GTX Titan Z released in May of 2013; the series' flagship unit sporting dual Kepler GK110 processors and the final Nvidia graphics card supporting dual-GPU configuration on a single PCB board. | |
Release date | February 19, 2013; 11 years ago (February 19, 2013) |
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Codename |
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Architecture | |
Models | GeForce series
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Transistors |
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Fabrication process | |
Cards | |
Entry-level |
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Mid-range |
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High-end |
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Enthusiast |
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API support | |
DirectX | Direct3D 12.0 (feature level 11_0) Shader Model 6.7 (Maxwell), Shader Model 6.5 (Kepler) or Shader Model 5.1 (Fermi) |
OpenCL | OpenCL 3.0 |
OpenGL | OpenGL 4.6 |
Vulkan | Vulkan 1.2 SPIR-V |
History | |
Predecessor | GeForce 600 series |
Variant | GeForce 800M series |
Successor | GeForce 900 series |
Support status | |
Fermi and Kepler unsupported. Maxwell fully supported. |
The GeForce 700 series (stylized as GEFORCE GTX 700 SERIES) is a series of graphics processing units developed by Nvidia. While mainly a refresh of the Kepler microarchitecture (GK-codenamed chips), some cards use Fermi (GF) and later cards use Maxwell (GM). GeForce 700 series cards were first released in 2013, starting with the release of the GeForce GTX Titan on February 19, 2013, followed by the GeForce GTX 780 on May 23, 2013. The first mobile GeForce 700 series chips were released in April 2013.
Overview
GK110 was designed and marketed with computational performance in mind. It contains 7.1 billion transistors. This model also attempts to maximise energy efficiency through the execution of as many tasks as possible in parallel according to the capabilities of its streaming processors.
With GK110, increases in memory space and bandwidth for both the register file and the L2 cache over previous models, are seen. At the SMX level, GK110's register file space has increased to 256KB composed of 64K 32bit registers, as compared to Fermi's 32K 32bit registers totaling 128 KB. As for the L2 cache, GK110 L2 cache space increased by up to 1.5MB, 2x as big as GF110. Both the L2 cache and register file bandwidth have also doubled. Performance in register-starved scenarios is also improved as there are more registers available to each thread. This goes in hand with an increase of total number of registers each thread can address, moving from 63 registers per thread to 255 registers per thread with GK110.
With GK110, Nvidia also reworked the GPU texture cache to be used for compute. With 48KB in size, in compute the texture cache becomes a read-only cache, specializing in unaligned memory access workloads. Furthermore, error detection capabilities have been added to make it safer for use with workloads that rely on ECC.
Dynamic Super Resolution (DSR) was added to Kepler GPUs with the latest Nvidia drivers.
Architecture
Main articles: Fermi (microarchitecture), Kepler (microarchitecture), and Maxwell (microarchitecture)The GeForce 700 series contains features from both GK104 and GK110. Kepler based members of the 700 series add the following standard features to the GeForce family.
Derived from GK104:
- PCI Express 3.0 interface
- DisplayPort 1.2
- HDMI 1.4a 4K x 2K video output
- Purevideo VP5 hardware video acceleration (up to 4K x 2K H.264 decode)
- Hardware H.264 encoding acceleration block (NVENC)
- Support for up to 4 independent 2D displays, or 3 stereoscopic/3D displays (NV Surround)
- Bindless Textures
- GPU Boost
- TXAA
- Manufactured by TSMC on a 28 nm process
New Features from GK110:
- Compute Focus SMX Improvement
- CUDA Compute Capability 3.5
- New Shuffle Instructions
- Dynamic Parallelism
- Hyper-Q (Hyper-Q's MPI functionality reserve for Tesla only)
- Grid Management Unit
- Nvidia GPUDirect (GPU Direct's RDMA functionality reserve for Tesla & Quadro only)
- GPU-Boost 2.0
Compute focus SMX improvement
With GK110, Nvidia opted to increase computational performance. The single biggest change from GK104 is that rather than 8 dedicated FP64 CUDA cores, GK110 has up to 64, giving it 8x the FP64 throughput of a GK104 SMX. The SMX also sees an increase in space for register file. Register file space has increased to 256KB compared to Fermi. The texture cache are also improved. With a 48KB space, the texture cache can become a read-only cache for compute workloads.
