May 2011
| GF114
| 1950
| 360
| PCIe 2.0 x16
| 7
| 336:56:32
| 810-950
| 1620-1900
| 4004-4488
| 25.9
| 45.4-49.8
| 1024<br>2048<ref name="GTX560-gainward">{{cite web | url=http://www.gainward.com/main/vgapro.php?id=663 | title=Gainward GeForce® GTX 560 2048MB}}</ref>
| 128
| ]
| 256
| 2.1
| 1088.6-1276.8<br>1075<ref name="GTX580-anandtech">{{cite web | url=http://www.hexus.net/content/item.php?item=30427 | title=ASUS (NVIDIA) GeForce GTX 560 graphics-card review | date= 19 May 2011 | author= Tarinder Sandhu}}</ref>
| 150
| $199
| ?
|-
! style="text-align:left;"| GeForce GTX 560 Ti
| 25&nbsp;January 2011
| GF114
| 1950
| 360
| PCIe 2.0 x16
| 8
| 384:64:32
| 822
| 1645
| 4008
| 26.3
| 52.61
| 1024<br>2048
| 128.27
| ]
| 256
| 2.1
| 1263.4
| 170
| $249
| ?
|-
! style="text-align:left;"| GeForce GTX 560 Ti 448 Core
| 28&nbsp;November 2011
| GF110
| 3000
| 520
| PCIe 2.0 x16
| 14
| 448:56:40
| 732
| 1464
| 3800
| 29.28
| 41
| 1280
| 152
| ]
| 320
| 2.0
| 1311.7
| 210
| $289
| £239.99
|-
! style="text-align:left;"| GeForce GTX 570
| 7&nbsp;December 2010
| GF110
| 3000
| 520
| PCIe 2.0 x16
| 15
| 480:60:40
| 732
| 1464
| 3800
| 29.28
| 43.92
| 1280<br>2560
| 152
| ]
| 320
| 2.0
| 1405.4
| 219
| $349
| ?
|-
! style="text-align:left;"| GeForce GTX 580
| 9&nbsp;November 2010
| GF110
| 3000<ref name="GTX580-anandtech2">{{cite web | url=http://www.anandtech.com/show/4008/nvidias-geforce-gtx-580 | title=Nvidia's GeForce GTX 580: Fermi Refined | date= 9 November 2010 | author= Ryan Smith}}</ref>
| 520<ref name="GTX580-anandtech2"/>
| PCIe 2.0 x16
| 16
| 512:64:48
| 772
| 1544
| 4008<!--Memory clock - The factory effective memory clock frequency in MHz, not data rate in MT/s-->
| 37.06
| 49.41
| 1536<br/>3072
| 192.4
| ]
| 384
| 2.0
| 1581.1
| 244<ref></ref>
| $499
| £399
|-
! style="text-align:left;"| GeForce GTX 590
| 24 March 2011
| 2× GF110
| 2× 3000
| 2× 520
| PCIe 2.0 x16
| 32<ref name="GTX590-review-bit-tech"/>
| 1024:128:96<ref name="GTX590-techarp-leaks">{{cite web | url=http://www.techarp.com/showarticle.aspx?artno=720 | title=GeForce GTX 590 3GB Specifications | date= 24 March 2011}}</ref>
| 607
| 1215
| 3414<ref name="GTX590-techarp-leaks"/>
| 58.75<ref name="GTX590-techarp-leaks"/>
| 77.7
| 2× 1536<ref name="GTX590-review-bit-tech">{{cite web | url=http://www.bit-tech.net/hardware/graphics/2011/03/24/nvidia-geforce-gtx-590-3gb-review/2 | title=NVIDIA GeForce GTX 590 Details Leaked! | date= 21 March 2011}}</ref>
| 327.7
| ]
| 2x384
| 2.0
| 2488.3
| 365
| $699
| £570<ref name="GTX590-review-bit-tech"/>
|-
|}


=== GeForce 500M (5xxM) series === === GeForce 500M (5xxM) series ===
The GeForce 500M series for notebook architecture. The GeForce 500M series for notebook architecture.


