Graphics processing unit manufacturer Nvidia announced a family of chips that feature the company's GPU Boost 2.0 technology, which intelligently adjusts GPU clock speed to maximize graphics performance.
This is a basic simple tutorial how anyone can make their NVIDIA GPU graphics card produce lot's of more FPS, this step is the fist thing you should set if y. GPU Boost 2.0: Temperature Based Boosting. With the Kepler family NVIDIA introduced their GPU Boost functionality. Present on the desktop GTX 660 and above, boost allows NVIDIA’s GPUs to turbo.
The lineup of Nvidia GeForce 700M GPUs includes the GeForce GT 750M, GeForce GT 745M and GeForce GT 740M GPUs for the performance segment, as a well as GeForce GT 735M and GeForce GT 720M GPUs for the mainstream segment.
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The chips also feature the company's Optimus technology, which enables extra-long battery life by switching the GPU on and off so it runs only when needed, and GeForce Experience software, which adjusts in-game settings for the best performance and visual quality specific to a user's notebook and keeps GeForce drivers up-to-date.
Before GPU Boost, GPUs were held back by synthetic benchmarks that pushed chips and power usage to the limit, far beyond the levels typically seen when playing games. This 'worst-case scenario' forced Nvidia to throttle GPUs, leaving spare performance on the table when playing games. GPU Boost resolves this problem by monitoring power usage and temperatures, enabling the GPU to use every last bit of performance without exceeding safety or comfort limits.
Further reading
When a system isn't gaming or using a GPU-accelerated application, Optimus kicks in, automatically switching the display to the low-power integrated graphics processor. For example, if a user is browsing Facebook, the Nvidia GPU will be disabled, but once the user starts working with graphics-intensive apps like Photoshop, Optimus will enable the GPU to make use of GPU computation power. This automatic switching maximizes battery life when away from the wall, and minimizes power usage when plugged in.
'There is an elegant simplicity to Nvidia's GeForce 700M notebook technologies,' Rene Haas, vice president and general manager of the notebook business unit at Nvidia, said in a statement. 'You use your notebook how you want, and GeForce makes your experience awesome.'
A company release said notebook manufacturers, including Acer, Asus, Dell, HP, Lenovo, MSI, Samsung, Sony and Toshiba, plan to introduce notebooks with GPU Boost 2.0 technology.
'GeForce 500M and 600M were each class leaders, introducing sizeable performance gains, new features and increased efficiency. 700M is poised to continue this trend, but instead of delivering just raw performance, Nvidia is delivering a solution that makes your notebook more powerful, easier to use and more fun,' Brian Choi, Nvidia's product marketing manager for GeForce notebooks, wrote in a company blog post. 'By automatically giving you boosted performance, optimized gaming and long battery life, you'll discover that GeForce notebooks are the best notebooks you'll ever own.'
NVIDIA's GA107 GPU uses the Ampere architecture and is made using a 8 nm production process at Samsung. GA107 supports DirectX 12 Ultimate (Feature Level 12_2). For GPU compute applications, OpenCL version 2.0 and CUDA 8.6 can be used. Additionally, the DirectX 12 Ultimate capability guarantees support for hardware-raytracing, variable-rate shading and more, in upcoming video games. It features 3072 shading units, 96 texture mapping units and 48 ROPs. Also included are 96 tensor cores which help improve the speed of machine learning applications. The GPU also contains 24 raytracing acceleration cores.
Graphics Processor
Nvidia Gpu Boost 2.0 How To User
- GPU Name
- GA107
- Codename
- NV177
- Architecture
- Ampere
- Foundry
- Samsung
- Process Size
- 8 nm
- Transistors
- unknown
- Die Size
- unknown
- Released
- Unknown
Graphics Features
- DirectX
- 12 Ultimate (12_2)
- OpenGL
- 4.6
- OpenCL
- 2.0
- Vulkan
- 1.2
- CUDA
- 8.6
- Shader Model
- 6.5
- PureVideo HD
- VP11
- VDPAU
- Feature Set k
Render Config
- Shading Units
- 3072
- TMUs
- 96
- ROPs
- 48
- SM Count
- 24
- FP16 Units
- 3072
- FP64 Units
- 64
- INT32 Units
- 1536
- Tensor Cores
- 96
- RT Cores
- 24
- SFUs
- 384
- TPCs
- 12
- GPCs
- 3
- Tex L1 Cache
- 64 KB per SM
- L1 Cache
- 128 KB per SM
- L2 Cache
- 2048 KB
- Max. TDP
- 90 W
All Ampere GPUs
- NVIDIA GA107
NVIDIA GPU Architecture History
- 1998-2000 Fahrenheit
- 1999-2005 Celsius
- 2001-2003 Kelvin
- 2003-2005 Rankine
- 2003-2013 Curie
- 2006-2010 Tesla
- 2007-2013 Tesla 2.0
- 2010-2016 Fermi
- 2010-2013 VLIW Vec4
- 2010-2016 Fermi 2.0
- 2012-2018 Kepler
- 2013-2015 Kepler 2.0
- 2014-2017 Maxwell
- 2014-2019 Maxwell 2.0
- 2016-2020 Pascal
- 2017-2020 Volta
- 2018-2020 Turing
- 2020-2021 Ampere
Graphics cards using the NVIDIA GA107 GPU
Name | Chip | Memory | Shaders | TMUs | ROPs | Base Clock | Boost Clock | Memory Clock |
---|---|---|---|---|---|---|---|---|
NVIDIA GeForce RTX 3050 | GA107-300-A1 | 4 GB | 2304 | 72 | 40 | 1545 MHz | 1740 MHz | 1750 MHz |
GA107 GPU Notes
How To Use Gpu Boost
Speculation |