GeForce 920M vs Radeon R5 Bristol Ridge

If you are going to buy a new graphics card and are choosing between GeForce 920M and Radeon R5 Bristol Ridge, there are a couple of things to consider. Cards with more VRAM in general perform better and allow you to play on higher graphics settings. Size also makes a difference. A model with a large heatsink can occupy up to three expansion slots on a motherboard. Be sure you have enough room in your PC case. When comparing GPUs with different architectures, more processing cores and even higher TFLOPS will not always translate to better performance. To help you decide which GPU you need, we have measured frame rates in a number of popular games. For more on how the GeForce 920M stacks up against Radeon R5 Bristol Ridge, check out specs charts below.

GeForce 920M and Radeon R5 Bristol Ridge are Laptop Graphics Cards

Note: GeForce 920M and Radeon R5 Bristol Ridge are only used in laptop graphics. They have lower GPU clock speed compared to the desktop variant, which results in lower power consumption, but also 10-30% lower gaming performance. Check available laptop models with GeForce 920M or Radeon R5 Bristol Ridge here:

Main Specs

  GeForce 920M Radeon R5 Bristol Ridge
Power consumption (TDP) 33 Watt 12-45 Watt
Interface PCIe 3.0 x8
Memory type DDR3
Maximum RAM amount 4 GB
Display Connectors No outputs
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  • GeForce 920M has 175% more power consumption, than Radeon R5 Bristol Ridge.
  • Both cards are used in Laptops.
  • GeForce 920M is build with Kepler architecture, and Radeon R5 Bristol Ridge - with GCN 1.2/2.0.
  • GeForce 920M and Radeon R5 Bristol Ridge are manufactured by 28 nm process technology.

Game benchmarks

high / 1080p 0−1 3−4
ultra / 1080p 1−2
QHD / 1440p 0−1 0−1
low / 720p 1−2 14−16
medium / 1080p 0−1 5−6
The average gaming FPS of Radeon R5 Bristol Ridge in Assassin's Creed Odyssey is 1400% more, than GeForce 920M.

Full Specs

  GeForce 920M Radeon R5 Bristol Ridge
Architecture Kepler GCN 1.2/2.0
Code name N16V-GM-S Bristol Ridge
Type Laptop Laptop
Release date 27 January 2015 1 June 2016
Pipelines 384 384
Core clock speed 954 MHz
Boost Clock 800 MHz
Transistor count 915 million 3100 Million
Manufacturing process technology 28 nm 28 nm
Texture fill rate 30.53
Floating-point performance 297.6 gflops
Memory bus width 64 Bit 64/128 Bit
Memory clock speed 1800 MHz
Memory bandwidth 14.4 GB/s
Shared memory - +
DirectX 12 (11_0) DirectX 12 (FL 12_0)
Shader Model 5.1
OpenGL 4.5
OpenCL 1.2
Vulkan 1.1.126
CUDA +
Bus support PCI Express 3.0
Bitcoin / BTC (SHA256) 40 Mh/s
Laptop size medium sized
Optimus +
GPU Boost 2.0
GameWorks +
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