* <sup>1</sup> ] : ]s : ]s * <sup>1</sup> ]: ]s: ]s


{{row hover highlight}}
{| class="wikitable" style="font-size: 85%; text-align: center;"
{{sort under}}
{| class="wikitable sortable sort-under mw-datatable" style="font-size: 85%; text-align: center;"
|- |-
! rowspan=2 | Model ! rowspan=2 | Model
Line 423: Line 81:
! colspan=2 | ] ! colspan=2 | ]
! colspan=4 | Memory ! colspan=4 | Memory
! colspan=3 | ] support (version) ! colspan=4 | ] support (version)
! rowspan=2 | Processing Power<sup>2</sup><br> (GFLOPS) ! rowspan=2 | Processing Power<sup>2</sup><br> (GFLOPS)
! rowspan=2 | ] (watts) ! rowspan=2 | ] (watts)
Line 439: Line 97:
! ] ! ]
! ] ! ]
! ]
! ] ! ]
|- |-
! style="text-align:left;" | GeForce GT 520M ! style="text-align:left;" | GeForce GT 520M
| 5 January 2011 | January 5, 2011
| GF119 | GF119
| 40 | 40
Line 456: Line 115:
| DDR3 | DDR3
| 64 | 64
| rowspan="10" | 12.0 | rowspan="10" | 12.0<br />(11_0)
| rowspan="10" | 4.6 | rowspan="10" | 4.6
| rowspan="10" | 1.1
| rowspan="10" {{n/a}} | rowspan="10" {{n/a}}
| 142.08 | 142.08
Line 483: Line 143:
|- |-
! style="text-align:left;" | GeForce GT 520MX ! style="text-align:left;" | GeForce GT 520MX
| 30 May 2011 | May 30, 2011
| GF119 | GF119
| 40 | 40
Line 502: Line 162:
|- |-
! style="text-align:left;" | GeForce GT 525M ! style="text-align:left;" | GeForce GT 525M
| 5 January 2011 | January 5, 2011
| GF108 | GF108
| 40 | 40
Line 521: Line 181:
|- |-
! style="text-align:left;" | GeForce GT 540M ! style="text-align:left;" | GeForce GT 540M
| 5 January 2011 | January 5, 2011
| GF108 | GF108
| 40 | 40
Line 540: Line 200:
|- |-
! style="text-align:left;" | GeForce GT 550M ! style="text-align:left;" | GeForce GT 550M
| 5 January 2011 | January 5, 2011
| GF108 | GF108
| 40 | 40
Line 559: Line 219:
|- |-
! style="text-align:left;" | GeForce GT 555M ! style="text-align:left;" | GeForce GT 555M
| 5 January 2011 | January 5, 2011
| GF106<br><br>GF108 | GF106<br><br>GF108
| 40 | 40
Line 578: Line 238:
|- |-
! style="text-align:left;" | GeForce GTX 560M ! style="text-align:left;" | GeForce GTX 560M
| 30 May 2011 | May 30, 2011
| GF116 | GF116
| 40 | 40
Line 596: Line 256:
| |
|- |-
! style="text-align:left;" | GeForce GTX 570M<ref>http://www.geforce.com/#/Hardware/GPUs/geforce-gtx-570m/specifications</ref> ! style="text-align:left;" | GeForce GTX 570M<ref>{{Cite web|url=http://www.geforce.com/#/Hardware/GPUs/geforce-gtx-570m/specifications|title = Graphics Cards, Gaming, Laptops, and Virtual Reality from NVIDIA GeForce}}</ref>
| 28 June 2011 | June 28, 2011
| GF114 | GF114
| 40 | 40
Line 616: Line 276:
|- |-
! style="text-align:left;" | GeForce GTX 580M ! style="text-align:left;" | GeForce GTX 580M
| 28 June 2011 | June 28, 2011
| GF114 | GF114
| 40 | 40
Line 636: Line 296:


