AMD A4-3300M

10 Reasons why AMD A4-3300M is better

than the average

1.Notably lower TDP
35Wvs 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.Bigger L2 cache
2MBvs 2MB (the average)
vs 16MB (best: AMD Opteron 6380)
A larger L2 cache results in faster CPU and system-wide performance.
3.Measurably more L2 cache per core
1MB/corevs 0MB/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.
4.A shade newer version of DirectX
11vs 11 (the average)
vs 12 (best: AMD A10-7870K)
DirectX is used in games, with newer versions supporting better graphics.
5.Significantly newer version of OpenGL
4.2vs 3.7 (the average)
vs 4.5 (best: AMD A10-7860K)
OpenGL is used in games, with newer versions supporting better graphics.
6.A bit newer version of OpenCL
1.2vs 1.2 (the average)
vs 2 (best: Intel Xeon E3-1275 v5)
Some applications use OpenCL to utilise the power of the graphics processing unit (GPU) for non-graphical computing. Newer versions introduce more functionality and better performance.
7.Vastly higher maximum operating temperature
100°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.
35mmvs 37mm (the average)
vs 6mm (best: Apple A5 APL7498)
9.Significantly more displays supported
3vs 3 (the average)
vs 4 (best: AMD A10-5800K)
Using multiple displays you can create a larger work space, making it easier to work across multiple applications.
35mmvs 36mm (the average)
vs 6mm (best: Apple A5 APL7498)
AMD A4-3300M
AMD A4-3300M specs
AMD A4-3300M features
AMD A4-3300M pros and cons
AMD A4-3300M advantages
AMD A4-3300M disadvantages