New shuffle Instructions
At a low level, GK110 sees additional instructions and operations to further improve performance. New shuffle instructions allow for threads within a warp to share data without going back to memory, making the process much quicker than the previous load/share/store method. Atomic operations are also overhauled, speeding up the execution speed of atomic operations and adding some FP64 operations that were previously only available for FP32 data.
NVENC
Main article: Nvidia NVENCHyper-Q
Hyper-Q expands GK110 hardware work queues from 1 to 32. The significance of this being that having a single work queue meant that Fermi could be under occupied at times as there wasn't enough work in that queue to fill every SM. By having 32 work queues, GK110 can in many scenarios, achieve higher utilization by being able to put different task streams on what would otherwise be an idle SMX. The simple nature of Hyper-Q is further reinforced by the fact that it's easily map to MPI, a common message passing interface frequently used in HPC. As legacy MPI-based algorithms that were originally designed for multi-CPU systems that became bottlenecked by false dependencies now have a solution. By increasing the number of MPI jobs, it's possible to utilize Hyper-Q on these algorithms to improve the efficiency all without changing the code itself.
Microsoft DirectX support
Nvidia Kepler GPUs of the GeForce 700 series fully support DirectX 11.0. All GeForce 700 series card also support DirectX 12.0 with feature level 11_0.
Dynamic parallelism
Dynamic parallelism ability is for kernels to be able to dispatch other kernels. With Fermi, only the CPU could dispatch a kernel, which incurs a certain amount of overhead by having to communicate back to the CPU. By giving kernels the ability to dispatch their own child kernels, GK110 can both save time by not having to go back to the CPU, and in the process free up the CPU to work on other tasks.
Products
GeForce 700 (7xx) series
The GeForce 700 series was designed for desktop architecture. Cheaper and lower performing products were expected to be released over time. Kepler supports 11.1 features with 11_0 feature level through the DirectX 11.1 API, however Nvidia did not enable four non-gaming features in Hardware in Kepler (for 11_1).
- Shader Processors : Texture mapping units : Render output units
- Pixel fillrate is calculated as the number of ROPs multiplied by the base core clock speed
- Texture fillrate is calculated as the number of TMUs multiplied by the base core clock speed.
- Single precision performance is calculated as 2 times the number of shaders multiplied by the base core clock speed.
- Double precision performance of the GTX Titan and GTX Titan Black is either 1/3 or 1/24 of single-precision performance depending on a user-selected configuration option in the driver that boosts single-precision performance if double-precision is set to 1/24 of single-precision performance, while other Kepler chips' double precision performance is fixed at 1/24 of single-precision performance. GeForce 700 series Maxwell chips' double precision performance is 1/32 of single-precision performance.
- SLI supports connecting up to 4 identical graphics cards for a 4-way SLI configuration. Those supporting 4-way SLI can support 3-way & 2-way SLI, however a dual-GPU card already implements 2-way SLI internally, thus only 2 dual-GPU cards can be used in SLI to give a 4-way SLI configuration.
GeForce 700M (7xxM) series
Some implementations may use different specifications.