== Chipset table == == Chipset table ==
===GeForce 500 (5xx) series===
{{Main|List of Nvidia graphics processing units#GeForce 500 series|l1=Comparison table of GeForce 500 Series}}
{{row hover highlight}}
{{sort under}}
{| class="wikitable sortable sort-under mw-datatable" style="font-size: 85%; text-align: center;"
|-
! rowspan="2" | Model
! rowspan="2" | Launch
! rowspan="2" | ]
! rowspan="2" | Fab (])
! rowspan="2" | Transistors (million)
! rowspan="2" | Die size (mm<sup>2</sup>)
! rowspan="2" | ] ]
! rowspan="2" | SM count
! rowspan="2" | Core config{{efn|name=geforce 500 1|]: ]s: ]s}}{{efn|name=geforce 500 3|Each SM in the GF110 contains 4 texture filtering units for every texture address unit. The complete GF110 die contains 64 texture address units and 256 texture filtering units.<ref>{{cite web |url=http://www.anandtech.com/show/4008/nvidias-geforce-gtx-580/2 |title=GF110: Fermi Learns Some New Tricks - Nvidia's GeForce GTX 580: Fermi Refined |website=Anandtech.com |access-date=2015-12-11 |archive-url=https://web.archive.org/web/20160113203734/http://www.anandtech.com/show/4008/nvidias-geforce-gtx-580/2 |archive-date=2016-01-13 |url-status=live }}</ref> Each SM in the GF114/116/118 architecture contains 8 texture filtering units for every texture address unit but has doubled both addressing and filtering units.}}
! colspan="3" | Clock rate
! colspan="2" | ]
! colspan="4" | Memory configuration
! colspan="4" | Supported ] version
! colspan="2" | Processing power (]){{efn|name=geforce 500 2|To calculate the processing power see ].}}
! rowspan="2" | ] (watts){{efn|name=geforce 500 6|Similar to previous generation, GTX 580 and most likely future GTX 570,{{Update inline|date=April 2021}} while reflecting its improvement over GF100, still have lower rated TDP and higher power consumption, e.g. GTX 580 (243W TDP) is slightly less power hungry than GTX 480 (250W TDP). This is managed by clock throttling through drivers when a dedicated power hungry application is identified that could breach card TDP. Application name changing will disable throttling and enable full power consumption, which in some cases could be close to that of GTX 480.<ref>{{cite web |url=http://www.anandtech.com/Show/Index/4008?cPage=14&all=False&sort=0&page=17&slug=nvidias-geforce-gtx-580 |title=Power, Temperature, and Noise - Nvidia's GeForce GTX 580: Fermi Refined |website=Anandtech.com |access-date=2015-12-11 |archive-url=https://web.archive.org/web/20160113203734/http://www.anandtech.com/Show/Index/4008?cPage=14&all=False&sort=0&page=17&slug=nvidias-geforce-gtx-580 |archive-date=2016-01-13 |url-status=live }}</ref>}}
! rowspan="2" | Release price (USD)
|-
! Core (])
! Shader (])
! Memory (])
! Pixel (]/s)
! Texture (]/s)
! Size (])
! Bandwidth (]/s)
! DRAM type
! Bus width (])
! ]
! ]
! ]
! ]<sup>8</sup>
! ]
! ]
|-
! style="text-align:left;" | GeForce 510
| September 29, 2011
| rowspan="2" | GF119
| rowspan="15" |] ]
| rowspan="2" | 292
| rowspan="2" | 79
| PCIe 2.0 x16
| rowspan="2" | 1
| rowspan="2" | 48:8:4
| 523
| 1046
| rowspan="4" | 1800
| 2.1
| 4.5
| rowspan="3" | 1024<br />2048
| 14.4
| rowspan="4" | DDR3
| rowspan="2" | 64
| rowspan="15" | n/a<ref name="vulkandrv">{{cite web | url=https://www.khronos.org/conformance/adopters/conformant-products | title=The Khronos Group | date=31 May 2022 }}</ref>
| rowspan="15" | 12 (11_0)
| rowspan="15" | 4.6
| rowspan="15" | 1.1
| 100.4
| {{unk}}
| 25
| OEM
|-
! style="text-align:left;" | GeForce GT 520
| April 12, 2011
| PCIe 2.0 x16<br />PCIe 2.0 x1<br />PCI
| 810
| 1620
| 3.25
| 6.5
| 14.4
| 155.5
| {{unk}}
| 29
| 59
|-
! style="text-align:left;" | GeForce GT 530<ref>{{cite web|title=NVIDIA GeForce GT 530 OEM Specs|url=https://www.techpowerup.com/gpu-specs/geforce-gt-530-oem.c630|access-date=September 25, 2022|website=TechPowerUp}}</ref>
| rowspan="3" | May 14, 2011
| GF108-220
| 585
| 116
| rowspan="13" | PCIe 2.0 x16
| 2
| 96:16:4
| 700
| 1400
| 2.8
| 11.2
| 28.8
| 128
| 268.8
| 22.40
| 50
| OEM
|-
! rowspan="2" style="text-align:left;" | GeForce GT 545
| rowspan="2" | GF116
| rowspan="3" | ~1170
| rowspan="3" | ~238
| rowspan="2" | 3
| rowspan="2" | 144:24:16
| 720
| 1440
| 11.52
| 17.28
| 1536<br />3072
| 43
| 192
| 415.07
| {{unk}}
| 70
| 149
|-
| 870
| 1740
| 3996
| 13.92
| 20.88
| 1024
| 64
| rowspan="11" | GDDR5
| 128
| 501.12
| {{unk}}
| 105
| OEM
|-
! style="text-align:left;" | GeForce GTX 550 Ti
| March 15, 2011
| GF116-400
| 4
| 192:32:24
| 900
| 1800
| 4104
| 21.6
| 28.8
| 768+256<br />1536
| 65.7+32.8<br />98.5
| 128+64{{efn|name=geforce 500 9|1024 MB RAM on 192-bit bus assemble with 4 x (128 MB) + 2 x (256 MB).}}<br />192
| 691.2
| {{unk}}
| 116
| 149
|-
! style="text-align:left;" | GeForce GTX 555
| May 14, 2011
| GF114
| rowspan="4" | 1950
| rowspan="4" | 332
| rowspan="2" | 6
| rowspan="2" | 288:48:24
| rowspan="2" | 736
| rowspan="2" | 1472
| rowspan="2" | 3828
| rowspan="2" | 17.6
