AMD Sempron 2650

7 Reasons why AMD Sempron 2650 is better

than the average

1.Sizably lower TDP
25Wvs 67W (the average)
vs 3W (best: Intel Atom Z670)
The thermal design power (TDP) is the maximum amount of power the cooling system needs to dissipate. A lower TDP typically means that it consumes less power.
2.Appreciably more L2 cache per core
0.5MB/corevs 0.4MB/core (the average)
vs 2.5MB/core (best: Intel Core i5-4200Y)
More data can be stored in the L2 cache for access by each core of the CPU.
3.Newer version of DirectX
11.2vs 10.7 (the average)
vs 12 (best: AMD A10-7870K)
DirectX is used in games, with newer versions supporting better graphics.
4.A little higher maximum operating temperature
90°Cvs 88°C (the average)
vs 105°C (best: Intel Core i7-3940XM)
If the CPU exceeds the maximum operating temperature then problems such as random resets can occur.
5.Has F16C
Yesvs No (65% don't have it)
F16C is used to speed up tasks such as adjusting the contrast of an image or adjusting volume.
6.Somewhat higher SSE version
4.2vs 4.1 (the average)
vs 4.2 (best: Intel Core i7-4770K)
SSE is used to speed up multimedia tasks such as editing an image or adjusting audio volume. Each new version contains new instructions and improvements.
7.Sizably more shading units
128vs 108 (the average)
vs 512 (best: AMD A10-7850K)
Shading units (or stream processors) are small processors within the graphics card that are responsible for processing different aspects of the image.
AMD Sempron 2650
AMD Sempron 2650 specs
AMD Sempron 2650 features
AMD Sempron 2650 pros and cons
AMD Sempron 2650 advantages
AMD Sempron 2650 disadvantages