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 (MT/s) | Pixel (GP/s) | Texture (GT/s) | Size (MB) | Bandwidth (GB/s) | Type | Bus width (bit) | DirectX | OpenGL | OpenCL | Vulkan | |||||||||
GeForce 705M | June 1, 2013 | GF119 | 40 | PCIe 2.0 x16 | 48:8:4 | 775 | 1550 | 1800 | 1.48 | 5.9 | up to 2048 | ? | DDR3 | 64 | 12.0 (11_0) | 4.6 | 1.1 | 1.3 | 141.7 | 12 | Rebadged 520M |
GeForce 710M | April 1, 2013 | GF117 | 28 | 96:16:4 | 775 | 1550 | 1800 | 3.1 | 12.4 | up to 2048 | 14.4 | 64 | 297.6 | 15 | |||||||
GeForce GT 720M | April 1, 2013 | 96:16:4 | 800 | 1600 | 1600 | 2.5 | 10 | up to 2048 | 12.8 | 64 | 240 | 33 | |||||||||
December 25, 2013 | GK208 | 192:16:8 | 800 | 2.9 | 11.5 | 1.2 | 276 | 33 | |||||||||||||
GeForce GT 730M | April 1, 2013 | GK107 | PCIe 3.0 x16 | 384:32:16 | 725 | 725 | 1800 | 5.8 | 23 | up to 2048 | 14.4 – 64.0 | DDR3 GDDR5 | 128 | 1.1 | 552.2 | 33 | |||||
March 6, 2014 | GK208 | PCIe 2.0 x8 | 384:16:8 | 5.8 | 11.5 | 64 | |||||||||||||||
GeForce GT 735M | April 1, 2013 | PCIe 2.0 x8 | 384:32:8 | 889 | 889 | 2000 | 4.6 | 9.2 | up to 2048 | 16.0 | DDR3 | 64 | 1.2 | 441.6 | 33 | ||||||
GeForce GT 740M | April 1, 2013 | GK107 | PCIe 3.0 x16 | 384:32:16 | 810-1033 | 810-1033 | 1800/3600 | 6.48 | 25.9 | up to 2048 | 14.4 – 57.6 | DDR3 GDDR5 | 128 | 1.1 | 622.1 | 45 | |||||
June 20, 2013 | GK208 | PCIe 3.0 x8 | 384:32:8 | 980-1033 | 980-1033 | 8.3 | 33.1 | 64 | 1.2 | 752.6 | 33 | ||||||||||
GeForce GT 745M | April 1, 2013 | GK107 | PCIe 3.0 x16 | 384:32:16 | 837 | 837 | 2000 – 5000 | 4.39 | 17.6 | up to 2048 | 32.0 – 80.0 | 128 | 642.8 | 45 | |||||||
GeForce GT 750M | April 1, 2013 | 384:32:16 | 967 | 967 | 2000 – 5000 | 7.53 | 30.1 | up to 4096 | 32 – 80 | 128 | 1.1 | 722.7 | 50 | ||||||||
GeForce GT 755M | Unknown | 384:32:16 | 1020 | 1020 | 5400 | 15.7 | 31.4 | up to 2048 | 86.4 | GDDR5 | 128 | 752.6 | 50 | ||||||||
GeForce GTX 760M | May 30, 2013 | GK106 | 768:64:16 | 657 | 657 | 4008 | 10 | 40.2 | 2048 | 64.1 | 128 | 964.6 | 55 | ||||||||
GeForce GTX 765M | May 30, 2013 | 768:64:16 | 850 | 850 | 4008 | 12.8 | 51 | 2048 | 64.1 | 128 | 1.2 | 1224 | 75 | ||||||||
GeForce GTX 770M | May 30, 2013 | 960:80:24 | 811 | 811 | 4008 | 14.1 | 56.5 | 3072 | 96.2 | 192 | 1356 | 75 | |||||||||
GeForce GTX 780M | May 30, 2013 | GK104 | 1536:128:32 | 823 | 823 | 5000 | 24.7 | 98.7 | 4096 | 160.0 | 256 | 2369 | 100 |
- In OpenCL 3.0, OpenCL 1.2 functionality has become a mandatory baseline, while all OpenCL 2.x and OpenCL 3.0 features were made optional.