| rowspan="2" | 35.3
| rowspan="2" | 1024
| rowspan="2" | 91.9
| rowspan="2" | 128+64{{efn|name=geforce 500 9|1024 MB RAM on 192-bit bus assemble with 4 x (128 MB) + 2 x (256 MB).}}
| rowspan="2" | 847.9
| {{unk}}
| rowspan="3" | 150
| rowspan="2" | OEM
|-
! style="text-align:left;" | GeForce GTX 560 SE
| February 20, 2012<ref>{{cite web |url=https://www.techpowerup.com/gpudb/341/geforce-gtx-560-se |access-date=2018-08-06 |title=NVIDIA GeForce GTX 560 SE Specs }}{{dead link|date=June 2022|bot=medic}}{{cbignore|bot=medic}}</ref>
| GF114-200-KB-A1{{efn|name=geforce 500 4|Internally referred to as GF104B<ref name="gpu-tech1">{{cite web |url=http://www.gpu-tech.org/content.php/144-%E2%80%A6and-GF110s-real-name-is-GF100B-%28and-who-guesses-what-GF114-is-%29 |title=...and GF110s real name is: GF100B |website=GPU-Tech.org |access-date=2015-12-11 |archive-url=https://web.archive.org/web/20160113203736/http://www.gpu-tech.org/content.php/144-%E2%80%A6and-GF110s-real-name-is-GF100B-%28and-who-guesses-what-GF114-is-%29 |archive-date=2016-01-13 |url-status=live }}</ref>}}
| {{unk}}
|-
! style="text-align:left;" | GeForce GTX 560
| May 17, 2011
| GF114-325-A1{{efn|name=geforce 500 4}}
| 7
| 336:56:32
| 810
| 1620
| rowspan="2" | 4008
| 25.92
| 45.36
| rowspan="2" | 1024 2048
| 128.1
| rowspan="2" | 256
| 1088.6
| {{unk}}
| 199
|-
! rowspan="2" style="text-align:left;" | GeForce GTX 560 Ti
| January 25, 2011
| GF114-400-A1{{efn|name=geforce 500 4}}
| 8
| 384:64:32
| 822
| 1645
| 26.3
| 52.61
| 128.26
| 1263.4
| 110
| 170
| 249
|-
| May 30, 2011
| GF110{{efn|name=geforce 500 5|Internally referred to as GF100B<ref name="gpu-tech1" />}}
| rowspan="4" | 3000<ref name="GTX580-anandtech">{{cite web |url=http://www.anandtech.com/show/4008/nvidias-geforce-gtx-580 |title=Nvidia's GeForce GTX 580: Fermi Refined |date=November 9, 2010 |publisher=] |author=Ryan Smith |access-date=November 9, 2010 |archive-url=https://web.archive.org/web/20101110202636/http://www.anandtech.com/show/4008/nvidias-geforce-gtx-580 |archive-date=November 10, 2010 |url-status=live }}</ref>
| rowspan="4" | 520<ref name="GTX580-anandtech" />
| 11
| 352:44:40
| rowspan="3" | 732
| rowspan="3" | 1464
| rowspan="3" | 3800<!--according to Field explanations-->
| rowspan="3" | 29.28
| 32.21
| 1280<br />2560
| rowspan="3" | 152
| rowspan="3" | 320
| 1030.7
| 128.83
| rowspan="2" | 210{{efn|name=geforce 500 6}}
| OEM
|-
! style="text-align:left;" | GeForce GTX 560 Ti 448 Cores
| November 29, 2011
| GF110-270-A1{{efn|name=geforce 500 5}}
| 14
| 448:56:40
| 40.99
| 1280
| 1311.7
| 163.97
| 289
|-
! style="text-align:left;" | GeForce GTX 570
| December 7, 2010
| GF110-275-A1{{efn|name=geforce 500 5}}
| 15
| 480:60:40
| 43.92
| 1280 2560
| 1405.4
| 175.68
| 219{{efn|name=geforce 500 6}}
| 349
|-
! style="text-align:left;" | GeForce GTX 580
| November 9, 2010
| GF110-375-A1{{efn|name=geforce 500 5}}
| 16
| 512:64:48
| 772
| 1544
| 4008
| 37.05
| 49.41
| 1536<br />3072{{efn|name=geforce 500 7|Some companies have announced that they will be offering the GTX 580 with 3GB RAM.<ref>{{cite web |url=http://www.evga.com/products/moreInfo.asp?pn=03G-P3-1584-AR&family=GeForce+500+Series+Family&sw |title=Products - Featured Products |publisher=EVGA |access-date=2015-12-11 |archive-url=https://web.archive.org/web/20120324052045/http://www.evga.com/products/moreInfo.asp?pn=03G-P3-1584-AR&family=GeForce+500+Series+Family&sw |archive-date=2012-03-24 |url-status=live }}</ref>}}
| 192.384
| 384
| 1581.1
| 197.63
| 244{{efn|name=geforce 500 6}}<ref>{{cite web |url=http://www.techpowerup.com/reviews/NVIDIA/GeForce_GTX_580/3.html |title=Nvidia GeForce GTX 580 1536 MB Review |website=TechPowerUp |date=2010-11-09 |access-date=2015-12-11 |archive-url=https://web.archive.org/web/20151222085437/http://www.techpowerup.com/reviews/NVIDIA/GeForce_GTX_580/3.html |archive-date=2015-12-22 |url-status=live }}</ref>
| 499
|-
! style="text-align:left;" | GeForce GTX 590
| March 24, 2011
| 2x GF110-351-A1
| 2x 3000
| 2x 520
| 2x16
| 2x 512:64:48
| 607
| 1215
| 3414
| 2x29.14
| 2x38.85
| 2x 1536
| 2x163.87
| 2x384
| 2488.3
| 311.04
| 365
| 699
|-
! rowspan="2" | Model
! rowspan="2" | Launch
! rowspan="2" | ]
! rowspan="2" | Fab (])
! rowspan="2" | Transistors (million)
! rowspan="2" | Die size (mm<sup>2</sup>)
! rowspan="2" | ] ]
! rowspan="2" | SM count
! rowspan="2" | Core config{{efn|name=geforce 500 1|]: ]s: ]s}}{{efn|name=geforce 500 3}}
! colspan="3" | Clock rate
! colspan="2" | ]
! colspan="4" | Memory configuration
! colspan="4" | Supported ] version
! colspan="2" | Processing power (]){{efn|name=geforce 500 2|To calculate the processing power see ].}}
! rowspan="2" | ] (Watts){{efn|name=geforce 500 6}}
! rowspan="2" | Release price (USD)
|-
! Core (])
! Shader (])
! Memory (])
! Pixel (]/s)
! Texture (]/s)
! Size (])
! Bandwidth (]/s)
! DRAM type
! Bus width (])
! ]
! ]
! ]
! ]<sup>8</sup>
! ]
! ]
|}
{{notelist}}


