GeForce GTX 275 vs HD Graphics P630

In this comparison between GeForce GTX 275 and HD Graphics P630 you will find out which graphics card performs better in today's games. Bear in mind that third-party versions may have more efficient cooling and higher clock speeds. This will increase cards' performance, though not by much. In addition to raw power you should also take into account the dimensions. Thicker models simply will not fit into a small mini-ITX case. The resolution of your monitor also affects the choice, since 4K gameplay requires a more powerful GPU. And don't overspend on the graphics card. Other parts of your build may also need to be upgraded, save some money for the CPU or power supply. For some people GeForce GTX 275 will be the best choice, for others HD Graphics P630 will be their preference. Study the comparison tables below and make your choice.

Main Specs

  GeForce GTX 275 HD Graphics P630
Power consumption (TDP) 219 Watt 15 Watt
Interface PCIe 2.0 x16 PCIe 3.0 x1
Supplementary power connectors 2x 6-pin
Memory type GDDR3 DDR3L/LPDDR3/DDR4
Maximum RAM amount 896 MB 1740 MB
Display Connectors 2x DVI No outputs
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  • GeForce GTX 275 has 1360% more power consumption, than HD Graphics P630.
  • GeForce GTX 275 is connected by PCIe 2.0 x16, and HD Graphics P630 uses PCIe 3.0 x1 interface.
  • HD Graphics P630 has 844 GB more memory, than GeForce GTX 275.
  • Both cards are used in Desktops.
  • GeForce GTX 275 is build with Tesla 2.0 architecture, and HD Graphics P630 - with Gen. 9.5 Kaby Lake.
  • GeForce GTX 275 is manufactured by 55 nm process technology, and HD Graphics P630 - by 14 nm process technology.

Game benchmarks

high / 1080p 6−7 3−4
ultra / 1080p 4−5 1−2
QHD / 1440p 0−1 0−1
low / 720p 16−18 14−16
medium / 1080p 8−9 5−6
The average gaming FPS of GeForce GTX 275 in Assassin's Creed Odyssey is 50% more, than HD Graphics P630.

Full Specs

  GeForce GTX 275 HD Graphics P630
Architecture Tesla 2.0 Gen. 9.5 Kaby Lake
Code name GT200B Kaby-Lake-H-GT2
Type Desktop Desktop
Release date 15 January 2009 5 August 2016
Pipelines 240 24
Core clock speed 1404 MHz
Boost Clock 1100 MHz
Transistor count 1,400 million 189 million
Manufacturing process technology 55 nm 14 nm
Texture fill rate 50.6 billion/sec 26.40
Floating-point performance 673.9 gflops
Length 10.5" (267 mm) (26.7 cm)
Memory bus width 448 Bit 64/128 Bit
Memory clock speed 1134 MHz
Memory bandwidth 127.0 GB/s
Shared memory +
DirectX 11.1 (10_0) 12 (12_1)
Shader Model 4.0 6.4
OpenGL 3.0 4.6
OpenCL 1.1 2.1
Vulkan N/A 1.1.103
CUDA +
CUDA cores 240
Bus support PCI-E 2.0
Height 4.376" (111 mm) (11.1 cm)
SLI options +
Multi monitor support +
Maximum VGA resolution 2048x1536
Audio input for HDMI S/PDIF
Quick Sync +
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