- ^ Lacks hardware video encoder
Chipset table
GeForce 700 (7xx) series
See also: Comparison table of GeForce 700 SeriesModel | Launch | Code name | Fab (nm) | Transistors (million) | Die size (mm) | Bus interface | SMX count | Core config | Clock rate | Fillrate | Memory configuration | Supported API version | Processing power (GFLOPS) | TDP (Watts) | Release Price (USD) | |||||||||||
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Base (MHz) | Average Boost (MHz) | Max Boost (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 GT 705 | March 27, 2014 | GF119-300-A1 | TSMC 40 nm | 292 | 79 | PCIe 2.0 x16 | 1 | 48:8:4 | 810 | — | — | 898 (1796) |
3.24 | 6.5 | 512 1024 |
14.4 | DDR3 | 64 | n/a | 12 | 4.6 | 1.1 | 155.5 | 19.4 | 29 | OEM |
GeForce GT 710 | GK208-301-A1 | TSMC 28 nm | 1020 | 79 | PCIe 2.0 x8 | 192:16:8 | 823 | — | — | 900 (1800) | 6.6 | 13.2 | 512 | 64 | 1.2 | 1.2 | 316.0 | 13.2 | ||||||||
January 26, 2016 | GK208-203-B1 | PCIe 2.0 x8, PCIe x1 | 192:16:8 | 954 | — | — | 900 (1800) 1253 (5010) |
7.6 | 15.3 | 1024 2048 |
14.4 40.0 |
DDR3 GDDR5 |
366 | 15.3 | 19 | $35–45 | ||||||||||
GeForce GT 720 | March 27, 2014 | GK208-201-B1 | PCIe 2.0 x8 | 192:16:8 | 797 | — | — | 900 (1800) 1253 (5010) |
6.4 | 12.8 | 1024 2048 |
14.4 40.0 |
306 | 12.8 | $49–59 | |||||||||||
GeForce GT 730 |
June 18, 2014 | GK208-301-A1 | 2 | 384:16:8 | 902 | — | — | 900 (1800) |
7.22 | 14.44 | 1024 2048 4096 |
14.4 | DDR3 | 692.7 | 28.9 | 23 | $69–79 | |||||||||
GK208-400-A1 | 384:16:8 | 902 | — | — | 1250 (5000) |
7.22 | 14.44 | 1024 2048 |
40.0 | GDDR5 | 25 | |||||||||||||||
GF108 | TSMC 40 nm | 585 | 116 | PCIe 2.0 x16 | 96:16:4 | 700 | — | — | 900 (1800) |
2.8 | 11.0 | 1024 2048 4096 |
28.8 | DDR3 | 128 | n/a | 1.1 | 268.8 | 33.6 | 49 | ||||||
GeForce GT 740 | May 29, 2014 | GK107-425-A2 | TSMC 28HP |
1270 | 118 | PCIe 3.0 x16 | 384:32:16 | 993 | — | — | 891 (1782) |
15.9 | 31.8 | 28.5 | 128 | 1.2 | 1.2 | 762.6 | 31.8 | 64 | $89–99 | |||||
384:32:16 | 993 | — | — | 1252 (5008) |
15.9 | 31.8 | 80.1 | GDDR5 | ||||||||||||||||||
GeForce GTX 745 | February 18, 2014 | GM107-220-A2 | 1870 | 148 | 3 | 384:24:16 | 1033 | Unknown | Unknown | 900 (1800) |
16.5 | 24.8 | 1024 4096 |
28.8 | DDR3 | 1.3 | 793.3 | 24.8 | 55 | OEM | ||||||
GeForce GTX 750 | GM107-300-A2 | 4 | 512:32:16 | 1020 | 1085 | 1163 | 1250 (5000) |
16.3 | 32.6 | 1024 2048 4096 |
80 | GDDR5 | 1044.5 | 32.6 | $119 | |||||||||||
GeForce GTX 750 Ti | GM107-400-A2 | 5 | 640:40:16 | 1020 | 1085 | 1200 | 1350 (5400) |
16.3 | 40.8 | 1024 2048 4096 |
86.4 | 1305.6 | 40.8 | 60 | $149 | |||||||||||
GeForce GTX 760 192-bit | October 17, 2013 | GK104-200-KD-A2 | 3540 | 294 | 6 | 1152:96:24 | 824 | 888 | 889 | 1450 (5800) |