== Discontinued support == == Discontinued support ==
Nvidia announced that after Release 390 drivers, Nvidia will no longer release ] for 32-bit operating systems.<ref>http://nvidia.custhelp.com/app/answers/detail/a_id/4604/</ref> Nvidia announced that after Release 390 drivers, it will no longer release ] for 32-bit operating systems.<ref>{{Cite web|url=http://nvidia.custhelp.com/app/answers/detail/a_id/4604/|title = Support Plan for 32-bit and 64-bit Operating Systems &#124; NVIDIA}}</ref>


Nvidia announced in April 2018 that Fermi will transition to legacy driver support status and maintained until January 2019.<ref>http://nvidia.custhelp.com/app/answers/detail/a_id/4654</ref> Nvidia announced in April 2018 that Fermi will transition to legacy driver support status and be maintained until January 2019.<ref>{{Cite web|url=http://nvidia.custhelp.com/app/answers/detail/a_id/4654|title = Support Plan for Fermi series GeForce GPUs &#124; NVIDIA}}</ref>


== See also == == See also ==
Line 650: Line 627:
* ] * ]
* ] * ]
* ] * ]
* ] * ]
* ] * ]


==Notes== ==Notes==
*{{cite web|url= http://www.realworldtech.com/page.cfm?ArticleID=RWT093009110932 |title= Inside Fermi: Nvidia's HPC Push |author= David Kanter |publisher= realworldtech.com |date= 30 September 2009 |accessdate=16 December 2010}} *{{cite web|url= http://www.realworldtech.com/page.cfm?ArticleID=RWT093009110932 |title= Inside Fermi: Nvidia's HPC Push |author= David Kanter |publisher= realworldtech.com |date= September 30, 2009 |access-date=December 16, 2010}}


== References == == References ==
Line 661: Line 638:


==External links== ==External links==
{{commons category|Nvidia GeForce 500 series video cards}}
{{refbegin|30em}} {{refbegin|30em}}
* *
Line 692: Line 670:
{{Nvidia}} {{Nvidia}}


{{DEFAULTSORT:Geforce 500 series}}
{{use dmy dates|date=January 2012}}

{{DEFAULTSORT:Geforce 500 Series}}
] ]
] ]
] ]

Latest revision as of 05:28, 8 January 2025

Series of GPUs by Nvidia For GeForce cards with a model number of 5XX0, see GeForce FX series.For AMD's RX-500 GPUs, see RX 500.
GeForce 500 series
Release dateNovember 9, 2010; 14 years ago (November 9, 2010)
CodenameGF11x
ArchitectureFermi
ModelsGeForce series
  • GeForce GT series
  • GeForce GTX series
Transistors292M 40 nm (GF119)
  • 585M 40 nm (GF108)
  • 1.170M 40 nm (GF116)
  • 1.950M 40 nm (GF114)
  • 3.000M 40 nm (GF110)
Cards
Entry-levelGT 505
GT 510
GT 520
GT 530
Mid-rangeGT 545
GTX 550 Ti
GTX 560
GTX 560 Ti
GTX 560-448 Ti
High-endGTX 570
GTX 580
EnthusiastGTX 590
API support
DirectXDirect3D 12.0 (feature level 11_0)
Shader Model 5.1
OpenCLOpenCL 1.1
OpenGLOpenGL 4.6
History
PredecessorGeForce 400 series
SuccessorGeForce 600 series
Support status
Unsupported

The GeForce 500 series is a series of graphics processing units developed by Nvidia, as a refresh of the Fermi based GeForce 400 series. It was first released on November 9, 2010 with the GeForce GTX 580.

Its direct competitor was AMD's Radeon HD 6000 series; they were launched approximately a month apart.