19.8 | 79.1 | 1536 3072 |
139.2 | 192 | 1.2 | 1896.2 | 79.0 | 130 | OEM | ||||||
GeForce GTX 760 | June 25, 2013 | GK104-225-A2 | 1152:96:32 | 980 | 1033 | 1124 | 1502 (6008) |
31.4 | 94 | 2048 4096 |
192.3 | 256 | 2257.9 | 94.1 | 170 | $249 ($219) | ||||||||||
GeForce GTX 760 Ti | September 27, 2013 | GK104 | 7 | 1344:112:32 | 915 | 980 | 1084 | 1502 (6008) |
29.3 | 102.5 | 2048 | 192.3 | 2459.5 | 102.5 | OEM | |||||||||||
GeForce GTX 770 | May 30, 2013 | GK104-425-A2 | 8 | 1536:128:32 | 1046 | 1085 | 1130 | 1752.5 (7010) |
33.5 | 134 | 2048 4096 | 224 | 3213.3 | 133.9 | 230 | $399 ($329) | ||||||||||
GeForce GTX 780 | May 23, 2013 | GK110-300-A1 | 7080 | 561 | 12 | 2304:192:48 | 863 | 900 | 1002 | 1502 (6008) |
41.4 | 160.5 | 3072 6144 | 288.4 | 384 | 3976.7 | 165.7 | $649 ($499) | ||||||||
GeForce GTX 780 Ti | November 7, 2013 | GK110-425-B1 | 15 | 2880:240:48 | 876 | 928 | 1019 | 1752.5 (7010) |
42.0 | 210.2 | 3072 | 336.5 | 5045.7 | 210.2 | $699 | |||||||||||
GeForce GTX TITAN | February 21, 2013 | GK110-400-A1 | 14 | 2688:224:48 | 837 | 876 | 993 | 1502 (6008) |
40.2 | 187.5 | 6144 | 288.4 | 4499.7 | 1300-1499.9 | $999 | |||||||||||
GeForce GTX TITAN Black | February 18, 2014 | GK110-430-B1 | 15 | 2880:240:48 | 889 | 980 | 1058 | 1752.5 (7010) |
42.7 | 213.4 | 336.5 | 5120.6 | 1706.9 | |||||||||||||
GeForce GTX TITAN Z | May 28, 2014 | 2x GK110-350-B1 | 2x 7080 | 2x 561 | 2x 15 | 2x 2880:240:48 | 705 | 876 | Unknown | 1752.5 (7010) |
2x 33.8 | 2x 169 | 2x 6144 | 2x 336.5 | 2x 384 | 4.5 | 5046x2 | 1682x2 | 375 | $2999 | ||||||
Model | Launch | Code name | Fab (nm) | Transistors (million) | Die size (mm) | Bus interface | SMX count | Core config | Clock rate | Fillrate | Memory configuration | Supported API version | Processing power (GFLOPS) | TDP (Watts) | Release Price (USD) | |||||||||||
Base (MHz) | Average Boost (MHz) | Max Boost (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 |
- ^ Unified shaders: texture mapping units: render output units
- To calculate the processing power see Maxwell (microarchitecture)#Performance, or Kepler (microarchitecture)#Performance.
- ^ Max Boost depends on ASIC quality. For example, some GTX TITAN with over 80% ASIC quality can hit 1019 MHz by default, lower ASIC quality will be 1006 MHz or 993 MHz.
- Maxwell supports Vulkan version 1.3, while Kepler only support Vulkan version 1.2, Fermi does not support the Vulkan API at all.
- ^ Kepler supports some optional 11.1 features on feature level 11_0 through the Direct3D 11.1 API, however Nvidia did not enable four non-gaming features to qualify Kepler for level 11_1.
- The GeForce GT 705 (OEM) is a rebranded GeForce GT 610, which itself is a rebranded GeForce GT 520.