Overview

The Nvidia Geforce 500 series graphics cards are significantly modified versions of the GeForce 400 series graphics cards, in terms of performance and power management. Like the Nvidia GeForce 400 series graphics cards, the Nvidia Geforce 500 series supports DirectX 11.0,OpenGL 4.6, and OpenCL 1.1.

The refreshed Fermi chip includes 512 stream processors, grouped in 16 stream multiprocessors clusters (each with 32 CUDA cores), and is manufactured by TSMC in a 40 nm process.

The Nvidia GeForce GTX 580 graphics card is the first in the Nvidia GeForce 500 series to use a fully enabled chip based on the refreshed Fermi architecture, with all 16 stream multiprocessors clusters and all six 64-bit memory controllers active. The new GF110 GPU was enhanced with full speed FP16 filtering (the previous generation GF100 GPU could only do half-speed FP16 filtering) and improved z-culling units.

On January 25, 2011, Nvidia launched the GeForce GTX 560 Ti, to target the "sweet spot" segment where price/performance ratio is considered important. With its more than 30% improvement over the GTX 460, and performance in between the Radeon HD 6870 and 6950 1GB, the GTX 560 Ti directly replaced the GeForce GTX 470.

On February 17, 2011, it was reported that the GeForce GTX 550 Ti would be launching on March 15, 2011. Although the GTX 550 Ti is a GF116 mainstream chip, Nvidia chose to name its new card the GTX 550 Ti, and not the GTS 550. Performance was shown to be at least comparable and up to 12% faster than the current Radeon HD 5770. Price-wise, the new card trod into the range occupied by the GeForce GTX 460 (768 MB) and the Radeon HD 6790.

On March 24, 2011, the GTX 590 was launched as the flagship graphics card for Nvidia. The GTX 590 is a dual-GPU card, similar to past releases such as the GTX 295, and boasted the potential to handle Nvidia's 3D Vision technology by itself.

On April 13, 2011, the GT 520 was launched as the bottom-end card in the range, with lower performance than the equivalent number cards in the two previous generations, the GT 220 and the GT 420. However, it supported DirectX 11 and was more powerful than the GeForce 210, the GeForce 310, and the integrated graphics options on Intel CPUs.

On May 17, 2011, Nvidia launched a less expensive (non-Ti) version of the GeForce GTX 560 to strengthen Nvidia's price-performance in the $200 range. Like the faster GTX 560 Ti that came before it, this video card was also faster than the GeForce GTX 460. Standard versions of this card performed comparably to the AMD Radeon HD 6870, and would eventually replace the GeForce GTX 460. Premium versions of this card operate at higher speed (factory overclocked), and are slightly faster than the Radeon 6870, approaching the performance of basic versions of the Radeon HD 6950 and the GeForce GTX 560 Ti.

On November 28, 2011, Nvidia launched the "GTX 560 Ti With 448 Cores". However, it does not use the silicon of the GTX 560 series: it is a GF110 chip with two shader blocks disabled. The most powerful version of the 560 series, this card was widely known to be a "limited production" card and was used as a marketing tool making use of the popularity of the GTX 560 brand for the 2011 Holiday season. The performance of the card resides between the regular 560 Ti and 570.

Counterfeit usage

The cards of this generation, particularly the smaller length 550 Ti model, are common cards of choice by counterfeit resellers, who take the cards and illicitly modify the firmware to have them report as more modern cards such as the GTX 1060 and 1050 Ti models. These cards are then sold via eBay, Taobao, Aliexpress and Wish.com by scammers. They may have a minimum of functionality to ensure at a first glance they appear legitimate, but defects caused by the fake BIOS, manufacturing and software issues will almost always cause crashes in modern games and applications, and if not, the performance will still be extremely poor.

Products

An EVGA GTX 590 Classified

GeForce 500 (5xx) series

  • Unified shaders: Texture mapping units: Render output units
  • Each Streaming Multiprocessor (SM) in the GPU of GF110 architecture contains 32 SPs and 4 SFUs. Each Streaming Multiprocessor (SM) in the GPU of GF114/116/118 architecture contains 48 SPs and 8 SFUs. Each SP can fulfil up to two single precision operations FMA per clock. Each SFU can fulfil up to four operations SF per clock. The approximate ratio of operations FMA to operations SF is equal 4:1. The theoretical shader performance in single-precision floating point operations (FMA) of the graphics card with shader count and shader frequency , is estimated by the following: FLOPSsp ˜ f × n × 2. Alternative formula: FLOPS sp ˜ f × m × (32 SPs × 2(FMA)). – SM count. Total Processing Power: FLOPSsp ˜ f × m × (32 SPs × 2(FMA) + 4 × 4 SFUs) or FLOPSsp ˜ f × n × 2.5.
  • Each SM in the GF110 contains 4 texture filtering units for every texture address unit. The complete GF110 die contains 64 texture address units and 256 texture filtering units. Each SM in the GF114/116/118 architecture contains 8 texture filtering units for every texture address unit but has doubled both addressing and filtering units.

All products are produced using a 40 nm fabrication process. All products support DirectX 12.0, OpenGL 4.6 and OpenCL 1.1.

GeForce 500M (5xxM) series

The GeForce 500M series for notebook architecture.

Model Launch Code name Fab (nm) Bus interface Core config Clock speed Fillrate Memory API support (version) Processing Power
(GFLOPS) 		TDP (watts) Notes
Core (MHz) Shader (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) DirectX OpenGL OpenCL Vulkan
GeForce GT 520M January 5, 2011 GF119 40 PCIe 2.0 x16 48:8:4 740 1480 1600 2.96 5.92 1024 12.8 DDR3 64 12.0
(11_0) 		4.6 1.1 142.08 12
GeForce GT 520M GF108 40 PCIe 2.0 x16 96:16:4 515 1030 1600 2.06 8.24 1024 12.8 DDR3 64 197.76 20 Noticed in Lenovo laptops
GeForce GT 520MX May 30, 2011 GF119 40 PCIe 2.0 x16 48:8:4 900 1800 1800 3.6 7.2 1024 14.4 DDR3 64 172.8 20
GeForce GT 525M January 5, 2011 GF108 40 PCIe 2.0 x16 96:16:4 600 1200 1800 2.4 9.6 1024 28.8 DDR3 128 230.4 20-23
GeForce GT 540M January 5, 2011 GF108 40 PCIe 2.0 x16 96:16:4 672 1344 1800 2.688 10.752 1024 28.8 DDR3 128 258.048 32-35
GeForce GT 550M January 5, 2011 GF108 40 PCIe 2.0 x16 96:16:4 740 1480 1800 2.96 11.84 1024 28.8 DDR3 128 284.16 32-35
GeForce GT 555M January 5, 2011 GF106

GF108 		40 PCIe 2.0 x16 144:24:24
144:24:16
96:16:4 		590
650
753 		1180
1300
1506 		1800
1800
3138 		14.6
10.4
3 		14.6
15.6
12 		1536
2048
1024 		43.2
28.8
50.2 		DDR3
DDR3
GDDR5 		192
128
128 		339.84
374.4
289.15 		30-35
GeForce GTX 560M May 30, 2011 GF116 40 PCIe 2.0 x16 192:32:16
192:32:24 		775 1550 2500 18.6 24.8 2048
1536, 3072 		40.0
60.0 		GDDR5 128
192 		595.2 75
GeForce GTX 570M June 28, 2011 GF114 40 PCIe 2.0 x16 336:56:24 575 1150 3000 13.8 32.2 1536 72.0 GDDR5 192 772.8 75
GeForce GTX 580M June 28, 2011 GF114 40 PCIe 2.0 x16 384:64:32 620 1240 3000 19.8 39.7 2048 96.0 GDDR5 256 952.3 100

Chipset table

GeForce 500 (5xx) series

Model Launch Code name Fab (nm) Transistors (million) Die size (mm) Bus interface SM count Core config Clock rate Fillrate Memory configuration Supported API version Processing power (GFLOPS) TDP (watts) Release price (USD)
Core (MHz) Shader (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) DRAM type Bus width (bit) Vulkan Direct3D OpenGL OpenCL Single precision Double precision
GeForce 510 September 29, 2011 GF119 TSMC 40 nm 292 79 PCIe 2.0 x16 1 48:8:4 523 1046 1800 2.1 4.5 1024
2048 		14.4 DDR3 64 n/a 12 (11_0) 4.6 1.1 100.4 Un­known 25 OEM
GeForce GT 520 April 12, 2011 PCIe 2.0 x16
PCIe 2.0 x1
PCI 		810 1620 3.25 6.5 14.4 155.5 Un­known 29 59
GeForce GT 530 May 14, 2011 GF108-220 585 116 PCIe 2.0 x16 2 96:16:4 700 1400 2.8 11.2 28.8 128 268.8 22.40 50 OEM
GeForce GT 545 GF116 ~1170 ~238 3 144:24:16 720 1440 11.52 17.28 1536
3072 		43 192 415.07 Un­known 70 149
870 1740 3996 13.92 20.88 1024 64 GDDR5 128 501.12 Un­known 105 OEM
GeForce GTX 550 Ti March 15, 2011 GF116-400 4 192:32:24 900 1800 4104 21.6 28.8 768+256
1536 		65.7+32.8
98.5 		128+64
192 		691.2 Un­known 116 149
GeForce GTX 555 May 14, 2011 GF114 1950 332 6 288:48:24 736 1472 3828 17.6 35.3 1024 91.9 128+64 847.9 Un­known 150 OEM
GeForce GTX 560 SE February 20, 2012 GF114-200-KB-A1 Un­known
GeForce GTX 560 May 17, 2011 GF114-325-A1 7 336:56:32 810 1620 4008 25.92 45.36 1024 2048 128.1 256 1088.6 Un­known 199
GeForce GTX 560 Ti January 25, 2011 GF114-400-A1 8 384:64:32 822 1645 26.3 52.61 128.26 1263.4 110 170 249
May 30, 2011 GF110 3000 520 11 352:44:40 732 1464 3800 29.28 32.21 1280
2560 		152 320 1030.7 128.83 210 OEM
GeForce GTX 560 Ti 448 Cores November 29, 2011 GF110-270-A1 14 448:56:40 40.99 1280 1311.7 163.97 289
GeForce GTX 570 December 7, 2010 GF110-275-A1 15 480:60:40 43.92 1280 2560 1405.4 175.68 219 349
GeForce GTX 580 November 9, 2010 GF110-375-A1 16 512:64:48 772 1544 4008 37.05 49.41 1536
3072 		192.384 384 1581.1 197.63 244 499
GeForce GTX 590 March 24, 2011 2x GF110-351-A1 2x 3000 2x 520 2x16 2x 512:64:48 607 1215 3414 2x29.14 2x38.85 2x 1536 2x163.87 2x384 2488.3 311.04 365 699
Model Launch Code name Fab (nm) Transistors (million) Die size (mm) Bus interface SM count Core config Clock rate Fillrate Memory configuration Supported API version Processing power (GFLOPS) TDP (Watts) Release price (USD)
Core (MHz) Shader (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) DRAM type Bus width (bit) Vulkan Direct3D OpenGL OpenCL Single precision Double precision
  1. ^ Unified shaders: texture mapping units: render output units
  2. ^ Each SM in the GF110 contains 4 texture filtering units for every texture address unit. The complete GF110 die contains 64 texture address units and 256 texture filtering units. Each SM in the GF114/116/118 architecture contains 8 texture filtering units for every texture address unit but has doubled both addressing and filtering units.
  3. ^ To calculate the processing power see Fermi (microarchitecture)#Performance.
  4. ^ Similar to previous generation, GTX 580 and most likely future GTX 570, while reflecting its improvement over GF100, still have lower rated TDP and higher power consumption, e.g. GTX 580 (243W TDP) is slightly less power hungry than GTX 480 (250W TDP). This is managed by clock throttling through drivers when a dedicated power hungry application is identified that could breach card TDP. Application name changing will disable throttling and enable full power consumption, which in some cases could be close to that of GTX 480.
  5. ^ 1024 MB RAM on 192-bit bus assemble with 4 x (128 MB) + 2 x (256 MB).
  6. ^ Internally referred to as GF104B
  7. ^ Internally referred to as GF100B
  8. Some companies have announced that they will be offering the GTX 580 with 3GB RAM.