- The GeForce GT 730 (DDR3, 64-bit) is a rebranded GeForce GT 630 (Rev. 2).
- The GeForce GT 730 (DDR3, 128-bit) is a rebranded GeForce GT 630 (128-bit).
- The GeForce GT 740 (OEM) is a rebranded GeForce GTX 650.
- ^ As a Kepler GPC is able to rasterize 8 pixels per clock, fully enabled GK110 GPUs (780 Ti/TITAN Black) can only output 40 pixels per clock (5 GPCs), despite 48 ROPs and all SMX units being physically present. For GTX 780 and GTX 760, multiple GPC configurations with differing pixel fillrate are possible, depending on which SMXs were disabled in the chip: 5/4 GPCs, or 4/3 GPCs, respectively.
- ^ The GeForce GTX 760 Ti (OEM) is a rebranded GeForce GTX 670.
Discontinued support
Nvidia stopped releasing 32-bit drivers for 32-bit operating systems after the last Release 390.x driver, 391.35, was released in March 2018.
Kepler notebook GPUs moved to legacy support in April 2019 and stopped receiving security updates in April 2020. All notebook GPUs from the 7xxM family were affected by this change.
Nvidia announced that after Release 470 drivers, it would transition driver support for the Windows 7 and Windows 8.1 operating systems to legacy status and continue to provide critical security updates for these operating systems through September 2024.
Nvidia announced that all remaining Kepler desktop GPUs would transition to legacy support from September 2021 onwards and be supported for critical security updates through September 2024. The Nvidia GeForce GTX 745, 750 and 750 Ti from the 7xx desktop GPU family would not be affected by this change.
In Windows ,the last driver to fully support CUDA with 64-Bit Compute Capability 3.5 for Kepler in Windows 7 and Windows 8.1 64-bit is 388.71, tested with latest CUDA-Z and GPU-Z, after that driver, the 64-Bit CUDA support becomes broken for GeForce 700 series GK110 with Kepler architecture.
The last driver where monitor type detection is working properly on Windows XP is 352.86.
See also
- GeForce 400 series
- GeForce 500 series
- GeForce 600 series
- GeForce 800M series
- GeForce 900 series
- GeForce 10 series
- Nvidia Quadro
- Nvidia Tesla
Notes
References
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the calculated fp64 peak of Titan is 1.5 TFlops. However, under heavy load in fp64 mode, the card may underclock below the listed 837MHz to remain within the power and thermal specifications
- "售价21999元!NV旗舰GTX TITAN Z评测-太平洋电脑网". June 5, 2014. Retrieved August 16, 2020.
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External links
- GK110/GK210 Architecture Whitepaper
- GTX 750 Ti Whitepaper
- Introducing GeForce GTX TITAN Z: Ultimate Power
- Introducing the GeForce GTX TITAN
- Introducing The GeForce GTX 780 Ti: The Best Gaming GPU on the Planet
- Introducing The GeForce GTX 780
- Introducing The GeForce GTX 770
- Introducing The GeForce GTX 760: A Mid-Range GPU With High-End Features
- GeForce GTX 750 Class GPUs: Serious Gaming, Incredible Value
- Introducing Our New GeForce GTX 700M, Kepler-Powered Notebook GPUs
- GeForce GTX TITAN Z
- GeForce GTX TITAN BLACK
- GeForce GTX TITAN
- GeForce GTX 780 Ti
- GeForce GTX 780
- GeForce GTX 770
- GeForce GTX 760 Ti (OEM)
- GeForce GTX 760
- GeForce GTX 760 192-bit(OEM)
- GeForce GTX 750 Ti
- GeForce GTX 750
- GeForce GT 740
- GeForce GT 730
- GeForce GX 780M
- GeForce GX 770M
- GeForce GX 765M
- GeForce GX 760M
- GeForce GT 750M
- GeForce GT 745M
- GeForce GT 740M
- GeForce GT 735M
- GeForce GT 730M
- A New Dawn
- Nvidia Nsight
- TechPowerUp! GPU Database
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