Discontinued support

Nvidia announced that after Release 390 drivers, it will no longer release 32-bit drivers for 32-bit operating systems.

Nvidia announced in April 2018 that Fermi will transition to legacy driver support status and be maintained until January 2019.

See also

Notes

References

  1. Killian, Zak (July 3, 2017). "Nvidia finally lets Fermi GPU owners enjoy DirectX 12". Tech Report. Retrieved July 4, 2017.
  2. "GeForce GTX 550 Ti To Launch On 15 March". Archived from the original on February 18, 2011. Retrieved February 18, 2011.
  3. "ASUS NVIDIA GeForce GTX 590 graphics card reviewed and rated". Hexus. Retrieved May 29, 2018.
  4. Smith, Ryan (November 9, 2011). "NVIDIA's GeForce GTX 560 Ti w/448 Cores: GTX 570 On A Budget".
  5. Burke, Steve. "Fake "GTX 1050 1GB" Scam GPU Benchmark & Review". www.gamersnexus.net. Retrieved December 19, 2020.
  6. Nvidia's GeForce GTX 580: Fermi Refined
  7. "Graphics Cards, Gaming, Laptops, and Virtual Reality from NVIDIA GeForce".
  8. "GF110: Fermi Learns Some New Tricks - Nvidia's GeForce GTX 580: Fermi Refined". Anandtech.com. Archived from the original on January 13, 2016. Retrieved December 11, 2015.
  9. "Power, Temperature, and Noise - Nvidia's GeForce GTX 580: Fermi Refined". Anandtech.com. Archived from the original on January 13, 2016. Retrieved December 11, 2015.
  10. "The Khronos Group". May 31, 2022.
  11. "NVIDIA GeForce GT 530 OEM Specs". TechPowerUp. Retrieved September 25, 2022.
  12. "NVIDIA GeForce GTX 560 SE Specs". Retrieved August 6, 2018.
  13. ^ "...and GF110s real name is: GF100B". GPU-Tech.org. Archived from the original on January 13, 2016. Retrieved December 11, 2015.
  14. ^ Ryan Smith (November 9, 2010). "Nvidia's GeForce GTX 580: Fermi Refined". AnandTech. Archived from the original on November 10, 2010. Retrieved November 9, 2010.
  15. "Products - Featured Products". EVGA. Archived from the original on March 24, 2012. Retrieved December 11, 2015.
  16. "Nvidia GeForce GTX 580 1536 MB Review". TechPowerUp. November 9, 2010. Archived from the original on December 22, 2015. Retrieved December 11, 2015.
  17. "Support Plan for 32-bit and 64-bit Operating Systems | NVIDIA".
  18. "Support Plan for Fermi series GeForce GPUs | NVIDIA".

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